Abstract
Since their advent in 2003, deep eutectic solvents have found applications in numerous fields where their properties as solvents, permitting the dissolutions of a large variety of solutes, and their being “green”, i.e., ecologically friendly as described in Chap. 1, gave them advantages over more conventional solvents. It is possible in the present chapter to present only examples of the numerous applications that have been proposed over less than a score of years that have passed since the first publication regarding the deep eutectic solvents.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Clarke CJ, Ti WC, Levers O, Brohl A, Hallett JP (2018) Green and sustainable solvents in chemical processes. Chem Rev 118:747–800
Joos B, Vranken T, Marchal W, Safari M, Van Bael MK, Hardy AT (2018) Eutectogels: a new class of solid composite electrolytes for Li/Li ion batteries. Chem Mater 30:655–662
Abbott AP, Capper G, Davies DL, McKenzie KJ, Obi SU (2006) Solubility of metal oxides in deep eutectic solvents based on choline chloride. J Chem Eng Data 51:1280–1282
Abbott AP, Boothby D, Capper G, Davies DL, Rasheed RK (2004) Deep eutectic solvents formed between choline chloride and carboxylic acids: versatile alternatives to ionic liquids. J Am Chem Soc 126:9142–9147
Abbott AP, Frisch G, Ryder KS (2008) Metal complexation in ionic liquids. Ann Rep Progr Chem A 104:21–45
Abbott AP, Capper G, Davies DL, Rasheed RK, Shikotra P (2005) Selective extraction of metals from mixed oxide matrices using choline-based ionic liquids. Inorg Chem 44:6497–6499
Abbott AP, Capper G, Davies DL, Shikotra P (2006) Processing metal oxides using ionic liquids. Trans Inst Min Metall C 115:15–18
Parnham ER, Drylie EA, Wheatley PS, Slawin AMZ, Morris RE (2006) Ionothermal materials synthesis using unstable deep-eutectic solvents as template-delivery agents. Angew Chem Int Ed 45:4962–4968
Gao F, Huang L, Ma Y, Jiao S, Jiang Y, Bi Y (2017) Ionothermal synthesis, characterization of a new layered gallium phosphate with an unusual heptamer SBU. J Solid State Chem 254:155–159
Lohmeier S-J, Wiebecke M, Behrens P (2008) Ionothermal synthesis and characterization of a layered propylene diammonium gallium phosphate. Z Anorg Allg Chem 634:147–152
Drylie EA, Wragg DS, Parnham ER, Wheatley PS, Slawin AMZ, Warren JE, Morris RE (2007) Ionothermal synthesis of unusual choline-templated cobalt aluminophosphates. Angew Chem Int Ed 46:7835–7843
Aidoudi FH, Byrne PJ, Allan PK, Teat SJ, Lightfoot P, Morris RE (2011) Ionic liquids and deep eutectic mixtures as new solvents for synthesis of vanadium fluorides and oxyfluorides. Dalton Trans 40:4324–4331
Diaz-Alvarez AE, Francos J, Lastra-Barreira B, Crochet P, Cadierno V (2011) Glycerol and derived solvents: new sustainable reaction media for organic synthesis. Chem Commun 47:6208–6227
Gu Y, Jerome F (2013) Bio-based solvents: an emerging generation of fluids for the design of eco-efficient processes in catalysis and organic chemistry. Chem Soc Rev 42:9550–9570
Zhrina I, Nasikin M, Mulia K, Prajanto M, Yanuar A (2017) Molecular interactions between betaine monohydrate-glycerol deep eutectic solvents and palmitic acid: computational and experimental studies. J Mol Liq 251:28–34
Garcia-Alvarez J (2014) Deep eutectic solvents: environmentally friendly media for metal-catalyzed organic reactions. ACS Symp Ser 1186:37–52
Garcia-Alvarez J (2015) Deep eutectic solvents: promising sustainable solvents for metal-catalyzed and metal-mediated organic reactions. Eur J Inorg Chem 2015:5147–5157
Liu P, Hao JW, Mo LP, Zhang ZH (2015) Recent advances in the application of deep eutectic solvents as sustainable media as well as catalysts in organic reactions. RSC Adv 5:48675–48704
Vidal C, Merz L, Garcia-Alvarez J (2015) Deep eutectic solvents: biorenewable reaction media for Au(I)-catalyzed cycloisomerizations and one-pot tandem cycloisomerization/Diels-Alders reactions. Green Chem 17:3870–3878
Sheldon RA (2016) Biocatalysis and biomass conversion in alternative reaction media. Chem Eur J 22:12984–12999
Wazeer I, Hayyan M, Hadj-Kali MK (2018) Deep eutectic solvents: designer fluids for chemical processes. J Chem Technol Biotechnol 93:945–958
Ge X, Gu C, Wang X, Tu J (2017) Deep eutectic solvents (DESs)-derived advanced functional materials for energy and environmental applications: challenges, opportunities, and future vision. J Mater Chem A 5:8209–8229
Khandelwal S, Tailor YK, Kumar M (2016) Deep eutectic solvents (DESs), as eco-friendly and sustainable solvent/catalyst systems in organic transformations. J Mol Liq 215:345–386
Juneidi I, Hayyan M, Hashim MA (2018) Intensification of biotransformations using deep eutectic solvents: overview and outlook. Process Biochem 66:33–60
Gutierrez MC, Ferrer ML, Yuste L, Rojo F, del Monte F (2010) Bacteria incorporated in deep eutectic solvents through freeze drying. Angew Chem Int Ed 49:2158–2162
Khodaverdian S, Dabirmanesh B, Hrydari A, Dashtban-moghadam E, Khaje K, Ghazi F (2018) Activity, stability and structure of lactase in betaine-based natural deep eutectic solvents. Int J Biol Macromol 107:2574–2579
Singh BS, Lobo HR, Pinjari DV, Jarag KJ, Pandit AB. Shankarling GS (2013) Ultrasound and deep eutectic solvents (DES): a novel blend of techniques for rapid and energy efficient synthesis of oxazoles. Ultrason Sonochem 20:287–293
Maleki A, Aghaei M, Hafizi-Atabak HR, Ferdowsi M (2017) Ultrasonic treatment of CoFe2O4@B2O3-SiO2 as a new hybrid magnetic composite nanostructure and catalytic application in the synthesis of dihydroquinazolinones. Ultrason Sonochem 37:260–266
Sirviö JA, Visanko M, Liimatainen H (2016) Acidic deep eutectic solvents as hydrolytic media for cellulose nanocrystal production. Biomacromolecules 17:3025–3032
De Santi V, Gardellini F, Brinchi L, Germani R (2012) Novel Brønsted acidic deep eutectic solvents as reaction media for esterification of carboxylic acids with alcohols. Tetrahedron Lett 53:5151–5155
Vidal C, Suarez FJ, Garcia-Alvarez J (2014) Deep Eutectic solvents (DES) as green reaction media for the redox isomerization of allylic alcohols into carbonyl compounds catalyzed by the ruthenium complex [RuC10H16-Cl2(benzimidazole)]. Catal Commun 44:76–79
Cicco L, Rodriguez-Alvarez MJ, Perna FM, Garcia-Alvarez J, Capriati V (2017) One-pot sustainable synthesis of tertiary alcohols by combining ruthenium-catalyzed isomerization of allylic alcohols and chemoselecive addition of polar organometallic reagents in deep eutectic solvents. Green Chem 19:3069–3077
Marset X, Guillena G, Ramon DJ (2017) Deep eutectic solvents as reaction media for the palladium catalyzed C-S bond formation: scope and mechanistic studies. Chem Eur J 23:10522–10525
Shaabani A, Afshan R (2017) Magnetic Ugi-functionalized graphene oxide complexed with copper nanoparticles: efficient catalyst toward Ullman coupling reaction in deep eutectic solvents. J Colloid Interface Sci 510:384–394
Brenna D, Massolo E, Puglisi A, Rossi S, Celentano G, Benaglia M, Capriati V (2016) Towards the development of continuous, organocatalytic, and stereoselective reactions in deep eutectic solvents. Beilstein J Org Chem 12:2620–2626
Massolo E, Palmieri S, Benagklia M, Capriati V, Perna FM (2016) Stereoselective organocatalyzed reactions in deep eutectic solvents: highly tunable and biorenewable reaction media for sustainable organic synthesis. Green Chem 18:792–797
Martinez R, Berbegal L, Guillena G, Ramon DJ (2016) Bio-renewable enantioselective aldol reaction in natural deep eutectic solvents. Green Chem 18:1724–1730
Singh R, Singh A (2017) Regio- and stereoselective synthesis of novel trispiropyrrolidine thiapyrrolizidines using deep eutectic solvent as an efficient reaction media. J Iran Chem Soc 14:1119–1129
Maugeri Z, Leitner W, Dominguez de Maria P (2013) Chymotripsin catalyzed peptide synthesis in deep eutectic solvent. Eur J Org Chem 2013:4223–4228
Sanap AS, Shankarling GS (2014) Eco-friendly and recyclable media for rapid synthesis of tricyanovinylated aromatics using biocatalyst and deep eutectic solvents. Catal Commun 40:58–62
Bubalo MC, Tušek AJ, Vinković M, Radošević K, Srček VG, Redovniković IR (2015) Cholinium-based deep eutectic solvents and ionic liquids for lipase-catalyzed synthesis of butyl acetate. J Mol Catal B Enzym 122:188–190
Papadopoulo AA, Efstathiadou E, Patila M, Polydera AC, Stamatis H (2016) Deep eutectic solvents for peroxidation reactions catalyzed by heme-dependent biocatalysts. Ind Eng Chem Res 55:5145–5151
Ranganathan S, Zeitlhofer S, Sieber V (2017) Development of a lipase-mediated epoxidation process for monoterpenes in choline chloride-based deep eutectic solvents. Green Chem 19:2576–2586
Gorke J, Srienc F, Kazlauskas R (2010) Towards advanced ionic liquids, polar enzyme-friendly solvents for biocatalysis. Biotechnol Bioproc Eng 15:40–53
Zhao H, Baker GA (2013) Ionic liquids and deep eutectic solvents for biodiesel synthesis: a review. J Chem Technol Biotechnol 88:3–12
Padvi SA, Dalal DS (2017) Choline chloride-ZnCl2: recyclable and efficient deep eutectic solvent for the [2 + 3] cycloaddition reaction of organic nitriles with sodium azide. Synth Commun 47:779–787
Nguyen HT, Tran PH (2016) An extremely efficient and green method for the acylation of secondary alcohols, phenols and naphthols with a deep eutectic solvents as a catalyst. RSC Adv 6:98365–98368
Alhassan Y, Kumar N, Bugaje IM (2016) Catalytic upgrading of waste tire pyrolysis oil via supercritical esterification with deep eutectic solvents (green solvents and catalysts). J Energy Inst 89:683–693
Taysun MB, Sert E, Atalay FS (2016) Physical properties of benzyl-trimethylammonium chloride based deep eutectic solvents and employment as catalyst. J Mol Liq 223:845–852
Taysun MB, Sert E, Atalay FS (2017) Effect of hydrogen bond donor on the physical properties of benzyltrimethylammonium chloride based deep eutectic solvents and their usage in 2-ethylhexyl acetate synthesis as catalyst. J Chem Eng Data 62:1173–1181
Vidal C, Garcia-Alvarez J, Hernan-Gomez A, Kennedy AR, Hevia E (2016) Exploiting deep eutectic solvents and organolithium reagent partnership: chemoselective ultrafast addition to imines and quinolines under aerobic ambient temperature conditions. Angew Chem Int Ed 55:16145–16148
Chirea M, Freitas A, Vasile BS, Ghitulica C, Pereira CM, Silva F (2011) Gold nanowire networks: synthesis, characterization, and catalytic activity. Langmuir 27:3906–3913
Oh JH, Lee JS (2014) Synthesis of gold microstructures with surface nanoroughness using a deep eutectic solvent for catalytic and diagnostic applications. J Nanosci Nanotechnol 14:3753–3757
Oumahi C, Lombard J, Casale S, Calers C, Delannoy L, Louis C, Carrier X (2014) Heterogeneous catalyst preparation in ionic liquids: titania supported gold nanoparticles. Catal Today 235:58–71
Jia H, An J, Guo X, Su C, Zhang L, Zhou H, Xie C (2015) Deep eutectic solvent-assisted growth of gold nanofoams and their excellent catalytic properties. J Mol Liq 212:763–766
Shuwa SM, Al-Hajri RS, Jibril BY, Al-Waheibi YM (2015) Novel deep eutectic solvent-dissolved molybdenum oxide catalyst for the upgrading of heavy crude oil. Ind Eng Chem Res 54:3589–36001
Gage SH, Ruddy DA, Pylypenko S, Richards RM (2018) Deep eutectic solvent approach towards nickel/nickel nitride nanocomposites. Catal Today 306:9–15
Maleki A, Kari T, Aghael M (2017) Fe3O4@SiO2@TiO2-OSO3H: an efficient hierarchical nanocatalyst for the organic quinazolines synthesis. J Porous Mater 24:1481–1496
Marset X, Khoshnood A, Sotorrios L, Gomez-Bengoa E, Alonso DA, Ramon DJ (2017) Deep eutectic solvent compatible metallic catalysts: cationic pyridinephosphine ligands in palladium catalyzed cross-coupling reactions. ChemCatChem 9:1269–1275
Marset XC, Perez JM, Ramon DS (2016) Cross-dehydrogenative coupling reaction using copper oxide impregnated on magnetite in deep eutectic solvents. Green Chem 18:826–833
Mota-Morales JD, Sanchez-Leija RJ, Carranza A, Pojman JA, del Monte F, Luna-Barcenas G (2018) Free radical polymerization of and in deep eutectic solvents: green synthesis of functional materials. Progr Polym Sci 78:139–153
Liu Y, Wang Y, Dai Q, Zhou Y (2016) Magnetic deep eutectic solvents molecularly imprinted polymers for the selective recognition and separation of protein. Anal Chim Acta 936:168–178
Wu X, Du J, Li M, Wu L, Han C, Su F (2018) Recent advances in green reagents for molecularly imprinted polymers. RSC Adv 8:311–327
Loow YL, New EK, Yang GH, Ang LY, Foo LYW, Wu TY (2017) Potential use of deep eutectic solvents to facilitate lignocellulosic biomass utilization and conversion. Cellulose 24:3591–3618
van Osch DJGP, Kollau MJBM, van den Bruinhorst A, Asikainen S, Rocha MAA, Kroon M (2017) Ionic liquids and deep eutectic solvents for lignocellulose biomass fractionation. Phys Chem Chem Phys 19:2636–2665
Duffy JA, Ingram MD (1977) Metal aquo ions in molten salt hydrates. A new class of mineral acids? Inorg Chem 16:2988
Linke WF, Seidell A (1965) Solubilities of inorganic and metal-organic compounds, 4th edn, vol II, K – Z. American Chemical Society, Washington, p 1659
Schestakow M, Karadagli I, Ratke L (2016) Cellulose aerogels prepared from an aqueous zinc chloride salt hydrate melt. Carbohydr Polym 137:642–649
Rege A, Schestakow M, Karadagli I, Ratke L, Itskov M (2016) Micro-mechanical modelling of cellulose aerogels from molten salt hydrates. Soft Matter 12:7079–7088
Sen S, Martin JD, Argyropoulos DS (2013) Review of cellulose non-derivatizing solvent interactions with emphasis on activity in inorganic molten salt hydrates. ACS Sust Chem Eng 1:858–870
Cao NJ, Xu Q, Che LF (1995) Acid hydrolysis of cellulose in zinc chloride solution. Appl Biochem Biotechnol 51–52:21–28
Menegassi de Almeida R, Li J, Nederlof C, O’Connor P, Mkkee M, Moulijn JA (2010) Cellulose conversion to isosorbide in molten salt hydrate media. ChenSusChem 3:325–328
Richards NJ, Williams DG (1970) Complex formation between aqueous zinc chloride and cellulose-related D-glucopyranosides. Carbohydr Res 12:409–420
Liu Z, Zhang C, Liu R, Zhang W, Kang H, Li P, Huang Y (2016) Dissolution of cellulose in the aqueous solutions of chloride salts: Hofmeister series considerations. Cellulose 23:295–305
Xu Q, Chen C, Rosswurm K, Yao T, Janaswamy S (2016) A facile route to prepare cellulose-based films. Carbohydr Polym 149:274–281
Lin M, Shang X, Liu P, Xie F, Chen X, Sun Y, Wan J (2016) Zinc chloride aqueous solution as a solvent for starch. Carbohydr Polym 136:266–273
Williams HE (1921) Action of thiocyanates on cellulose. J Soc Chem Ind (London) 40:221–224
Kuga S (1980) The porous structure of cellulose gel regenerated from calcium thiocyanate solution. J Coll Interf Sci 77:413–417
Hattori M, Koga T, Shimaya Y, Saito M (1998) Aqueous calcium thiocyanate solution as a cellulose solvent. Structure and interactions with cellulose. Polym J 30:43–48
Hattori M, Shimaya Y, Saito M (1998) Structural changes in wood pulp treated by 55 wt% aqueous calcium thiocyanate solution. Polym J 30:37–42
Hattori M, Shimaya Y, Saito M (1998) Solubility and dissolved cellulose in aqueous calcium and sodium thiocyanate solution. Polym J 30:49–55
Fischer S, Voigt W, Fischer K, Spange S, Vilsmeier E (1998) Behavior of cellulose in hydrated melts. Molten Salt Forum 5–6:477–480
Fischer S, Voigt W, Fischer K (1999) The behavior of cellulose in hydrated melts of the composition LiX·nH2O (X = I−, NO3−, CH3CO2−, ClO4−). Cellulose 6:213–219
Fischer S, Thummler K, Pfewiffer K, Liebert T, Heinze T (2002) Evaluation of molten inorganic salt hydrates as reaction medium for the derivatization of cellulose. Cellulose 9:293–300
Leipner H, Fischer S, Brendler E, Voigt W (2000) Structural changes of cellulose dissolved in molten salt hydrates. Macromol Chem Phys 201:2041–2048
Yang YJ, Shin JM, Tong HK, Kimura S, Wada M, Kim UJ (2014) Cellulose dissolution in lithium bromide solutions. Cellulose 21:1175–1181
Deng W, Kennedy JR, Tsilomelekis G, Zheng W, Nikolakis V (2015) Cellulose hydrolysis in acidified LiBr molten salt hydrate media. Ind Eng Chem Res 54:5226–5236
Kihlman M, Medronho BF, Romano AL, Germagara U, Lindman R (2013) Cellulose dissolution in an alkali based solvent: influence of additives and pretreatments. J Braz Chem Soc 24:295–303
Lau BBY, Yeung T, Patterson RJ, Aldous L (2017) A cation study on rice husk biomass pretreatment with aqueous hydroxides: cellulose solubility does not correlate with improved enzymatic hydrolysis. ACS Sust Chem Eng 5:5320–5329
Fischer S, Thümmler K (2010) Molten inorganic salts as reaction medium for cellulose. ACS Symp Ser 1033:91–101
Xia S, Baker GA, Li H, Ravula S, Zhao H (2014) Aqueous ionic liquids and deep eutectic solvents for cellulose biomass pretreatment and saccharification. RSC Adv 4:10586–10596
Tenhunen TM, Lewandowska AE, Orelma H, Johansson LS, Virtanen T, Harlin A, Österberg M, Eichhorn SJ, Tammelin T (2018) Understanding the interactions of cellulose fibres and deep eutectic solvent of choline chloride and urea. Cellulose 25:137–150
Fang C, Thomsen MH, Frankaer CG, Brudecki GP, Schmidt JE, AlNashef IM (2017) Reviving pretreatment effectiveness of deep eutectic solvents on lignocellulosic date palm residues by prior recalcitrance reduction. Ind Eng Chem Res 56:3167–3174
Chen Z, Wan C (2017) Ultrafast fractionation of lignocellulose biomass by microwave assisted deep eutectic solvent pretreatment. Bioresour Technol 250:532–537
Tian D, Hu J, Bao J, Chandra RP, Sadler JN, Lu C (2017) Lignin valorization: lignin nanoparticles as high bio-additive for multifunctional nanocomposites. Biotechnol Biofuels 10:192/1–11
Lynam JG, Kumar B, Wong MJ (2017) Deep eutectic solvents’ ability to solubilize lignin, cellulose, and hemicellulose: thermal stability and density. Bioresour Technol 238:684–689
Francisco M, Van der Bruihorst A, Kroon MC (2012) New natural and renewable low transition temperature mixtures (LTTMs): screening as solvents for lignocellulosic biomass processing. Green Chem 14:2153–2157
Dominguez de Maria P (2014) Recent trends in (lingo)cellulose dissolution using neoteric solvents: switchable, distillable, and bio-based ionic liquids. J Chem Technol Biotechnol 89:11–18
Hou XD, Feng GJ, Ye M, Huang CM, Zhang Y (2017) Significantly enhanced enzymatic hydrolysis of rice straw via a high-performance two-stage deep eutectic solvents synergistic pretreatment. Bioresour Technol 238:139–146
Abbott AP, Cullis PM, Gibson MJ, Harris RC, Raven E (2007) Extraction of glycerol from biodiesel into a eutectic based ionic liquid. Green Chem 9:868–872
Hayyan M, Mjalli FS, Hashim MA, AlNashef IM (2010) A novel technique for separating glycerin from palm oil-based biodiesel using ionic liquids. Fuel Proc Technol 91:116–120
Shahbaz K, Mjalli FS, Hashim MA, AlNashef IM (2011) Elimination of all free glycerol and reduction of total glycerol from palm oil-based biodiesel using non-glycerol based deep eutectic solvents. Sep Sci Technol 48:1184–1193
Shahbaz K, Mjalli FS, Hashim MA, AlNashef IM (2011) Using deep eutectic solvents based on methyltriphenylphosphonium bromide for the removal of glycerol, from palm oil-based biodiesel. Energy Fuels 25:2671–2678
Shahbaz K, Baroutian S, Mjalli FS, Hashim MA, AlNashef IM (2012) Prediction of glycerol removal from biodiesel using ammonium and phosphonium based deep eutectic solvents using artificial intelligence techniques. Chemometr Intell Lab Syst 118:193–199
Williamson ST, Shahbaz K, Mjalli FS, AlNashef IM, Farid MM (2017) Application of deep eutectic solvents as catalysts for the esterification of oleic acid with glycerol. Renew Energy 114:480–488
Hayyan A, Hashim MA, Mjalli FS, Hayyan M, AlNashef IM (2013) A novel phosphonium-based deep eutectic catalyst for biodiesel production from industrial low grade crude palm oil. Chem Eng Sci 92:81–88
Hayyan A, Hashim MA, Mjalli FS, Hayyan M, AlNashef IM (2013) A novel ammonium based eutectic solvent for the treatment of free fatty acid and synthesis of biodiesel fuel. Ind Crops Prod 46:392–398
Shahbaz K, Mjalli FS, Hashim MA, AlNashef IM (2011) Eutectic solvents for the removal of residual palm-oil-based biodiesel catalyst. Sep Purif Technol 81:216–223
Bewley BR, Berkaliev A, Henriksen H, Ball DB, Ott LS (2015) Waste glycerol from biodiesel synthesis as a component in deep eutectic solvents. Fuel Proc Technol 138:419–423
Huang W, Tang S, Zhao H, Tian S (2013) Activation of commercial CaO for biodiesel production from rapeseed oil using a novel deep eutectic solvent. Ind Eng Chem Res 52:11943–11947
Homan T, Shahbaz K, Farid MM (2017) Improving the production of propyl and butyl ester-based biodiesel by purification using deep eutectic solvents. Sep Purif Technol 174:570–576
Santosh AK, Kiran A, Anant J, Dayanand N, Rahul P, Poonam K (2017) Optimization of conversion of Pongamia pinnata oil with high FFA to biodiesel using novel deep eutectic solvent. J Environ Chem Eng 5:5331–5336
Gu L, Huang W, Tang S, Tian S, Zhang X (2015) A novel deep eutectic solvent for biodiesel preparation using a homogeneous base catalyst. Chem Eng J 259:647–652
Long T, Deng Y, Gan S, Chen J (2010) Application of choline chloride ZnCl2 ionic liquids for preparation of biodiesel. Chin J Chem Eng 18:322–327
Sander A, Koscak MA, Kosir D, Milosavljevic N, Vukovic JP, Magic L (2017) The influence of animal fat type and purification conditions on biodiesel quality. Renew Energy 118:752–760
Huang ZL, Wu BO, Wen Q, Yang TX, Yang Z (2014) Deep eutectic solvents can be viable enzyme activators and stabilizers. J Chem Technol Biotechnol 89:1975–1981
Zhao H, Zhang C, Crittle TD (2013) Choline-based deep eutectic solvents for enzymatic preparation of biodiesel from soybean oil. J Mol Catal B Enzym 85–86:243–247
Kleiner B, Fleischer P, Schorken U (2016) Biocatalytic synthesis of biodiesel utilizing deep eutectic solvents: a two-step-one-pot approach with free lipases suitable for acidic and used cooking oil. Proc Biochem 51:1808–1816
Zhang Y, Xia X, Duan M, Han Y, Liu J, Luo M, Zhao C, Zu Y, Fu Y (2016) Green deep eutectic solvent assisted enzymatic preparation of biodiesel from yellow horn seed oil with microwave irradiation. J Mol Catal B Enzym 123:35–40
Lu W, Alam MA, Pan Y, Wu J, Wang Z, Yuan Z (2016) A new approach of microalgal biomass pretreatment using deep eutectic solvents for enhanced lipid recovery for biodiesel production. Bioresour Technol 218:123–128
Pan Y, Alam MA, Wang Z, Huang D, Hu K, Chen H, Yuan Z (2017) One-step production of biodiesel from wet and unbroken microalgae biomass using deep eutectic solvent. Bioresour Technol 238:157–163
Zhao H, Baker GA (2012) Ionic liquids and deep eutectic solvents for biodiesel synthesis: a review. J Chem Technol Biotechnol 88:3–12
Troter DZ, Todorovic ZB, Dokic-Stojanovic DR, Stamenkovic OS, Veljkovic VB (2016) Application of ionic liquids and deep eutectic solvents in biodiesel production: a review. Renew Sustain Energy Rev 61:473–500
Sebastian P, Botello LE, Valles E, Gomez E, Palomar-Pardave M, Scharifker BR, Mostany J (2016) Three dimensional nucleation with diffusion controlled growth: a comparative study of electrochemical phase formation from aqueous and deep eutectic solvents. J Electroanal Chem 793:119–125
Abbott AP, Harris RC, Holyoak F, Frisch G. Hartley J, Jenkin GRT (2015) Electrocatalytic recovery of elements from complex mixtures using deep eutectic solvents. Green Chem 17:2172–2179
Haerens K, Matthijs E, Chmielarz A, van der Bruggen B (2009) The use of ionic liquids based on choline chloride for metal deposition: a green alternative. J Environ Manage 90:3245–3252
Pollet BG, Hihn JY, Mason TJ (2008) Sono-electrodeposition (20 and 850 kHz) of copper in aqueous and deep eutectic solvents. Electrochim Acta 53:4248–4256
Hou Y, Li R, Liang J (2018) Superhydrophilic nickel-coated meshes with controllable pore size prepared by electrodeposition from deep eutectic solvent for efficient oil/water separation. Sep Purif Technol 192:21–29
Renjith A, Roy A, Lakshminarayanan V (2014) In situ fabrication of electrochemically grown mesoporous metallic thin films by anodic dissolution in deep eutectic solvents. J Colloid Interface Sci 426:270–279
Rayee Q, Noneux T, Buess-Herman C (2017) Underpotential deposition of silver from deep eutectic electrolytes. Electrochim Acta 237:127–132
Li A, Chen Y, Duan W, Wang C, Zhuo K (2017) Shape-controlled electrochemical synthesis of Au nanocrystals in reline: control conditions and electrocatalytic oxidation of ethylene glycol. RSC Adv 7:19694–19700
Cojocaru P, Magagnin L, Gomez E, Valles E (2011) Using deep eutectic solvents to electrodeposit CoSm films and nanowires. Mater Lett 65:3597–3600
Zhang J, Gu C, Tong Y, Wang X, Tu J (2015) Electrodeposition of superhydrophobic Cu film on active substrate from deep eutectic solvent. J Electrochem Soc 162:D313–D319
Xie X, Zou X, Lu X, Xu Q, Lu C, Chen C, Zhou Z (2017) Electrodeposition behavior and characterization of copper/zinc alloy in deep eutectic solvent. J Appl Electrochem 47:679–689
Cherigui EAM, Sentosun K, Bouckenooge P, Vanrompay H, Bals S, Terryn H, Ustarroz J (2017) Comprehensive study of the electrodeposition of nickel nanostructures from deep eutectic solvents: self-limiting growth by electrolysis of residual water. J Phys Chem B 121: 9337–9347
Hammons JA, Muselle T, Ustarroz J, Tzedaki M, Raes M, Hubin A, Terryn H (2013) Stability, assembly, and particle/solvent interactions of Pd nanoparticles electrodeposited from a deep eutectic solvent. J Phys Chem C 112:14381–14389
Wei L, Fan YJ, Wang HH, Tian N, Zhou ZY, Sun SG (2012) Electrochemically shape-controlled synthesis in deep eutectic solvent of Pt nanoflowers with enhanced activity for ethanol oxidation. Electrochim Acta 76:468–474
Wei L, Zhou ZY, Chen SP, Xu CD, Su D, Schuster ME, Sun SG (2013) Electrochemically shape-controlled synthesis in deep eutectic solvents: triambic icosahedral platinum nanocrystals with high-index facets and their enhanced catalytic activity. Chem Commun 49:11152–11154
Yanai T, Siraishi K, Akiyoshi T, Azuma K, Watanabe Y, Ohgai T, Morimura T, Nakano M, Fukunaga H (2016) Electroplated Fe-Co-Ni films prepared from deep eutectic solvent based plating baths. Am Inst Phys Adv 6:055917/1–6
Yanai T, Shiraishi K, Simokawa T, Watanabe Y, Ohgai T, Nakano M, Suzuki K, Fukunaga H (2014) Electroplated Fe films prepared from a deep eutectic solvent. J Appl Phys 115:17A344/1–3
Gu C, Tu J (2011) One-step fabrication of nanostructured Ni film with lotus effect from deep eutectic solvent. Langmuir 27:10132–10140
Ghosh S, Roy S (2014) Characterization of tin films synthesized from ethaline deep eutectic solvent. Mater Sci Eng, B 190:104–110
Gomez E, Cojocaru P, Magagnin L, Valles E (2011) Electrodeposition of Co, Sm, and SmCo from a deep eutectic solvent. J Electroanal Chem 658:18–24
Guillamat P, Cortes M, Valles E, Gomez E (2012) Electrodeposited CoPt films from a deep eutectic solvent. Surf Coat Technol 206:4439–4448
Kumaraguru S, Pavilraj R, Vijayakumar J, Mohan S (2017) Electrodeposition of cobalt/silver multilayers from deep eutectic solvent and their giant magnetoresistance. J Alloys Comp 693:1143–1149
Yanai T, Siraishi K, Watanabe Y, Ohgai T, Nakano M, Suzuki K, Fukunaga H (2015) Magnetic Fe-Co-Ni films electroplated in a deep eutectic solvent based plating bath. J Appl Phys 117:17A925/1–4
Steichen M, Thomassey M, Siebentritt S, Dale PJ (2011) Controlled electrodeposition of Cu-Ga from a deep eutectic solvent for a low cost fabrication of CuGaSe2 thin film solar cells. Phys Chem Chem Phys 13:4292–4302
Niu G, Yang S, Li H, Yi J, Wang M, Lv X, Zhong H (2014) Electrodeposition of Cu-Ga precursor layer from deep eutectic solvent for CuGaS2 solar energy thin film. J Electrochem Soc 161:D333–D338
Cao Z, Yang S, Wang M, Huang X, Li H, Yi J, Zhong J (2016) Cu(InGa)S2-absorber layer prepared for thin film solar cell by electrodeposition of Cu-Ga precursor from deep eutectic solvent. Sol Energy 139:29–35
Malaquias J, Regesch D, Dale PJ, Steichen M (2014) Tuning the gallium content of metal precursors for Cu(In, Gas)Se2 thin film solar cells by electrodeposition from a deep eutectic solvent. Phys Chem Chem Phys 16:2361–2367
Chen H, Ye Q, He X, Ding J, Zhang Y, Han J, Liu J, Liao C, Mei J, Lau W (2014) Electrodeposited CZST solar cells from Reline electrolyte. Green Chem 16:3841–3845
Abbott AP, El Ttaib K, Frisch G, McKenzie KJ, Ryder KS (2009) Electrodeposition of copper composites from deep eutectic solvents based on choline chloride. Phys Chem Chem Phys 11:4269–4277
Abbott AP, El Ttaib K, Frisch G, Ryder KS, Weston D (2012) The electrodeposition of silver composites using deep eutectic solvents. Phys Chem Chem Phys 14:2446–2449
Li R, Hou Y, Liang J (2016) Electro-codeposition of Ni-SiO2 nanocomposite coatings from deep eutectic solvent with improved resistance. Appl Surf Sci 367:449–458
Liao YS, Chen PY, Sun IW (2016) Electrochemical study and recovery of Pb using 1:2 choline chloride/urea deep eutectic solvent: a variety of Pb species PbSO4, PbO2, and PbO exhibits the analogous thermodynamic behavior. Electrochim Acta 214:265–275
Pereira NM, Salome S, Pereira CM, Silva AF (2012) Zn-Sn electrodeposition from deep eutectic solvents containing EDTA, HEDTA, and Idranal VII. J Appl Electrochem 42:561–571
Pereira NM, Pereira CM, Silva AF (2012) The effect of complex agents on the electrodeposition of tin from deep eutectic solvents. ECS Electrochem Lett 1:D5–D7
Pereira NM, Fernandes PMV, Pereira CM, Silva AF (2012) Electrodeposition of zinc from choline chloride-ethylene glycol deep eutectic solvent: effect of tartrate ion. J Electrochem Soc 159:D501–D506
Song Y, Tang J, Hu J, Yang H, Gi W, Fu Y, Ji X (2017) Interfacial assistant role of amine additives on zinc electrodeposition from deep eutectic solvents: an in situ X-ray imaging investigation. Electrochim Acta 240:90–97
Fashu S, Gu C, Zhang J, Huang M, Wang X, Tu J (2015) Effect of EDTA and NH-4Cl additives on electrodeposition of Zn-Ni from choline chloride-based ionic liquid. Trans Nonferrous Met Soc China 25:2054–2064
Fashu S, Gu CD, Zhang JL, Zheng JL, Wang XL, Tu JP (2015) Electrodeposition, morphology, composition, and corrosion performance of Zn-Mn coatings from a deep eutectic solvent. J Mater Eng Perform 24:434–444
Sakita AM, Della Noce R, Fugivara CS, Benedetti AV (2016) On the cobalt and cobalt oxide electrodeposition from a glyceline deep eutectic solvent. Phys Chem Chem Phys 18:25048–25057
Salome S, Pereira NM, Ferreira ES, Pereira CM, Silva AF (2013) Tin electrodeposition from choline chloride based solvent: influence of the hydrogen bond donors. J Electroanal Chem 703:80–87
Popescu AMJ, Constantin V, Olteanu M, Demidenko O, Yanushkevich K (2011) Obtaining and structural characterization of the electrodeposited metallic copper from ionic liquids. Rev Chim (Bucharest) 62:626–632
Abbott AP, Capper G, Davies DL, Rasheed RK (2004) Ionic liquid analogues formed from hydrated metal salts. Chem Eur J 10:3769–3774
Wright AC, Faulkner MK, Harris RC, Goddard A, Abbott AP (2012) Nanomagnetic domains of chromium deposited on vertically-aligned carbon nanotubes. J Magn Magn Mater 324:4170–4174
De Vreese P, Skoczylas A, Matthijs E, Fransaer J, Binnemans K (2013) Electrodeposition of copper-zinc alloys from an ionic liquid-like choline acetate electrolyte. Electrochim Acta 108:788–794
Bernasconi R, Zebarjadi M, Magagnin L (2015) Copper electrodeposition from a chloride deep eutectic solvent. J Electroanal Chem 758:163–169
Abbott AP, Capper G, Swain BG, Wheeler DA (2005) Electropolishing of stainless steel in an ionic liquid. Trans Inst Metal Finish 83:51–54
Abbott AP, Capper G, McKenzie KJ, Glidle A, Ryder KS (2006) Electropolishing of stainless steels in a choline chloride based ionic liquid and electrochemical study with surface characterization using SEM and atomic force microscopy. Phys Chem Chem Phys 8:4214–4221
Abbott AP, Capper G, McKenzie KJ, Ryder KS (2006) Volumetric and impedance studies of the electropolishing of type 316 stainless steel in a choline chloride based ionic liquid. Electrochim Acta 51:4420–4425
Alrbaey K, Wimpenny DJ, Al-Barzinji AA, Moroz A (2016) Electropolishing of re-melted SLM stainless steel 316L parts using deep eutectic solvents: 3 × 3 full factorial design. J Mater Eng Perform 25:2836–2846
Ali MR, Rahman MZ, Saha SS (2014) Electroless and electrolytic deposition of nickel from deep eutectic solvents based on choline chloride. Indian J Chem Technol 21:127–133
Wixtrom AI, Buhler JE, Reece CE, Abdel-Fattah TM (2013) Electrochemical polishing applications and EIS of a vitamin B4-based ionic liquid. J Electrochem Soc 160:E22–E26
Abbott AP, Barron JC, Frisch G, Gurman S, Ryder KS, Silva AF (2011) The effects of additives on zinc electrodeposition from deep eutectic solvents. Electrochim Acta 56:5272–5279
Abbott AP, Ballantyne A, Harris RC, Juma JA, Ryder KS (2017) Bright metal coatings from sustainable electrolytes: the effect of molecular additives on electrodeposition of nickel from a deep eutectic solvent. Phys Chem Chem Phys 19:3219–3231
Goddard AJ, Harris RC, Saleem S, Azam M, Hood C, Clark D, Satchwell J, Ryder KS (2017) Electropolishing and electrolytic etching of Ni-based HIP consolidated aerospace forms: a comparison between deep eutectic solvents and aqueous electrolytes. Trans IMF 95:137–146
Yang C, Zhang QB, Abbott AP (2016) Facile fabrication of nickel nanostructures on a copper-based template via a galvanic replacement reaction in a deep eutectic solvent. Electrochem Commun 70:60–64
Abbott AP, Nandhara S, Postlethwaite S, Smith EL, Ryder KS (2007) Electroless deposition of metallic silver from a choline chloride-based ionic liquid: a study using acoustic impedance spectroscopy, SEM, and atomic force microscopy. Phys Chem Chem Phys 9:3735–3743
Abbott AP, Griffith J, Nandhara S, O’Connor C, Postlethwaite S, Ryder KS, Smith EL (2008) Sustained electroless deposition of metallic silver from a choline chloride-based ionic liquid. Surf Coat Technol 202:2033–2039
Ballantyne AD, Forrest GCH, Frisch G, Hartley JM, Ryder KS (2015) Electrochemistry and speciation of Au+ in a deep eutectic solvent: growth and morphology of galvanic immersion coatings. Phys Chem Chem Phys 17:30540–30550
Kang R, Liang J, Qiao Z, Peng Z (2015) Growth kinetics of copper replacement deposition on Al and Al-Si from a deep eutectic solvent. J Electrochem Soc 162:D515–D519
Abbott AP, McKenzie KJ (2006) Application of ionic liquids to the electrodeposition of metals. Phys Chem Chem Phys 8:4265–4279
Abbott AP, Ryder KS, Konig U (2008) Electrofinishing of metals using eutectic based ionic liquids. Trans Inst Metal Finish 86:196–204
Smith EL, Abbott AP, Ryder KS (2014) Deep eutectic solvents (DES) and their applications. Chem Rev 114:11060–11082
Haerens K, Matthijs E, Binnemans K, van der Bruggen B (2009) Electrochemical decomposition of choline chloride based ionic liquid analogues. Green Chem 11:1357–1365
Hammons JA, Ustarroz J, Muselle T, Torriero AAJ, Terryn H, Suthasr K, Ilavsky J (2016) Supported silver nanoparticle and near-interface solution dynamics in a deep eutectic solvent. J Phys Chem C 120:1534–1545
Oseguera-Galindo DO, Machorro-Mejia R, Bogdanchikova N, Mota-Morales JD (2016) Silver nanoparticles synthesized by laser ablation confined in urea choline chloride deep eutectic solvent. Colloid Interface Sci Commun 12:1–4
Liao HG, Jiang YX, Zhou ZY, Chen SP, Sun SG (2008) Shape-controlled synthesis of gold nanoparticles in deep eutectic solvents for studies of structure-functionality relationships in electrocatalysis. Angew Chem Int Ed 47:9100–9103
O’Neill M, Raghuwanshi VS, Wendt R, Wollgarten M, Hoell A, Rademann K (2015) Gold nanoparticles in novel green deep eutectic solvents: self-limited growth, self-assembly & catalytic implications. Z Phys Chem (Munich) 229:221–234
Raghuwanshi VS, Ochmann M, Hoell A, Polzer F, Rademann K (2014) Deep eutectic solvents for self-assembly of gold nanoparticles: a SAXS, UV-Vis, and TEM investigation. Langmuir 30:6038–6046
Raghuwanshi VS, Ochmann M, Hoell A, Polzer F, Rademann K (2014) Self-assembly of gold nanoparticles on deep eutectic solvent DES surfaces. Chem Commun 50:8696
Wei L, Sheng T, Ye JT, Lu BA, Tian N, Zhou ZY, Zhao XS, Sun SG (2017) Seeds and potentials mediated synthesis of high-index facetted gold nanocrystals with enhanced electrocatalytic activities. Langmuir 33:6991–6998
Tohidi M, Mahyari FA, Safavi A (2015) A seed-less method for synthesis of ultrathin gold nanosheets by using a deep eutectic solvent and gum Arabic and their electrocatalytic application. RSC Adv 5:32744–32754
Shahidi S, Iranpour S, Iranpour P, Alavi AA, Mahyari FA, Tohidi M, Safavi A (2015) A new X-ray contrast agent based on highly stable gum arabic-gold nanoparticles synthesized in deep eutectic solve. J Exp Nanosci 10:911–914
Kumar-Krishnan S, Guadalupe-Ferreira Garcia M, Prokhorov E, Estevez-Gonzalez M, Perez R, Esparza M, Mettappan M (2017) Synthesis of gold nanoparticles supported on functionalized nanosilica using deep eutectic solvents for an electrochemical enzymatic glucose biosensor. J Mater Chem B 5:7072–7081
Renjith A, Lakshminarayanan V (2015) One step preparation of ‘ready to use’ Au@Pd nanoparticles modified surface using deep eutectic solvents and a study of its electrocatalytic properties in methanol oxidation reaction. J Mater Chem A 3:3019–3028
Zhang JM, Sun SN, Li Y, Zhang XJ, Zhang PY, Fan YJ (2017) A strategy in deep eutectic solvents for carbon nanotube-supported PtCo nanocrystallites with enhanced performance towards methanol electrooxidation. Int J Hydrogen Energy 42:26744–26751
Wei L, Liu K, Mao YJ, Sheng T, Wei YS, Li JW, Zhao XS, Zhu FC, Xu BB, Sun SG (2017) Urea hydrogen bond donor-mediated synthesis of high-index facetted platinum concave nanocubes and their enhanced electrocatalytic activity. Phys Chem Chem Phys 19:31553–31559
Gao MY, Yang C, Zhang QB, Zeng JR, Li XT, Hua YX, Xu CY, Dong P (2017) Facile electrochemical preparation of self-supported porous Ni-Mo alloy microsphere films as efficient bifunctional electrocatalysts for water splitting. J Mater Chem A 5:5797–5805
Li X, Choi J, Ahn WS, Row KH (2018) Preparation and application of porous materials based on deep eutectic solvents. Crit Rev Anal Chem 48:73–85
Tang B, Row KH (2015) Exploration of deep eutectic solvent based mesoporous silica spheres as high performance size exclusion chromatography packing materials. J Appl Polym Sci 132:42203/1–6
Chen CY, Ozasa K, Kitamura F, Katsumata KI, Maeda M, Okada K, Matsushita N (2015) Self-organization of TiO2 nanobamboos by anodization with deep eutetctic solvent. Electrochim Acta 153:409–415
Anicai L, Petica A, Patroi D, Marinescu V, Prioteasa P, Costovici S (2015) Electrochemical synthesis of nanosized TiO2 nanopowder involving choline chloride based ionic liquids. Mater Sci Eng, B 199:87–95
Kaur N, Singh V (2017) Current status and future challenges in ionic liquids, functionalized ionic liquids and deep eutectic solvent-mediated synthesis of nanostructured TiO2: a review. New J Chem 41:2844–2868
Karimi M, Eshragi MI (2017) One-pot and green synthesis of Mn3O4 nanoparticles using an all-in-one system (solvent, reactant, template) based on ethaline deep eutectic solvent. J Alloys Comp 696:171–176
Thorat GM, Jadhav HS, Chung WJ, Seo JG (2017) Collective use of deep eutectic solvent for one-pot synthesis of ternary Sn/SnO2-@C electrode for supercapacitor. J Alloys Comp 732:694–704
Chen F, Xie S, Zhang J, Liu R (2013) Synthesis of spherical Fe3O4 magnetic nanoparticles by co-precipitation in choline chloride/urea deep eutectic solvent. Mater Lett 112:177–179
Karimi M, Shabani AMH, Dadfarnia S (2016) Deep eutectic solvent-mediated extraction for ligand-less preconcentration of lead and cadmium from environmental samples using magnetic nanoparticles. Microchim Acta 183:563–571
Chen F, Xie S, Huang X, Qiu X (2017) Ionothermal synthesis of Fe3O4 magnetic nanoparticles as efficient heterogeneous Fenton-like catalyst for degradation of organic pollutants with H2O2. J Hazard Mater 322:152–162
Tavakol H, Keshavarzipour F (2017) Preparation of choline chloride-urea deep eutectic solvent-modified magnetic nanoparticles for synthesis of various 2-amino-4H-pyran derivatives in water solution. Appl Organomet Chem 31:e3811/1–11
Qu Q, Tang W, Tang B, Zhu T (2017) Highly selective purification of ferulic acid from wheat bran using deep eutectic solvents modified magnetic nanoparticles. Sep Sci Technol 52:1022–1030
Maleki A, Aghaie M (2017) Ultrasonic-assisted environmentally-friendly synergetic synthesis of nitroaromatic compounds in core/shell nanoreactor: a green protocol. Ultrason Sonochem 39:534–539
Ge X, Gu CD, Wang XL, Tu JP (2015) Spinel type CoFe oxide porous nanosheets as magnetic adsorbents with fast removal ability and facile preparation. J Colloid Inteface Sci 454:134–143
Söldner A, Zach J, Iwanow M, Gärtner T, Schlosser M, Pfitzner A, König B (2016) Preparation of magnesium, cobalt, and nickel ferrite nanoparticles from metal oxides using deep eutectic solvents. Chem Eur J 22:13108–13113
Xiong QQ, Tu JP, Ge X, Wang XL, Gu CD (2015) One-step synthesis of hematite nanospindles from choline chloride/urea deep eutectic solvent with highly powerful storage versus lithium. J Power Sour 274:1–7
Hammond OS, Eslava S, Smith AJ, Zhang J, Edler KJ (2017) Microwave-assisted deep eutectic-solvothermal preparation of iron oxide nanoparticles for photoelectrochemical solar water splitting. J Mater Chem A 5:16189–16199
Cai GF, Tu JP, Gu CD, Zhang JH, Chen J, Zhou D, Shi SJ, Wang XL (2013) One-step fabrication of nanostructured NiO films from deep eutectic solvent with enhanced electrochromic performance. J Mater Chem A 1:4286–4292
Thorat GM, Jadhav AH, Jadhav HS, Lee K, Seo JG (2016) Template-free synthesis and characterization of nickel oxide nanocrystal with high-energy facets in deep eutectic solvent. J Nanosci Nanotechnol 16:11009–11013
Gu CD, Huang ML, Ge X, Zhang H, Wang XL, Tu JP (2014) NiO electrode for methanol electro-oxidation: mesoporous vs. nanoparticulate. Int J Hydrogen Energy 39:10892–10901
Dong JY, Hsu YJ, Wong DSH, Lu SH (2010) Growth of ZnO nanostructures with controlled morphology using a facile green antisolvent method. J Phys Chem C 114:8867–8872
Dong JY, Lin CH, Hsu YJ, Lu SH, Wong DSH (2012) Single-crystalline mesoporous ZnO nanosheets prepared with green antisolvent method exhibited excellent photocatalytic efficiencies. CrystEngComm 14:4732–4737
Lu YH, Lin WH, Yang CY, Chiu YH, Pu YC, Lee MH, Tseng YC, Hsu YJ (2014) A facile green antisolvent approach to Cu2+-doped ZnO nanocrystals with visible-light-responsive photoactivities. Nanoscale 6:8796–8803
Cun T, Dong C, Huang Q (2016) Ionothermal precipitation of highly dispersive ZnO nanoparticles with improved photocatalytic performance. Appl Surf Sci 384:73–82
Gu CD, Mai YJ, Zhou JP, Tu JP (2011) SnO2 nanocrystallite: novel synthetic route from deep eutectic solvent and lithium storage performance. Funct Mater Lett 4:377–381
Gu CD, Zheng H, Wang XL, Tu JP (2015) Superior ethanol-sensing behavior based on SnO2 mesocrystals incorporating orthorhombic and tetragonal phases. RSC Adv 5:9143–9153
Hammond OS, Edler KJ, Bowron DT, Torrente-Murciano L (2017) Deep eutectic solvothermal synthesis of nanostructured ceria. Nat Commun 8:14153/1–7
Huang Y, Shen F, La J, Luo G, Lai J, Liu C, Chu G (2013) Synthesis and characterization of CuCl nanoparticles in deep eutectic solvents. Part Sci Technol 31:81–84
Zhang H, Lu Y, Gu CD, Wang XL, Tu JP (2012) Ionothermal synthesis and lithium storage performance of core/shell structured amorphous crystalline Ni-P nanoparticles. CrystEngComm 14:7942–7950
Ferreira VC, Neves MC, Hillman AB, Monteiro OC (2016) Novel one-pot synthesis and sensitization of new BiOCl-Bi2S3 nanostructures from DES medium displaying high photocatalytic activity. RSC Adv 6:77329–77339
Yang C, Gao MY, Zhang QR, Zeng JR, Li XT, Abbott AR (2017) In-situ activation of self-supported 3D hierarchically porous Ni3S2 films grown on nanoporous copper as excellent pH-universal electrocatalysts for hydrogen evolution reaction. Nano Energy 36:85–94
Zhang J, Chen J, Li Q (2015) Microwave heating synthesis and formation mechanism of chalcopyrite structured CuInS2 nanorods in deep eutectic solvent. Mater Res Bull 63:88–92
Karimi M, Eshraghi MJ, Jahangiri V (2016) A facile and green synthetic approach based on deep eutectic solvents towards synthesis of CZTS nanoparticles. Mater Lett 171:100–103
Jiang J, Yan C, Zhao X, Luo H, Xue Z, Mu T (2017) A PEGylated deep eutectic solvent for controllable solvothermal synthesis of porous NiCo2S4 for efficient oxygen evolution reaction. Green Chem 19:3023–3031
Zhang Z, Jiang X, Hu J, Yue C, Zhang J (2017) Controlled synthesis of mesoporous nitrogen-doped carbon supported Ni-Mo sulfides for hydrodesulfurization of dibenzenethiophene. Catal Lett 147:2515–2522
Querejeta-Fernandez A, Hernandez-Garrido JC, Yang H, Zhou Y, Varela MP, Calvino-Gamez JJ, Gonzalez-Calbert JM, Green PF, Kotov NA (2012) Unknown aspects of self-assembly of PbS microscale superstructures. ACS Nano 6:3800–3812
Chen J, Zhang J, Xu H, Ouyang Y, Zhan F, Li Q (2015) Fabrication of PbS thin films composed of highly (200)-oriented nano/microrods in deep eutectic solvent. Phys E 72:48–52
Zhang T, Doert T, Ruck M (2017) Synthesis of metal sulfides from a deep eutectic solvent precursor (DESP). Z Anorg Allg Chem 243:1913–1919
Karimi M, Ransheh MR, Ahmadi SM, Medani MR (2017) One-step and low temperature synthesis of monetite nanoparticles in an all-in-one system (reactant, solvent, and template) based on calcium chloride-choline chloride deep eutectic solvent. Ceram Int 43:2046–2050
Karimi M, Hesaraki S, Alizadeh M, Kazemzadeh A (2016) Synthesis of calcium phosphate nano-particles on deep eutectic choline chloride-urea medium: investigating the role of synthesis temperature on phase characteristics and physical properties. Ceram Int 42:2780–2788
Karimi M, Hesaraki S, Alizadeh M, Kazemzadeh A (2016) A facile and sustainable method based on deep eutectic solvents toward synthesis of amorphous calcium phosphate nanoparticles: the effect of using various solvents and precursors on physical characteristics. J Non-Cryst Solids 443:59–64
Karimi M, Hesaraki S, Alizadeh M, Kazemzadeh A (2017) Time and temperature mediated evolution of CDHA from ACP nanoparticles in deep eutectic solvents: kinetic and thermodynamic considerations. Mater Design 122:1–10
Govindaraj D, Rajan M, Munusamy MA, Alarfaj AA, Sadasivuni KK, Kumar SS (2017) The synthesis, characterization and in vivo study of mineral substituted hydroxyapatite for prospective bone tissue rejuvenation applications. Nanomedicine Nanotechnol Biol Med 13:2661–2669
Karimi M, Hesaraki S, Alizadeh M, Kazemzadeh A (2016) One-pot sustainable synthesis of nanocrystalline hydroxyapatite powders using deep eutectic solvents. Mater Lett 175:89–92
Karimi M, Ransheh MR, Ahmadi SM, Medani MR, Shamsi M, Reshadi R, Lotfi F (2017) Reline-assisted green and facile synthesis of fluorapatite nanoparticles. Mater Sci Eng, C 77:121–128
Karimi M, Jodaei A, Sadeghinik A, Ransheh MR, Hafshejani TM, Shamsi M, Orand F, Lotfi F (2017) Deep eutectic choline chloride-calcium chloride as all-in-one system for sustainable and one-step synthesis of bioactive fluorapatite nanoparticles. J Fluorine Chem 204:76–83
Wu Z, Long YF, Lv XP, Su J, Wen YX (2017) Microwave heating synthesis of spindle-like LiMnPO4/C in a deep eutectic solvent. Ceram Int 43:6089–6095
Wu Z, Huang RR, Yu H, Xie YC, Lv XP, Su J, Long YF, Wen YX (2017) Deep eutectic solvent synthesis of LiMnPO4/C nanorods as a cathode material for lithium ion batteries. Mater 10:134/1–16
Boston R, Foeller PY, Sinclair DC, Reaney IM (2017) Synthesis of barium titanate using deep eutectic solvents. Inorg Chem 56:542–547
Liu W, Yu Y, Cao L, Su G, Liu X, Zhang L, Wang Y (2010) Synthesis of monoclinic structured BiVO4 spindly microtubes in deep eutectic solvent and their application for dye degradation. J Hazard Mater 181:1102–1108
Sheng Q, Liu R, Zheng J (2012) Prussian blue nanospheres synthesized in deep eutectic solvents. Nanoscale 4:6880–6886
Hosa O, Barsan MM, Cristea C, Sandulescu R, Brett CMA (2017) Nanostructured electropolymerized poly(methylene blue) films from deep eutectic solvents. Optimization and characterization. Electrochim Acta 232:285–295
Gutierrez MC, Rubio F, del Monte F (2010) Resorcinol-formaldehyde polycondensation in deep eutectic solvents for the preparation of carbon and carbon-carbon nanotube composites. Chem Mater 22:2711–2719
Gutierrez MC, Carriazo D, Tamayo A, Jimenez R, Pico F, Rojo JM, Ferrer ML, del Monte F (2011) Deep eutectic solvent assisted synthesis of hierarchical carbon electrodes exhibiting capacitance retention at high current densities. Chem Eur J 17:10533–10537
Mota-Morales JD, Gutierrez MC, Ferrer ML, Jimenez R, Santiago P, Sanchez IC, Terrones M, del Monte F, Luna-Bercanas G (2013) Synthesis of macroporous poly(acrylic acid)-carbon nanotube composites by frontal polymerization in deep eutectic solvents. J Mater Chem A 1:3970–3976
Martis P, Dilimon VS, Delhalle J, Mekhalif Z (2010) Electro-generated nickel/carbon nanotube composites in ionic liquid. Electrochim Acta 55:5407–5410
AlOmar MK, Alsaadi MA, Hayyan M, Akib S, Hashim MA (2016) Functionalization of CNTs surface with phosphonium based deep eutectic solvents for arsenic removal from water. Appl Surf Sci 389:216–226
AlOmar MK, Alsaadi MA, Jassam TM, Akib S, Hashim MA (2017) Novel deep eutectic solvent-functionalized carbon nanotubes adsorbent for mercury removal from water. J Colloid Interface Sci 497:413–421
Zarei AR, Nedaei M, Ghorbanian SA (2017) Deep eutectic solvent based magnetic nanofluid in the development of stir bar sorptive dispersion microextraction: an efficient hyphenated sample preparation for ultra-trace nitroaromatic explosives extraction in wastewater. J Sep Sci 40:1–9
Yousefi SM, Shemirani F, Ghorbanian SA (2017) Deep eutectic solvent magnetic bucky gels in developing dispersive solid phase extraction: application for ultratrace analysis of organochlorine pesticides by GC-micro ECD using a large-volume injection technique. Talanta 168:73–81
Liu DG, Sun J, Gui ZX, Song KJ, Luo LM, Wu YC (2017) Super-low friction nickel based carbon nanotube composite coating electro-deposited from eutectic solvents. Diam Relat Mater 74:229–232
Wang RX, Fan DJ, Liang ZR, Zhang JM, Zhou ZY, Sun SG (2016) PdSn nanocatalysts supported in carbon nanotubes synthesized in deep eutectic solvents with high activity for formic acid electrooxidation. RSC Adv 6:60400–60406
AlOmar MK, Alsaadi MA, Hayyan M, Akib S, Ibrahim M, Hashim MA (2017) Allyl-triphenylphosphonium bromide based DES-functionalized carbon nanotubes for the removal of mercury from water. Chemosphere 167:44–52
Hosu O, Barsan MM, Cristea C, Sandulescu R, Brett CMA (2017) Nanocomposites based on carbon nanotubes and redox-active polymers synthesized in a deep eutectic solvent as a new electrochemical sensing platform. Microchim Acta 184:3919–3927
Atilhan M, Costa LT, Aparicio S (2017) Elucidating the properties of graphene-deep eutectic solvents interface. Langmuir 33:5154–5165
Hayyan M, Abo-Hamas A, AlSaadi MA, Hashim MA (2015) Functionalization of graphene using deep eutectic solvents. Nano Res Lett 10:324–350
Xu K, wang Y, Ding X, Huang Y, Li Na, Wen Q (2016) Magnetic solid phase extraction of protein with deep eutectic solvent immobilized magnetic graphene oxide nanoparticles. Talanta 148:153–162
Pethsangave DA, Khose RV, Wadekar PH, Some S (2017) Deep eutectic solvent functionalized graphene composite as an extremely high potency flame retardant. ACS Appl Mater Interf 9:35319–35324
Lamei N, Ezoddin M, Ardestani MS, Abdi K (2017) Dispersion of magnetic graphene oxide nanoparticles coated with a deep eutectic solvent using ultrasound assistance for preconcentration of methadone in biological and water samples followed by GC-FID and GC-MS. Anal Bioanal Chem 409:6113–6121
Mondal D, Sharma M, Wang CH, Yc Lin, Huang HC, Saha A, Nataraj SK, Prasad K (2016) Deep eutectic solvent promoted one step sustainable conversion of fresh seaweed biomass to functionalized graphene as a potential electrocatalyst. Green Chem 18:2819–2826
Sharma M, Mondal D, Singh N, Upadhyay K, Rawat A, Devkar RV, Sequera RA, Prasad L (2017) Seaweed-derived nontoxic functionalized graphene sheets as sustainable materials for the efficient removal of fluoride from high fluoride containing drinking water. ACS Sustain Chem Eng 5:3488–3498
Fang YK, Osama M, Rashmi W, Shahbaz K, Khalid M, Mjalli FS, Farid MM (2016) Synthesis and thermos-physical properties of deep eutectic solvent-based graphene nanofluids. Nanotechnology 27:075702/1–10
Azizi M, Edrisi M (2017) Deep eutectic solvent immobilized on SBA-15 as a novel separable catalyst for one-pot three-component Mannich reaction. Microporous Mesoporous Mater 240:130–136
Azizi M, Edrisi M, Abbasi F (2018) Mesoporous silica SBA-15 functionalized with acidic deep eutectic solvent: a highly active heterogeneous N-formylation catalyst under solvent-free conditions. Appl Organometal Chem 32:e3901/1–10
Papadopoulou AA, Tzani A, Polydera AC, Katapodis P, Voutsas E, Detsi A, Stamatis H (2018) Green biotransformations catalysed by enzyme-inorganic hybrid nanoflowers in environmentally friendly ionic solvents. Environ Sci Polut Res 25:26707–26714
Fernandes P, Campina J, Pereira N, Pereira C, Silva F (2012) Biodegradable deep eutectic mixtures as electrolytes for the electrochemical synthesis of conducting polymers. J Appl Electrochem 42:997–1003
Fernandes P, Campina J, Pereira CM, Silva F (2012) Electrosynthesis of polyaniline from choline-based deep eutectic solvents: morphology, stability, and electrochromism. J Electrochem Soc 159:G97–G105
Prathish KP, Carvalho RC, Brett CMA (2016) Electrochemical characterization of poly(3,4-ethylenedioxythiophene) film modified glassy carbon electrodes prepared in deep eutectic solvents for simultaneous sensing of biomarkers. Electrochim Acta 187:704–713
Nardecchia S, Gutierrez MC, Ferrer ML, Alonso M, Lopez IM, Rodriguez-Cabello JC, del Monte S (2012) Phase behavior of elastin-like synthetic recombinamers in deep eutectic solvents. Biomacromol 13:2029–2036
Sirviö JA, Visanko M, Liimatainen H (2015) Deep eutectic solvent system based on choline chloride-urea as pre-treatment for nanofibrillation of wood cellulose. Green Chem 17:3401–3406
Suopajärvi Y, Sirviö JA, Liimatainen H (2017) Nanofibrillation of deep eutectic solvent treated paper and board. Carbohydr Polym 169:167–175
Li P, Sirviö JA, Haapala A, Liimatainen H (2017) Cellulose nanofibrils from nonderivatizing urea-based deep eutectic solvent pretreatments. ACS Appl Mater Interf 9:2846–2855
Laitinen O, Suopajarvi T, Osterberg M, Liimatainen H (2017) Hydrophobic, superabsorbing aerogels from choline chloride-based deep eutectic solvent pretreated silylated cellulose nanofibrils for selective oil removal. ACS App Mater Interf 9:25029–25037
Sousa AMM, Souza HKS, Uknalis J, Liu SC, Gonçalves MP, Liu LS (2015) Improving agar electrospinnabilitty with choline-based deep eutectic solvents. Int J Biol Macromol 80:139–148
Sirviö JA, Visanko M (2017) Anionic wood nanofibers produced from unbleached mechanical pulp by highly efficient chemical modification. J Mater Chem A 5:21828–21835
Mukesh C, Mondal D, Sharma M, Prasad K (2014) Choline chloride-thiourea, a deep eutectic solvent for the production of chitin nanofibers. Carbohydr Polym 103:466–471
Silva NHCS, Pinto RJB, Freire CSR, Mazrrucho IM (2016) Production of lysozyme nanofibers using deep eutectic solvent aqueous solutions. Coll Surf B: Biointerf 147:36–44
Rajagopal SK, Hariharan M (2014) Non-natural G-quadruplex in a non-natural environment. Photochem Photobiol Sci 13:152–161
Liu Y, Guo B, Xia Q, Meng J, Chen W, Liu S, Wang Q, Liu Y, Li J, Yu H (2017) Efficient cleavage of strong hydrogen bonds in cotton by deep eutectic solvents and facile fabrication of cellulose nanocrystals in high yields. ACS Sustain Chem Eng 5:7623–7631
Laitinen Q, Ojala J, Sirvio JA, Liimatainen H (2017) Sustainable stabilization of oil in water emulsions by cellulose nanocrystals synthesized from deep eutectic solvents. Cellulose 24:1679–1689
Fischer V, Marcus J, Touraud D, Diat O, Kunz W (2015) Towards surfactant-free and water-free microemulsions. J Coll Interf Sci 453:186–193
Bryant SJ, Atkin R, Warr GG (2017) Effect of deep eutectic solvent nanostructure on phospholipid bilayer phases. Langmuir 33:6878–6884
Wagle DV, Zhao H, Baker GA (2014) Deep eutectic solvents: sustainable media for nanoscale and functional materials. Acc Chem Res 47:2299–2308
Abo-Hamad A, Hayyan M, AlSaadi MA, Hashim MA (2015) Potential applications of deep eutectic solvents in nanotechnology. Chem Eng J 273:551–567
Yonemoto BT, Lin Z, Jiao F (2012) A general synthetic method for MPO4 (M = Co, Fe, Mn) frameworks using deep eutectic solvents. Chem Commun 48:9132–9134
Ge X, Gu CD, Wang XL, Tu JP (2013) A versatile protocol for the ionothermal synthesis of nanostructured nickel compounds as energy storage materials from a choline chloride-based ionic liquid. J Mater Chem A 1:13454–13461
Sebastian P, Valles E, Gomez E (2014) Copper electrodeposition in a deep eutectic solvent. First stages analysis considering Cu(I) stabilization in chloride media. Electrochim Acta 123:285–295
Gu T, Zhang M, Chen J, Qio H (2015) A novel green approach for the chemical modification of silica particles based on deep eutectic solvents. Chem Commun 51:9825–9828
Chen F, Xie S, Huang X, Qiu X (2017) Ionothermal synthesis of Fe3O4 magnetic nanoparticles as efficient heterogeneous Fenton-like catalysts for degradation of organic pollutants with H2O2. Hazard Mater 322:152–162
Gao Z, Xie S, Zhang B, Qiu X, Chen F (2017) Ultrathin Mg-Al layered double hydroxide prepared by ionothermal synthesis in a deep eutectic solvent for highly effective boron removal. Chem Eng J 319:108–119
Zhang H, Lu Y, Gu CD, Wang XL, Tu JP (2012) Ionothermal synthesis and lithium storage performance of core/shell structured amorphous@crystalline Ni-P nanoparticles. CrystEngComm 14:7942–7950
You Y, Gu C, Wang X, Tu J (2012) Electrochemical synthesis and characterization of Ni-P alloy coatings from eutectic-based ionic liquid. J Electrochem Soc 159:D642–D648
Meng Y, Liu JL, Zhang ZM, Lin WQ, Lin ZJ, Tong ML (2013) Ionothermal synthesis of two oxalate-bridged lanthanide(III) chains with slow magnetization relaxation by using a deep eutectic solvent. Dalton Trans 42:12853–12854
Meng Y, Chen YC, Zhang ZM, Lin ZJ, Tong ML (2014) Gadolinium oxalate derivatives with enhanced magnetocaloric effect via ionothermal synthesis. Inorg Chem 53:9052–9057
Huang HL, Lai YC, Chiang YW, Wang SL (2012) Intrinsic optical properties and divergent doping effects of manganese(II) on luminescence for tin(II) phosphate grown from a deep eutectic solvent. Inorg Chem 51:1986–1988
Liu L, Wang W, Wei H, Zhang T, Dong J (2011) Ionothermal synthesis and characterization of crystalline zirconium phosphate from oxalic acid/tetrapropylammonium bromide system. Acta Chim Sinica 69:3033–3036
Liu L, Li Y, Wei H, Dong M, Wang J, Slawin AMZ, Li J, Dong J, Morris RE (2009) Ionothermal synthesis of zirconium phosphates and their catalytic behavior in the selective oxidation of cyclohexane. Angew Chem Int Ed 48:2206–2209
Lin ZS, Huang Y (2016) Tetraalkylammonium salt/alcohol mixtures as deep eutectic solvents for synthesis of high-silica zeolites. Microporous Mesoporous Mater 224:75–83
Liu L, Chen ZF, Wei H, Li Y, Fu YC, Xu H, Li JP, Slawin AMZ, Dong JX (2010) Ionothermal synthesis of layered zirconium phosphates and their tribological properties in mineral oil. Inorg Chem 49:8270–8275
Phadtare SB, Shankarling GS (2008) Halogenation reactions in biodegradable solvent: efficient bromination of substituted 1-aminoanthra-9,10-quinone in deep eutectic solvent(choline chloride: urea). Green Chem 12:458–462
Lobo HC, Singh BS, Shankarling GS (2012) Deep eutectic solvents and glycerol: a simple, environmentally benign and efficient catalyst/reaction media for synthesis of N-aryl phthalimide derivatives. Green Chem Lett Rev 5:487–533
Azizi N, Marimi M (2013) Fast 62–92% yield preparation of amino acid dithiocarbamates in green solvent at room temperature. Environ Chem Lett 11:371–376
Azizi N, Edrisi M (2015) Deep eutectic solvent catalyzed eco-friendly synthesis of imines and hydrobenzamides. Monatsh Chem 146:1695–1698
Perez JM, Ramon DJ (2015) Synthesis of 3,5-disubstituted isoxazoles and isoxazolines in deep eutectic solvents. ACS Sustain Chem Eng 3:2343–2349
Azizi S, Haghayegh MS (2017) Greener and additive-free reactions in deep eutectic solvent: one-pot, three-component synthesis of highly substituted pyridines. Chem Select 2:8870–8873
Capua M, Perrone S, Perna FM, Vitale P, Troisi L, Salomone A, Capriati V (2016) An expeditious and greener synthesis of 2-aminoimidazoles in deep eutectic solvents. Molecules 21:924–934
Shaabani A, Hooshmand SE, Nazeri MT, Afshari R, Ghasemi S (2016) Deep eutectic solvents as a highly efficient reaction media for the one-pot synthesis of benzo-fused seven-membered heterocycles. Tetrahedron Lett 57:3727–3730
Sebastian P, Valles E, Gomez E (2013) First stage of silver electrodeposition in a deep eutectic solvent. Comparative behavior in aqueous medium. Electrochim Acta 112:149–158
Bozzini B, Busson B, Humbert C, Mele C, Tadjeddine A (2016) Electrochemical fabrication of nanoporous gold decorated with manganese oxide nanowires from eutectic urea/choline chloride ionic liquids. III. Electrodeposition of Au-Mn. Electrochim Acta 218:208–215
Sebastian P, Torralba E, Valles E, Molina A, Gomez E (2015) Advances in copper electrodeposition in chloride excess. A theoretical and experimental approach. Electrochim Acta 164:187–195
Xie X, Zou X, Lu X, Zheng K, Cheng H, Xu Q, Zhou Z (2016) Voltammetric study and electrodeposition of Cu from CuO in deep eutectic solvents. J Electrochem Soc 163:D537–D543
Sebastian P, Gomez E, Climent V, Feliu JM (2017) Copper underpotential deposition at gold surfaces in contact with a deep eutectic solvent. New insights. Electrochem Commun 78:51–55
Malaquias J, Steichen M, Dale PJ (2015) One step electrodeposition of metal precursors from a deep eutectic solvent for Cu(In, Gas)Se2 thin film solar cells. Electrochim Acta 151:150–156
Malaquias J, Steichen M, Thomassey M, Dale PJ (2015) Electrodeposition of Cu-In alloys from a choline chloride based deep eutectic solvent for photovoltaic applications. Electrochim Acta 103:15–22
Xie X, Zou X, Lu X, Lu C, Cheng H, Xu Q, Zhou Z (2016) Electrodeposition of Zn and Cu-Zn alloy from ZnO/CuO precursors in deep eutectic solvent. Appl Surf Sci 385:481–489
Rahman MF, Bernasconi R, Magagnin L (2015) Electrodeposition of indium from a deep eutectic solvent. J Optoelectron Adv Mater 17:122–126
Rahman MF, Bernasconi R, Magagnin L (2015) Electrodeposition of indium phosphide from a deep eutectic solvent. J Optoelectron Adv Mater 17:568–572
Abbott AP, El Taib K, Ryder KS, Smith EL (2008) Electrodeposition of nickel using eutectic based ionic liquids. Trans Inst Metal Finish 86:234–240
Cherigui AM, Sentosun K, Bouckenooge P, Vanrompay H, Bals S, Terryn H, Ustarroz J (2017) Comprehensive study of the electrodeposition of nickel nanostructures from deep eutectic solvents: self-limiting growth by electrolysis of residual water. J Phys Chem C 121:9337–9347
Ru J, Hua Y, Xu C, Li J, Li Y, Wang D, Gong K, Zhou Z (2015) Preparation of sub-micrometer lead wires from PbO by electrodeposition in choline chloride-urea deep eutectic solvent. Adv Power Technol 26:91–97
Ru J, Hua Y, Xu C, Li J, Li Y, Wang D, Qi C, Jie Y (2015) Morphology controlled preparation of lead powders by electrodeposition from different PbO-containing choline chloride-urea deep eutectic solvent. Appl Surf Sci 335:153–159
Hammons JA, Ilavsky J (2017) Surface Pb nanoparticle aggregation, coalescence and differential capacitance in a deep eutectic solvent using a simultaneous sample-rotated small angle x-ray scattering and electrochemical methods approach. Electrochim Acta 228:462–473
Wei L, Xu CD, Huang L, Zhou ZY, Chen SP, Sun SG (2016) Electrochemically shape-controlled synthesis of Pd concave-disdyakis triacontahedra in deep eutectic solvent. J Phys Chem C 120:15549–15577
Abbott AP, Barron JC, Frisch G, Gurman S, Ryder KS, Silva AF (2011) Double layer effects on metal nucleation in deep eutectic solvents. Phys Chem Chem Phys 13:10224–10231
Li R, Liang J, Hou Y, Chu Q (2015) Enhanced corrosion performance of Zn coating by incorporating graphene oxide electrodeposited from deep eutectic solvents. RSC Adv 5:60698–60707
Bakkar A (2014) Recycling of electric arc furnace dust through dissolution in deep eutectic ionic liquids and electrowinning. J Hazard Mater 280:191–199
Chu Q, Liang J, Hao J (2014) Electrodeposition of zinc-cobalt alloys from choline chloride-urea ionic liquid. Electrochim Acta 115:499–503
Fashu S, Gu CD, Zhang JL, Bai WQ, Wang XL, Tu JP (2015) Electrodeposition and characterization of Zn-Sn alloy coatings from a deep eutectic solvent based on choline chloride for corrosion protection. Surf Interface Anal 47:403–412
Chung PP, Cantwell PA, Wilcox GD, Critchlow GW (2008) Electrodeposition of zinc-manganese alloy coatings from ionic liquid electrolytes. Trans Inst Metal Finish 86:211–219
Bucko M, Culliton D, Betts AJ, Bajat JB (2017) The electrochemical deposition of Zn-Mn coating from choline chloride-urea deep eutectic solvent. Trans Inst Metal Finish 95:60–64
Fashu S, Gu CD, Wang XL, Tu JP (2014) Influence of electrodeposition conditions on the microstructure and corrosion resistance of Zn-Ni alloy coatings from a deep eutectic solvent. Surf Coat Technol 242:34–421
Xu C, Wu Q, Hua Y, Li J (2014) The electrodeposition of Zn-Ti alloys from ZnCl2-urea deep eutectic solvent. J Solid State Electrochem 18:2149–2155
Hillman AR, Ryder KS, Zaleski CJ, Ferreira V, Beasley CA, Vieil E (2014) Application of combined electrochemical quartz crystal microbalance and probe beam deflection technique in deep eutectic solvents. Electrochim Acta 135:42–51
Wang PK, Hsieh YT, Sun IW (2017) On the electrodeposition of arsenic in a choline chloride/ethylene glycol deep eutectic solvent. J Electrochem Soc 164:D204–D209
Vieira L, Burt J, Richardson OW, Schloffer D, Fuchs D, Moser A, Bartlett PN, Reid G, Gollas B (2017) Tin, bismuth, and tin-bismuth alloy electrodeposition from chlorometallic salts in deep eutectic solvents. ChemistryOpen 6:393–401
Gao Y, Hu W, Gao X, Duan B (2014) Electrodeposition of SnBi coatings based on deep eutectic solvents. Surf Eng 30:59–63
Gao Y, Hu W, Gao X, Duan B (2012) Electrodeposition of CdZn coatings based on deep eutectic solvents. Surf Eng 28:590–593
Saravanan G, Mohan S (2012) Structure, composition and corrosion resistance studies of Co-Cr alloy electrodeposited from deep eutectic solvent (DES). J Alloys Comp 522:162–166
You YH, Gu CD, Wang XL, Tu JP (2012) Electrodeposition of Ni-Co alloys from a deeop eutectic solvent. Surf Coat Technol 206:3632–3638
Panzeri G, Tresoldi M, Rinaldi C, Magagnin L (2017) Electrodeposition of magnetic Sm-Co films from deep eutectic solvents and choline chloride-ethylene glycol mixtures. J Electrochem Soc 164:D930–D933
Vijayakumar J, Mohan S, Kumar SA, Suseendiran SR, Pavithra S (2013) Electrodeposition of Ni-Co-Sn alloy from choline chloride-based deep eutectic solvent and characterization as cathode for hydrogen evolution in alkaline solution. Int J Hydrogen Energy 38:10208–10214
Zhang JL, Gu CD, Fashu S, Tong YY, Huang MK, Wang XL, Tu JP (2015) Enhanced corrosion resistance of Co-Sn alloy coating with a self-organized layered structure electrodeposited from deep eutectic solvent. J Electrochem Soc 162:D1–D8
Ghosh S, Roy S (2014) Electrochemical copper deposition from an ethaline-CuCl2 2H2O DES. Surf Coat Technol 238:165–173
Zhang QB, Abbott AP, Yang C (2015) Electrochemical fabrication of nanoporous copper films in choline chloride-urea deep eutectic solvent. Phys Chem Chem Phys 17:14702–14709
Ghosh S, Roy S (2015) Codeposition of Cu-Sn from Ethaline deep eutectic solvent. Electrochim Acta 183:27–38
Miller MA, Wainwright J, Savinell RE (2017) Iron electrodeposition in a deep eutectic solvent for flow batteries. J Electrochem Soc 164:A796–A803
Alcanfor AAC, dos Santos LPM, Dias DF, Correia AN (2017) Electrodeposition of indium on copper from deep eutectic solvents based on choline chloride and ethylene glycol. Electrochim Acta 235:553–560
Abbott AP, Ballantyne A, Harris RC, Juma JA, Ryder KS, Forrest G (2015) A comparative study of nickel electrodeposition using deep eutectic solvents and aqueous solutions. Electrochim Acta 176:718–726
Ru J, Hua Y, Wang D (2017) Direct electro-deoxidation of solid PbO to porous lead in choline chloride-ethylene glycol deep eutectic solvent. J Electrochem Soc 164:D143–D149
Ru J, Hua Y, Wang D, Xu C, Li J, Li Y, Zhou Z, Gong K (2015) Mechanistic insight of in situ electrochemical reduction of solid PbO to lead in ChCl-EG deep eutectic solvent. Electrochim Acta 186:455–464
Ru J, Hua Y, Wang D, Xu C, Zhang Q, Li J, Li Y (2016) Dissolution-electrodeposition pathway and bulk porosity on the impact of in situ reduction of solid PbO in deep eutectic solvent. Electrochim Acta 196:56–66
Poll CG, Nelson GW, Pickup DM, Chadwick AV, Riley DJ, Payne DJ (2016) Electrochemical recycling of lead from hybrid organic-inorganic perovskites using deep eutectic solvents. Green Chem 18:1946–2955
Su Z, Xu C, Hua Y, Li J, Ru J, Wang M, Xiong L, Zhang Y (2016) Electrochemical preparation of sub-micrometer Sn-Sb alloy powder in ChCl-EG deep eutectic solvent. Int J Electrochem Sci 11:3311–3324
Vieira L, Whitehead AH, Gollas B (2014) Mechanistic study of zinc electrodeposition from deep eutectic electrolytes. J Electrochem Soc 161:D7–D13
Starykevich M, Salak AN, Ivanou DK, Lisenkov AD, Zheludkevich MI, Ferreira MGS (2015) Electrochemical deposition of zinc from deep eutectic solvent on barrier alumina layers. Electrochim Acta 170:284–291
Vieira L, Schennach R, Gollas B (2016) The effect of electrode material on the electrodeposition of zinc from deep eutectic solvents. Electrochim Acta 197:344–352
Starykevich M, Salak AN, Ivanou DK, Yasakau KA, Andre PS, Ferreira RAS, Zheludkevich MI, Ferreira MGS (2017) Effect of the anodic titania layer thickness on electrodeposition of zinc on Ti/TiO2 from deep eutectic solvent. J Electrochem Soc 164:D88–D94
Starykevich M, Salak AN, Zheludkevich ML, Ferreira MGS (2017) Modification of porous titania templates for uniform metal electrodeposition from deep eutectic solvent. J Electrochem Soc 164:D335–D343
Abbott AP, Capper G, McKenzie KJ, Ryder KS (2007) Electrodeposition of zinc-tin alloys from deep eutectic solvents based on choline chloride. J Electroanal Chem 599:288–294
Fashu S, Khan T (2016) Electrodeposition of ternary Zn-Ni-Sn alloys from an ionic liquid based on choline chloride and their characterization. Trans Inst Metal Finish 94:237–245
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
Copyright information
© 2019 Springer Nature Switzerland AG
About this chapter
Cite this chapter
Marcus, Y. (2019). Applications of Deep Eutectic Solvents. In: Deep Eutectic Solvents. Springer, Cham. https://doi.org/10.1007/978-3-030-00608-2_4
Download citation
DOI: https://doi.org/10.1007/978-3-030-00608-2_4
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-00607-5
Online ISBN: 978-3-030-00608-2
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)