Abstract
Photoelectrochemical deposition technology has been applied to the process of electrolytic manganese dioxide production. The effect of light on the electrochemical behavior of the electrodeposited manganese dioxide was studied by the cyclic scanning method, electrochemical impedance method, and chronoamperometry method. Illumination increased the peak current of electrolytic manganese dioxide anodization, reduced the charge transfer resistance, and provided a greater driving force for nucleation and growth of manganese dioxide. In addition, photoelectrochemical constant-current deposition of manganese dioxide was used. Photoelectrochemical deposition reduced the ~ 50 mV cell voltage, improved the current efficiency by approximately 11%, and reduced the power consumption by approximately 13%. Photoelectrochemical deposition is beneficial to energy saving and consumption reduction in the production process of electrolytic manganese dioxide.
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Z. Hao, Z. Shen, Y. Li, H. Wang, L. Zheng, R. Wang, G. Liu, and S. Zhan, Angew. Chem. Int. Ed. Engl. 58, 6351 (2019).
S. Hu, X. Liu, C. Wang, P.H.C. Camargo, J. Wang, and A.C.S. Appl, Mater. Interfaces. 11, 17444 (2019).
G. Cabello, and R.A. Davoglio, Appl. Catal. B Environ. 218, 192 (2017).
Z. Lv, Y. Luo, Y. Tang, J. Wei, Z. Zhu, X. Zhou, W. Li, Y. Zeng, W. Zhang, Y. Zhang, D. Qi, S. Pan, X.J. Loh, and X. Chen, Adv. Mater. 30, 1704531 (2018).
D. Liu, L. Su, J. Liao, B. Reeja-Jayan and C. Majidi, Adv. Energy Mater. 9, 1902798 (2019). https://doi.org/10.1002/aenm.201902798.
R. Bi, G. Liu, C. Zeng, X. Wang, L. Zhang, and S.Z. Qiao, Small. 15, e1804958 (2019).
J. Li, Y. Chen, J. Guo, F. Wang, H. Liu and Y. Li, Adv. Funct. Mater. 30, 2004115 (2020). https://doi.org/10.1002/adfm.202004115
M. Mohammadi, and A. Alfantazi, Hydrometallurgy 153, 134 (2015).
G. Tsurtsumia, D. Shengelia, N. Koiava, T. Lezhava, D. Gogoli, L. Beriashvili, S. Suladze, and I. Kakhniashvili, Hydrometallurgy 186, 260 (2019).
L. Bing, L. Jing and X. Fen, Multipurp, Util. Miner. Resour. 16, 16–37 (2019).
S. Nijjer, J. Thonstad and G.M. Haarberg, Electrochim. Acta 46, 395 (2000).
M. Ghaemi, Z. Biglari and L. Binder, J. Power Sources. 102, 29 (2001).
R. Mlcak, H.L. Tuller, P. Greiff, J. Sohn and L. Niles, Sens. Actuators A 40, 49 (1994).
Y. Sugimoto and L.M. Peter, J. Electroanal. Chem. 386, 183 (1995).
J. Yang, Y. Lai, Y. Fan, Y. Jiang, D. Tang, L. Jiang, F. Liu, and J. Li, RSC Adv. 5, 85592 (2015).
Y. Matsumoto, M. Noguchi, and T. Matsunaga, J. Phys. Chem. B. 103, 7190 (1999).
A.B. Couto, M.C.E. Ribeiro, F.L. Migliorini, N.G. Ferreira, and M.R. Baldan, Diamond Relat. Mater. 38, 104 (2013).
S. Singh Gujral, A.N. Simonov, X.-Y. Fang, M. Higashi, T. Gengenbach, R. Abe, and L. Spiccia, Catal. Sci. Technol. 6, 3745 (2016).
Q. Yu, X. Meng, T. Wang, P. Li, and J. Ye, Adv. Funct. Mater. 25, 2686 (2015).
F. Liu, Y. Fan, L. Jiang, Y. Lai, and J. Li, Chin J Nonferrous Met. 28, 397 (2018).
A.J. Gibson, R.C. Burns, M.F. Dupont, and S.W. Donne, Electrochim. Acta. 170, 343 (2015).
M. Clark, and D.G. Ivey, Nanotechnology 26, 384001 (2015).
M.F. Dupont, and S.W. Donne, Electrochim. Acta. 120, 219 (2014).
W. Huang, J. Li, and Y. Xu, Materials 11, 716 (2018). https://doi.org/10.3390/ma11050716.
M. Mohammadi, and A. Alfantazi, Hydrometallurgy 159, 28 (2016).
R. Shalini, N. Munichandraiah, and A.K. Shukla, J. Appl. Electrochem. 28, 1235 (1998).
M. Etzi Coller Pascuzzi, E. Selinger, A. Sacco, M. Castellino, P. Rivolo, S. Hernández, G. Lopinski, I. Tamblyn, R. Nasi, S. Esposito, M. Manzoli, B. Bonelli, and M. Armandi, Electrochim. Acta. 284, 294 (2018).
F. Nesvaderani, A. Bonakdarpour, and D.P. Wilkinson, J. Electrochem. Soc. 164, A810 (2017).
W.B. Utomo, and S.W. Donne, Electrochim. Acta. 51, 3338 (2006).
W.H. Guo, T.J. Liu, P. Jiang, and Z.J. Zhang, J. Colloid Interface Sci. 437, 304 (2015).
D. Yu, K. Goh, Q. Zhang, L. Wei, H. Wang, W. Jiang, and Y. Chen, Adv. Mater. 26, 6790. (2014).
M. Toupin, T. Brousse, and D.B. langer, Chem. Mater. 3184–3190 (2004).
T.A. Babkova, H. Fei, N.E. Kazantseva, I.Y. Sapurina, and P. Saha, Electrochim. Acta. 272, 1 (2018).
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The authors acknowledge financial support from the National Natural Science Foundation of China (Grant No. 51774341).
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Ma, Z., Yang, F., Jiang, L. et al. Anode Electrolysis of Manganese Dioxide in Photoelectrochemical Cells. JOM 73, 2479–2486 (2021). https://doi.org/10.1007/s11837-021-04604-2
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DOI: https://doi.org/10.1007/s11837-021-04604-2