Abstract
In recent years, 3D printing has had a huge impact on the field of biotechnology: from 3D-printed pharmaceuticals to tissue engineering and microfluidic chips. Microfluidic chips are of particular interest and importance for the field of biotechnology, since they allow for the analysis and screening of a wide range of biomolecules – including single cells, proteins, and DNA. The fabrication of microfluidic chips has historically been time-consuming, however, and is typically limited to 2.5 dimensional structures and a restricted palette of well-known materials. Due to the high surface-to-volume ratios in microfluidic chips, the nature of the chip material is of paramount importance to the final system behavior. With the emergence of 3D printing, however, a wide range of microfluidic systems are now being printed for the first time in a manner that facilitates flexibility while minimizing time and cost. Nevertheless, resolution and material choices still remain challenges and in the focus of current research, aiming for (1) 3D printing with high resolutions in the range of tens of micrometers and (2) a wider range of available materials for these high-resolution prints. The first part of this chapter highlights recent emerging technologies in the field of high-resolution printing via stereolithography (SL) and 2-photon polymerization (2PP) and seeks to identify particularly interesting emerging technologies which could have a major impact on the field in the near future. The second part of this chapter highlights current developments in the field of materials that are used for these high-resolution 3D printing technologies.
Graphical Abstract
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsReferences
Whitesides GM (2006) Nature 442:368
Berthier J, Silberzan P (2010) Microfluidics for biotechnology. Artech House
Gervais L, de Rooij N, Delamarche E (2011) Adv Mater 23:H151
Holmes D, Gawad S (2010) Hughes MP, Hoettges KF (eds) Microengineering in biotechnology. Humana Press, Totowa, pp 55–80
Manz A, Fettinger JC, Verpoorte E, Lüdi H, Widmer HM, Harrison DJ (1991) TrAC Trends Anal Chem 10:144
Harrison DJ, Manz A, Fan Z, Luedi H, Widmer HM (1992) Anal Chem 64:1926
De Mello A (2002) Lab Chip 2:31N
Duffy DC, McDonald JC, Schueller OJ, Whitesides GM (1998) Anal Chem 70:4974
Zhao S, Cong H, Pan T (2009) Lab Chip 9:1128
Hong T-F, Ju W-J, Wu M-C, Tai C-H, Tsai C-H, Fu L-M (2010) Microfluid Nanofluid 9:1125
Chen Y, Zhang L, Chen G (2008) Electrophoresis 29:1801
Waldbaur A, Rapp H, Lange K, Rapp BE (2011) Anal Methods 3:2681
Kotz F, Risch P, Helmer D, Rapp BE (2018) Micromachines 9:115
Li F, Macdonald NP, Guijt RM, Breadmore MC (2017) Anal Chem 89:12805
Su W, Cook BS, Fang Y, Tentzeris MM (2016) Sci Rep 6:35111
Waheed S, Cabot JM, Macdonald NP, Lewis T, Guijt RM, Paull B, Breadmore MC (2016) Lab Chip 16:1993
Sochol RD, Sweet E, Glick CC, Venkatesh S, Avetisyan A, Ekman KF, Raulinaitis A, Tsai A, Wienkers A, Korner K, Hanson K, Long A, Hightower BJ, Slatton G, Burnett DC, Massey TL, Iwai K, Lee LP, Pister KSJ, Lin L (2016) Lab Chip 16:668
Nielsen AV, Beauchamp MJ, Nordin GP, Woolley AT (2020) Ann Rev Anal Chem 13
Shallan AI, Smejkal P, Corban M, Guijt RM, Breadmore MC (2014) Anal Chem 86:3124
Rogers CI, Qaderi K, Woolley AT, Nordin GP (2015) Biomicrofluidics 9:016501
Lee Y-S, Bhattacharjee N, Folch A (2018) Lab Chip 18:1207
Enders A, Siller IG, Urmann K, Hoffmann MR, Bahnemann J (2019) Small 15:1804326
Grigoryan B, Paulsen SJ, Corbett DC, Sazer DW, Fortin CL, Zaita AJ, Greenfield PT, Calafat NJ, Gounley JP, Ta AH, Johansson F, Randles A, Rosenkrantz JE, Louis-Rosenberg JD, Galie PA, Stevens KR, Miller JS (2019) Science 364:458
Lee W, Kwon D, Choi W, Jung GY, Jeon S (2015) Sci Rep 5:7717
Shemesh J, Jalilian I, Shi A, Yeoh GH, Tate MLK, Warkiani ME (2015) Lab Chip 15:4114
Hull CW (1986) Patent US4575330
Kotz F, Arnold K, Bauer W, Schild D, Keller N, Sachsenheimer K, Nargang TM, Richter C, Helmer D, Rapp BE (2017) Nature 544:337
Gong H, Bickham BP, Woolley AT, Nordin GP (2017) Lab Chip 17:2899
Lee MP, Cooper GJT, Hinkley T, Gibson GM, Padgett MJ, Cronin L (2015) Sci Rep 5:1
Xu G, Zhao W, Tang Y, Lu B (2006) Rapid Prototyp J 12:12
Behroodi E, Latifi H, Najafi F (2019) Sci Rep 9:1
Ligon SC, Liska R, Stampfl J, Gurr M, Mülhaupt R (2017) Chem Rev 117:10212
Au AK, Huynh W, Horowitz LF, Folch A (2016) Angew Chem Int Ed 55:3862
Bertsch A, Jiguet S, Bernhard P, Renaud P (2002) MRS Online Proceedings Library, p 759
Gong H, Beauchamp M, Perry S, Woolley AT, Nordin GP (2015) RSC Adv 5:106621
Jacobs PF (1992) Rapid prototyping and manufacturing: fundamentals of stereolithography. Society of Manufacturing Engineers
Beauchamp MJ, Gong H, Woolley AT, Nordin GP (2018) Micromachines (Basel) 9:9
Beauchamp MJ, Nielsen AV, Gong H, Nordin GP, Woolley AT (2019) Anal Chem 91:7418
Gong H, Woolley AT, Nordin GP (2019) Biomicrofluidics 13:014106
Männel MJ, Selzer L, Bernhardt R, Thiele J (2019) Adv Mater Technol 4:1800408
Waldbaur A, Carneiro B, Hettich P, Wilhelm E, Rapp BE (2013) Microfluid Nanofluid 15:625
Tumbleston JR, Shirvanyants D, Ermoshkin N, Janusziewicz R, Johnson AR, Kelly D, Chen K, Pinschmidt R, Rolland JP, Ermoshkin A (2015) Science 347:1349
de Beer MP, van der Laan HL, Cole MA, Whelan RJ, Burns MA, Scott TF (2019) Sci Adv 5:eaau8723
Walker DA, Hedrick JL, Mirkin CA (2019) Science 366:360
Johnson AR, Caudill CL, Tumbleston JR, Bloomquist CJ, Moga KA, Ermoshkin A, Shirvanyants D, Mecham SJ, Luft JC, DeSimone JM (2016) PLoS One 11:e0162518
Kelly BE, Bhattacharya I, Heidari H, Shusteff M, Spadaccini CM, Taylor HK (2019) Science 363:1075
Bernal PN, Delrot P, Loterie D, Li Y, Malda J, Moser C, Levato R (2019) Adv Mater 31:1904209
Maruo S, Nakamura O, Kawata S (1997) vol 22. OSA Publishing, p 132
Perrucci F, Bertana V, Marasso SL, Scordo G, Ferrero S, Pirri CF, Cocuzza M, El-Tamer A, Hinze U, Chichkov BN, Canavese G, Scaltrito L (2018) Microelectron Eng 195:95
Alsharhan AT, Acevedo R, Warren R, Sochol RD (2019) Lab Chip 19:2799
Lamont AC, Alsharhan AT, Sochol RD (2019) Sci Rep 9:1
Schoch RB, Han J, Renaud P (2008) Rev Mod Phys 80:839
Vanderpoorten O, Peter Q, Challa PK, Keyser UF, Baumberg J, Kaminski CF, Knowles TPJ (2019) Microsyst Nanoeng 5:1
Hengsbach S, Lantada AD (2014) Biomed Microdevices 16:617
Amato L, Gu Y, Bellini N, Eaton SM, Cerullo G, Osellame R (2012) Lab Chip 12:1135
Pearre BW, Michas C, Tsang J-M, Gardner TJ, Otchy TM (2019) Addit Manuf 30:100887
Straub M, Gu M (2002) Opt Lett 27:1824
Ovsianikov A, Deiwick A, van Vlierberghe S, Dubruel P, Möller L, Dräger G, Chichkov B (2011) Biomacromolecules 12:851
Skylar-Scott MA, Liu M-C, Wu Y, Dixit A, Yanik MF (2016) Adv Healthc Mater 5:1233
Thiel M, Reiner RR, Niesler F, Tanguy Y (2016) Method for producing a three-dimensional structure, US20160114530A1
Kato J, Takeyasu N, Adachi Y, Sun H-B, Kawata S (2005) Appl Phys Lett 86:044102
Dong X-Z, Zhao Z-S, Duan X-M (2007) Appl Phys Lett 91:124103
Takahashi H, Hasegawa S, Takita A, Hayasaki Y (2008) Opt Express 16:16592
Jenness NJ, Wulff KD, Johannes MS, Padgett MJ, Cole DG, Clark RL (2008) Opt Express 16:15942
Geng Q, Wang D, Chen P, Chen S-C (2019) Nat Commun 10:1
Vizsnyiczai G, Kelemen L, Ormos P (2014) Opt Express 22:24217
Hahn V, Kiefer P, Frenzel T, Qu J, Blasco E, Barner-Kowollik C, Wegener M (2020) Adv Funct Mater:1907795
Stichel T, Hecht B, Houbertz R, Sextl G (2015) Appl Phys A Mater Sci Process 121:187
Stichel T, Hecht B, Steenhusen S, Houbertz R, Sextl G (2016) Opt Lett 41:4269
Jonušauskas L, Rekštytė S, Malinauskas M (2014) OE 53:125102
Tan Y, Chu W, Wang P, Li W, Qi J, Xu J, Wang Z, Cheng Y (2018) Phys Scr 94:015501
Carve M, Wlodkowic D (2018) Micromachines 9:91
Fouassier JP, Lalevée J (2014) Polymers 6:2588
Van den Driesche S, Lucklum F, Bunge F, Vellekoop MJ (2018) Micromachines 9:71
Macdonald NP, Zhu F, Hall CJ, Reboud J, Crosier PS, Patton EE, Wlodkowic D, Cooper JM (2016) Lab Chip 16:291
Leigh SJ, Gilbert HTJ, Barker IA, Becker JM, Richardson SM, Hoyland JA, Covington JA, Dove AP (2013) Biomacromolecules 14:186
Männel MJ, Fischer C, Thiele J (2020) Micromachines 11:246
Warr C, Valdoz JC, Bickham BP, Knight CJ, Franks NA, Chartrand N, Van Ry PM, Christensen KA, Nordin GP, Cook AD (2020) ACS Appl Bio Mater 3:2239
Kitson PJ, Marie G, Francoia J-P, Zalesskiy SS, Sigerson RC, Mathieson JS, Cronin L (2018) Science 359:314
Hülsenberg D, Harnisch A, Bismarck A (2005) Microstructuring of glasses. Springer, Berlin
Klein J, Stern M, Franchin G, Kayser M, Inamura C, Dave S, Weaver JC, Houk P, Colombo P, Yang M, Oxman N (2015) 3D printing and additive manufacturing. 2:92
Kotz F, Risch P, Helmer D, Rapp BE (2019) Adv Mater 31:1805982
Kotz F, Plewa K, Bauer W, Schneider N, Keller N, Nargang T, Helmer D, Sachsenheimer K, Schäfer M, Worgull M, Greiner C, Richter C, Rapp BE (2016) Adv Mater 28:4646
Kotz F, Helmer D, Rapp BE (2018) Int Soc Opt Photo:104910A
Kotz F, Plewa K, Bauer W, Hanemann T, Waldbaur A, Wilhelm E, Neumann C, Rapp BE (2015) Int Soc Opt Photo:932003–932006
Kotz F, Schneider N, Striegel A, Wolfschläger A, Keller N, Worgull M, Bauer W, Schild D, Milich M, Greiner C, Helmer D, Rapp BE (2018) Adv Mater 30:1707100
Kotz F, Risch P, Arnold K, Sevim S, Puigmartí-Luis J, Quick A, Thiel M, Hrynevich A, Dalton PD, Helmer D, Rapp BE (2019) Nat Commun 10:1439
Toepke MW, Beebe DJ (2006) Lab Chip 6:1484
Bhagat AAS, Jothimuthu P, Papautsky I (2007) Lab Chip 7:1192
Choi KM, Rogers JA (2003) J Am Chem Soc 125:4060
Desai SP, Taff BM, Voldman J (2008) Langmuir 24:575
Bhattacharjee N, Parra-Cabrera C, Kim YT, Kuo AP, Folch A (2018) Adv Mater 30:1800001
Helmer D, Voigt A, Wagner S, Keller N, Sachsenheimer K, Kotz F, Nargang TM, Rapp BE (2017) Sci Rep 7:7387
Perry H, Greiner C, Georgakoudi I, Cronin-Golomb M, Omenetto FG (2007) Rev Sci Instrum 78:044302
Coenjarts CA, Ober CK (2004) Chem Mater 16:5556
Rekštytė S, Malinauskas M, Juodkazis S (2013) Opt Exp 21:17028
Becker H (2010) Lab Chip 10:271
Kotz F, Arnold K, Wagner S, Bauer W, Keller N, Nargang TM, Helmer D, Rapp BE (2018) Adv Eng Mater 20:1700699
Acknowledgments
BER thanks the German Research Foundation (Deutsche Forschungsgemeinschaft, DFG) for funding through the Center for Excellence livMatS Exec 2193/1 – 390951807.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Nature Switzerland AG
About this chapter
Cite this chapter
Kotz, F., Helmer, D., Rapp, B.E. (2020). Emerging Technologies and Materials for High-Resolution 3D Printing of Microfluidic Chips. In: Bahnemann, J., Grünberger, A. (eds) Microfluidics in Biotechnology. Advances in Biochemical Engineering/Biotechnology, vol 179. Springer, Cham. https://doi.org/10.1007/10_2020_141
Download citation
DOI: https://doi.org/10.1007/10_2020_141
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-031-04187-7
Online ISBN: 978-3-031-04188-4
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)