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Lin Kang, Cheng Liu, Jinyu Ye, Wenzhe Niu, Xiaowen Cui, Yajie Zhu, Liangyao Xue, Jiaqi Zhang, Lirong Zheng, Youyong Li, Bo Zhang Polypyrrole regulates Active Sites in Co-based Catalyst in Direct Borohydride Fuel Cells ChemSusChem,2023,587,233684
Yajie Zhu, Cheng Liu, Shiwen Cui, Zhuorong Lu, Jinyu Ye, Yunzhou Wen, Wenjuan Shi, Xiaoxiong Huang, Liangyao Xue, Juanjuan Bian, Youyong Li, Yifei Xu, Bo Zhang Multistep Dissolution of Lamellar Crystals Generates Superthin Amorphous Ni(OH)2 Catalyst for UOR Advanced materials,2023,35,2301549
Ma Yiwen, Niu Wenzhe, Shi Wenjuan, Huang Xiaoxiong;,Liu Yi, Chen Junfeng, Xue Liangyao, Zhang Bo Amorphous Carbon Coating Enhances Activity of High Rate CO2 Electroreduction to CO Journal of Materials Chemistry A,2023,11,12114-12120
Rui Huang, Yujin Ji, Peng Miao, Yunzhou Wen, Wenjuan Shi, Wenzhe Niu, Kai Sun, Youyong Li and Bo Zhang* Constructing the oxygen diffusion paths for promoting the stability of acidic water oxidation catalysts Chem Catalysis,2023,3,100667
Wenzhe Niu, Zheng Chen, Wen Guo, Wei Mao, Yi Liu, Yunna Guo, Jingzhao Chen, Rui Huang, Lin Kang, Yiwen Ma, Qisheng Yan, Jinyu Ye, Chunyu Cui, Liqiang Zhang, Peng Wang, Xin Xu?, Bo Zhang? Pb-rich Cu grain boundary sites for selective CO-to-n-propanol electroconversion Nature Communications,2023,14,4882
Sanjiang Pan, Hao Li, Dan Liu, Rui Huang, Xuelei Pan, Dan Ren, Jun Li, Mohsen Shakouri, Qixing Zhang, Manjing Wang, Changchun Wei, Liqiang Mai, Bo Zhang, Ying Zhao, Zhenbin Wang, Michael Graetzel & Xiaodan Zhang Efficient and stable noble-metal-free catalyst for acidic water oxidation Nature Communications,2022,13,2294
Yunzhou Wen, Cheng Liu, Rui Huang, Hui Zhang, Xiaobao Li, F. Pelayo García de Arquer, Zhi Liu, Youyong Li & Bo Zhang Introducing Br?nsted acid sites to accelerate the bridging-oxygen-assisted deprotonation in acidic water oxidation Nature Communication,2022,13,4871
Juanjuan Bian,Chenyang Wei,Yunzhou Wen,Bo Zhang Regulation of electrocatalytic activity by local microstructure: focusing on catalytic active zone Chemistry A European Journal,2021,28,e202103141
HUANG Rui, WEN Yunzhou, PENG Huisheng, ZHANG Bo. Improved kinetics of OER on Ru-Pb binary electrocatalyst by decoupling proton-electron transfer Chinese Journal of Catalysis,2021,43,130-138
Li, S.; Ma, Y.; Zhao, T.; Li, J.; Kang, X.; Guo, W.; Wen, Y.; Wang, L.; Wang, Y.; Lin, R.; Li, T.; Tan, H.; Peng, H.; Zhang, B Polymer-Supported Liquid Layer Electrolyzer Enabled Electrochemical CO2 Reduction to CO with High Energy Efficiency Chemistry Open, 2021,10,639-644
Wen, Y.; Chen, P.; Wang, L.; Li, S.; Wang, Z.; Abed, J.; Mao, X.; Min, Y.; Dinh, C. T.; Luna, P. D.; Huang, R.; Zhang, L.; Wang, L.; Wang, L.; Nielsen, R. J.; Li, H.; Zhuang, T.; Ke, C.; Voznyy, O.; Hu, Y.; Li, Y.; Goddard Iii, W. A.; Zhang, B.; Peng, H.; Sargent, E. H Stabilizing Highly Active Ru Sites by Suppressing Lattice Oxygen Participation in Acidic Water Oxidation Journal of the American Chemical Society,2021,143,6482-6490
Wang, L.; Zhu, Y.; Wen, Y.; Li, S.; Cui, C.; Ni, F.; Liu, Y.; Lin, H.; Li, Y.; Peng, H.; Zhang, B. Regulating the Local Charge Distribution of Ni Active Sites for the Urea Oxidation Reaction Angewandte Chemie-international Edition, 2021,60,10577-10582
Zhang B., Wang L., Cao Z., Kozlov S. M., F. García de Arquer, F. P., Dinh C. T., Li J., Wang Z. Y., Zheng X. L., Zhang L. S., Wen Y. Z., Voznyy O., Comin R., De Luna, P., Regier, T., Bi W. L., Alp E. E., Pao C. W., Zheng L. R., Hu Y. F., Ji Y. J., Li Y. Y., Zhang Y., Cavallo L.*, Peng H. S.* and Sargent E. H.*. High-valence metals improve OER performance by modulating 3d metal oxidation cycle energetics Nature Catalysis,2020,3,985-992
Ni F. L., Yang H., Wen Y. Z., Bai H. P., Zhang L. S., Cui C. Y., Li S. Y., He S. S., Cheng T.*, Zhang B.*, Peng H. S.* N-modulated Cu+ for efficient electrochemical carbon monoxide reduction to acetate Science China Materials,2020,63,2606-2612
Zhang L. S., Yuan H. Y., Wang L. P., Zhang H., Zang Y. J., Tian Y., Wen Y. Z., Ni F. L., Song H., Wang H. F.*, Zhang B.*, Peng H. S.* The critical role of electrochemically activated adsorbates in neutral OER Science China Materials,2020,63,2509-2516
Li J., Xu A., Li F. W., Wang Z. Y., Zou C. Q., Gabardo C. M., Wang Y. H., Ozden A., Xu Y., Nam D-H., Lum Y., Wicks J., Chen B., Wang Z. Q., Chen J. T., Wen Y. Z., Zhuang T. T., Luo M. C., Du X. W., Sham T-K., Zhang B., Sargent E. H.*, Sinton D.* Enhanced multi-carbon alcohol electroproduction from CO via modulated hydrogen adsorption Nature Communications,2020,11,3685
Zhang L. S., Wang L. P., Wen Y. Z., Ni F. L., Zhang B.*, Peng H. S.* Boosting neutral water oxidation through surface oxygen modulation Advanced Materials,2020,32,2002297
Bai H. P., Cheng T., Li S. Y., Zhou Z. Y., Yang H., Li J., Xie M., Ye J. Y., Ji Y. J., Li Y. Y., Zhou Z. Y., Sun S. G., Zhang B.*, Peng H. S.* Controllable CO adsorption determines ethylene and methane productions from CO2 electroreduction Science Bulletin,2020,66,62-68
Zhang F. H., Chen C. Z., Yan S. L., Zhong J. H., Zhang B., Cheng Z. M.* Cu@Bi nanocone induced efficient reduction of CO2 to formate with high current density Applied Catalysis A: General,2020,598,117545
Xu L. M., Fu X. M., Liu F., Shi X., Zhou X. F., Liao M., Chen C. R., Xu F., Wang B. J., Zhang B., Peng H. S.* A perovskite solar cell textile that works at -40 to 160℃ Journal of Materials Chemistry A,2020,8,5476-5483
Wang N., Cao Z., Zheng X. L., Zhang B., Kozlov S. M., Chen P. N., Zou C. Q., Kong X. B., Wen Y. Z., Liu M., Zhou Y. S., Dinh C. T., Zheng L. R., Peng H. S., Zhao Y., Cavallo L., Zhang X. D.*, Sargent E. H.* Hydration-Effect-Promoting Ni-Fe Oxyhydroxide Catalysts for Neutral Water Oxidation Advanced Materials,2020,32,1906806
Zhang L. S., Wang L. P., Lin H. P., Liu Y. X., Ye J. Y., Wen Y. Z., Chen A., Wang L., Ni F. L., Zhou Z. Y., Sun S. G., Li Y. Y., Zhang B.*, Peng H. S.* A Lattice-Oxygen-Involved Reaction Pathway to Boost Urea Oxidation Angewandte Chemie International Edition, 2019,58,16820-16825
Wang L., Wen Y. Z., Ji Y. J., Cao H. J., Li S. Y., He S. S., Bai H. P., Liu G. J., Zhang L. S., Bao H. L., Wang J. Q., Li Y. Y.*, Zhang B.*, Peng H. S.* The 3d-5d orbital repulsion of transition metals in oxyhydroxide catalysts facilitates water oxidation Journal of Materials Chemistry A, 2019,7,14455-14461
Gao Z., Liu P., Fu X. M., Xu L. M., Zuo Y., Zhang B., Sun X. M., Peng H. S.* Flexible self-powered textile formed by bridging photoactive and electrochemically active fiber electrodes Journal of Materials Chemistry A, 2019,7,14447-14454
Liu G. J., Bai H. P., Ji Y. J., Wang L., Wen Y. Z., Lin H. P., Zheng L. R., Li Y. Y., Zhang B.*, Peng H. S.* A highly efficient alkaline HER Co-Mo bimetallic carbide catalyst with an optimized Mo d-orbital electronic state Journal of Materials Chemistry A, 2019,7,12434-12439
Hu Y. J., He S. S., Xu X. J., Zhang L. S., Xu Y. F., Zhang J., Liu P., Wen Y. Z., Ni F. L., Jia M. W., Zhang B., Sun X. M., Chen P. N.*, Peng H. S.* Photo-to-electricity generation of aligned carbon nanotubes in water Journal of Materials Chemistry A, 2019,7,1996-2001
Dinh C. T., Jain A., de Arquer F. P. G., De Luna P., Li J., Wang N., Zheng X. L., Cai J., Gregory B. Z., Voznyy O., Zhang B., Liu M., Sinton D., Crumlin E. J., Sargent E. H.* Multi-site electrocatalysts for hydrogen evolution in neutral media by destabilization of water molecules Nature Energy, 2018,4,107-114
Liu G. J., Bai H. P., Zhang B.*, Peng H. S.*. Role of organic components in electrocatalysis for renewable energy storage Chemistry-A European Journal, 2018,24,18271-18292
He S. S., Ni F. L., Ji Y. J., Wang L., Wen Y. Z., Bai H. P., Liu G. J., Zhang Y., Li Y. Y.*, Zhang B.*, Peng H. S.* The p-orbital delocalization of main-group metals to boost CO2 electroreduction Angewandte Chemie International Edition, 2018,57,16114-16119
Liu P., Gao Z., Xu L. M., Shi X. ,Fu X. M., Li K., Zhang B., Sun X.M., Peng H.S.* Polymer solar cell textiles with interlaced cathode and anode fibers Journal of Materials Chemistry A, 2018,6,19947-19953
Sharp Cu@Sn nanocones on Cu foam for highly selective and efficient electrochemical reduction of CO2 to formate Chen C. Z., Pang Y. J., Zhang F. H., Zhong J. H., Zhang B.*, Cheng Z.* Journal of Materials Chemistry A, 2018,6,19621–19630
Wang L., Wang L. Y., Zhang Y., Pan J., Li S. Y., Sun X. M., Zhang B., Peng H. S.* Weaving sensing fibers into electrochemical fabric for real-time health monitoring Advanced Functional Materials, 2018,28,1804456
Wang N., Cao Z., Kong X. B., Liang J. H., Zhang Q. X., Zheng L. R., Wei C. C., Chen X. L., Zhao Y., Cavallo L., Zhang B., Zhang X. D.* Activity enhancement via borate incorporation into a NiFe (oxy)hydroxide catalyst for electrocatalytic oxygen evolution Journal of Materials Chemistry A, 2018,6,16959-16964
Sun H., Liao M., Li J. F., Zhou C., Deng J., Fu X. M., Xie S. L., Zhang B., Wu Y. Z., Wang B. J., Sun X. M., Peng H. S.* Programmable actuating systems based on swimming fiber robots Carbon, 2018,139,241-247
Zhuang T. T., Liang Z. Q., Seifitokaldani A., Li Y., De Luna P., Burdyny T., Che F. L., Meng F., Min Y. M., Quintero-Bermudez R., Dinh C. T., Pang Y. J., Zhong M., Zhang B., Li J., Chen P. N., Zheng X. L., Liang H. Y., Ge W. N., Ye B. J., Sinton D., Yu S. H.*, Sargent E. H.* Steering post-C-C coupling selectivity enables high efficiency electroreduction of carbon dioxide to multi-carbon alcohols Nature Catalysis, 2018,1,421-428
He S. S., Zhang Y. Y., Qiu L. B., Zhang L. S., Xie Y., Pan J., Chen P. N., Wang B. J., Xu X. J., Hu Y. J., Dinh C. T., Luna P. D., Banis M. N., Wang Z. Q., Sham T-K. Gong X. G., Zhang B.*, Peng H. S.*, Sargent E. H.* Chemical-to-Electricity Carbon: Water Device Advanced Materials, 2018,30,1707635
Zhang Z. T., Cui L. Y., Shi X., Tian X. C. R., Wang D. P., Gu C. N., Chen E., Cheng X. L., Xu Y. F., Hu Y. J., Zhang J. Y., Zhou L., Fong H. H., Ma P. B., Jiang G. M., Sun X. M., Zhang B., Peng H. S.*. Textile display for electronic and brain-interfaced communications Advanced Materials, 2018,30,1800323
Cao J. Y., Zhao Y., Xu Y. F., Zhang Y., Zhang B.*, Peng H. S.* Sticky-note supercapacitors Journal of Materials Chemistry A, 2018,6,3355-3360
Zu M. Y., Liu P. F., Wang C. W., Wang Y., Zheng L. R., Zhang B., Zhao H. J., Yang, H. G.* Bimetallic carbide as a stable hydrogen evolution catalyst in harsh acidic water ACS Energy Letter, 2017,3,78-84
Wang Y. L., Jin J. M., Li Y. H,. Wang X. L., Zhang B., Gong X. W., Wang H. F., Chen A. P., Zheng L. R., Hu P., Yang, H. G.* Ce0.3Zr0.7O1.88N0.12 solid solution as a stable photocatalyst for visible light driven water splitting Applied Catalysis B: Environmental, 2017,224,733-739
Zheng X. L., Zhang B.*, De Luna P., Liang Y., Comin R., Voznyy O., Han L. L., García de Arquer F. P., Liu M., Dinh C. T., Regier T., Dynes J. J., He S. S., Xin H. L., Peng H. S., Prendergast D., Du X. W., Sargent E. H.* Theory-driven design of high-valence metal sites for water oxidation confirmed using in situ soft X-ray absorption Nature Chemistry, 2017,10,149-154
Zheng X. L., De Luna P. García de Arquer F. P., Zhang B., Becknell N., Ross M. B., Li Y. F., Banis M. N., Li Y. Z., Liu M., Voznyy O., Dinh C. T., Zhuang T. T., Stadler P., Cui Y., Du X. W., Yang P. D., Sargent E. H.* Sulfur-modulated tin sites enable highly selective electrochemical reduction of CO2 to formate Joule, 2017,1,794-805
Chen C. Z., Zhang B., Zhong J. H., Cheng Z. M.* Selective electrochemical CO2 reduction over highly porous gold films Journal of Materials Chemistry A, 2017,5,21955-21964
Liu P. F., Li X., Yang S., Zu M. Y., Liu P., Zhang B., Zheng L. R., Zhao H. J., Yang H. G.* Ni2P(O)/Fe2P(O) interface can boost oxygen evolution electrocatalysis ACS Energy Letters, 2017,2,2257-2263
Deng J., Wang C., Guan G. Z., Wu H., Sun H., Qiu L. B., Chen P. N., Pan Z. Y., Sun H., Zhang B., Che R. C.*, Peng H. S.* The deformations of carbon nanotubes under cutting ACS Nano, 2017,11,8464-8470
Tan H. R., Jain A., Voznyy O., Lan X. Z., García de Arquer F. P., Fan J. Z., Quintero-Bermudez R., Yuan M. J., Zhang B., Zhao Y. C., Fan F. J., Li P. C., Quan L. N., Zhao Y. B., Lu Z. H., Yang Z. Y., Hoogland S., Sargent, E. H.* Efficient and stable solution-processed planar perovskite solar cells via contact passivation Science, 2017,355,722-726
Liu P. F., Yang S., Zheng L. R., Zhang B., Yang H. G.* Mo6+ activated multimetal oxygen-evolving catalysts Chemical Science, 2017,8,3484-3488
Wang D. P., Wang C. W., Garcia de Arquer F. P., Zhong J. H., Qian L., Fang L. J., Liu P. F., Pang Y. J., Liu M., Liu M. X., Zheng G. F., Sinton D., Sargent E. H., Yang H. G., Zhang B.* Band-aligned C3N4-xS3x/2 stabilizes CdS/CuInGaS2 photocathodes for efficient water reduction Journal of Materials Chemistry A, 2017,5,3167–3171
Wang Q. Q., Chen C. Z., Zhong J. H.*, Zhang B., Cheng Z. M Effect of alkyl chain length of imidazolium cation on the electroreduction of CO2 to CO on Ag electrode in acetonitrile Australian Journal of Chemistry, 2017,70,293-300
Liu P. F., Yang S., Zhang B., Yang H. G.* Defect-rich ultrathin cobalt–iron layered double hydroxide for electrochemical overall water splitting ACS Applied Materials & Interfaces, 2016,8,50,34474-34481
Liu M., Pang Y., Zhang, B.?; De Luna, P.; Voznyy, O.; Xu, J.; Zheng, X.; Dinh, C. T.; Fan, F.; Cao, C.; de Arquer, F. P. G.; Safaei, T. S.; Mepham, A.; Klinkova, A.; Kumacheva, E.; Filleter, T.; Sinton, D.; Kelley, S. O.; Sargent, E. H.* Enhanced electrocatalytic CO2 reduction via field-induced reagent concentration Nature, 2016,537,382-386
Zheng X. L., Dinh C. T., de Arquer F. P. G., Zhang B., Liu M., Voznyy O., Li Y. Y., Knight G., Hoogland S., Lu Z. H., Du X. W., Sargent E. H.* ZnFe2O4 leaves grown on TiO2 trees enhance photoelectrochemical water splitting Small, 2016,16,3181-3188
Zhang, B.; Zheng, X.; Voznyy, O.; Comin, R.; Bajdich, M.; García-Melchor, M.; Han, L.; Xu, J.; Liu, M.; Zheng, L.; García de Arquer, F. P.; Dinh, C. T.; Fan, F.; Yuan, M.; Yassitepe, E.; Chen, N.; Regier, T.; Liu, P.; Li, Y.; De Luna, P.; Janmohamed, A.; Xin, H. L.; Yang, H.; Vojvodic, A.; Sargent, E. H. Homogeneously dispersed multimetal oxygen-evolving catalysts Science, 2016,352,333-337
Liu P. F., Yang S., Zheng L. R., Zhang B.*, Yang H. G.* Electrochemical etching of α-cobalt hydroxide for improvement of oxygen evolution reaction Journal of Materials Chemistry A, 2016,4,9578-9584
Chen X., Guo J. W., Hou Y., Li Y. H., Yang S., Zheng L. R., Zhang B., Yang X. H.*, Yang H. G Novel PtO decorated MWCNTs as a highly efficient counter electrode for dye-sensitized solar cells RSC Advances, 2015,5,8307-8310
Gao B., Shen C., Yuan S. L., Zhang B., Zhang M. Y., Yang Y. X., Chen G. R.* Influence of nanocrystal size on the quantum dots sensitized solar cells’ performance with low temperature synthesized CdSe quantum dots Journal of Alloys and Compounds, 2014,612,323-329
Yang S., Hou Y., Zhang B., Yang X. H., Zhang H. M., Zhao H. J., Yang H. G.*. Precisely controlled heterogeneous nucleation sites for TiO2 crystal growth CrystEngComm, 2014,16,7502-7506
Gao B., Shen C., Zhang B., Zhang M. Y., Yuan S. L., Yang Y. X.*, Chen G. R.* Green synthesis of highly efficient CdSe quantum dots for quantum-dots-sensitized solar cells Journal of Applied Physics, 2014,115,193104
Zhang B.*, Li Y. H., Zhong J. H., Yang X. H., Zhang H. M., Zhao H. J., Yang H. G.* Platinum@regular indium oxide nanooctahedra as difunctional counter electrodes for dye-sensitized solar cells Journal of Materials Chemistry A, 2014,2,6331-6336
Yang X. H., Cheng L., Hou Y., Zhang B., Wu L., Yang H. G.* Turning commercial transition-metal oxides into efficient electrocatalysts via facile hydrogen treatment RSC Advances, 2014,4,12534-12537
Zhang N. N., Zhang B., Li Y. H., Hou Y., Yang S., Zhong J. H., Yang H. G.* In situ growth of mirror-like platinum as highly-efficient counter electrode with light harvesting function for dye-sensitized solar cells Journal of Materials Chemistry A, 2014,2,1641-1646
Yang X. H., Guo J. W., Yang S., Hou Y., Zhang B.*, Yang H. G.* A free radical assisted strategy for preparing ultra-small Pt decorated CNTs as a highly efficient counter electrode for dye-sensitized solar cells Journal of Materials Chemistry A, 2014,2,614-619
Hou Y., Chen Z. P., Wang D., Zhang B., Yang S., Wang H. F.*, Hu P., Zhao H. J., Yang, H. G.*. Highly electrocatalytic activity of RuO2 nanocrystals for triiodide reduction in dye-sensitized solar cells Small, 2014,10,484-492
Zhang B.*, Zhang N. N.*, Chen J. F.*, Hou Y., Yang S., Guo J. W., Yang X. H., Zhong J. H., Wang H. F., Hu P., Zhao H. J., Yang H. G Turning indium oxide into a superior electrocatalyst: deterministic heteroatoms Scientific Reports, 2013,3,3109
Cheng L., Hou Y., Zhang B., Yang S., Guo J. W., Wu L., Yang H. G.* Hydrogen-treated commercial WO3 as an efficient electrocatalyst for triiodide reduction in dye-sensitized solar cells Chemical Communications, 2013,49,5945-5947
Yang S., Hou Y., Xing J., Zhang B., Tian F., Yang X. H.*, Yang H. G.* Ultrathin SnO2 scaffolds for TiO2-based heterojunction photoanodes in dye-sensitized solar cells: oriented charge transport and improved light scattering Chemistry-A European Journal, 2013,19,9366-9370
Chen X., Hou Y., Zhang B., Yang X. H.*, Yang H. G.* Low-cost SnSx counter electrodes for dye-sensitized solar cells Chemical Communications, 2013,49,5793-5795
Shuang Y., Hou Y., Zhang B., Yang H. G.*. Impurity-free synthesis of cube-like single-crystal anatase TiO2 for high performance dye-sensitized solar cell Industrial & Engineering Chemistry Research, 2013,52,4098-4102
Zhang B.*, Wang D.*, Hou Y., Yang S., Yang X. H., Zhong J. H., Liu J., Wang H. F., Hu P., Zhao H. J., Yang H. G Facet-dependent catalytic activity of platinum nanocrystals for triiodide reduction in dye-sensitized solar cells Scientific Reports, 2013,3,1836
Hou Y.*, Wang D.*, Yang X. H., Fang W. Q., Zhang B., Wang H. F., Lu G. Z., Hu P., Zhao H. J., Yang H. G. Rational screening low-cost counter electrodes for dye-sensitized solar cells Nature Communications, 2013,4,1583
Guo J. W., Zhang B., Hou Y., Yang S., Yang X. H., Yang H. G.* A sulfur-assisted strategy to decorate MWCNTs with highly dispersed Pt nanoparticles for counter electrode in dye-sensitized solar cells Journal of Materials Chemistry A, 2013,1,1982
Zhang B., Zhong J. H.*, Cheng Z. M., Yang H. G A facile route to search antioxidant additives for dry charged negative plate of the lead acid battery Journal of Electroanalytical Chemistry, 2013,689,1-7
Yang S., Hou Y., Zhang B., Yang X. H., Fang W. Q., Zhao H. J., Yang H. G.*. Highly efficient overlayer derived from peroxotitanium for dye-sensitized solar cells. Journal of Materials Chemistry A, 2013,1,1374-1379
Chen Z. P., Fang W. Q., Zhang B., Yang H. G.* High-yield synthesis and magnetic properties of ZnFe2O4 single crystal nanocubes in aqueous solution Journal of Alloys and Compounds, 2013,550,348-352
Zhang B., Zhong J.H.*, Zhang B., Cheng Z. M. Mechanism of formation of anodic excursion peaks on lead electrode in sulfuric acid Journal of Power Sources, 2011,196,5719-5724
Zhang B., Zhong J. H.*, Li W. J., Dai Z. Y., Cheng Z. M Transformation of inert PbSO4 deposit on the negative electrode of a lead-acid battery into its active state Journal of Power Sources, 2011,195,4338-4343
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