[1] Ultra-Efficient Polymer Binder for Silicon Anode in High-capacity Lithium-ion Batteries,S. L. Gao, F. Y. Sun, A. Brady, Y. Y. Pan, A. Erwin, D. D. Yang, V. Tsukruk, A. G. Stack, T. Saito, H. B. Yang*, P. F. Cao*,Nano Energy, 73(2020)104804-104813
[2] Adhesive Polymers as Efficient Binders for High Capacity Silicon Electrodes,Y. Y. Pan, S. R. Ge, Z. Rashid, S. L. Gao, A. Erwin, V. Tsukruk, K. D. Vogiatzis, A. P. Sokolov, H. B. Yang* and P. F. Cao*,ACS Appl. Energy Mater., 3(2020)3387-3396
[3] Facile Fabrication of Si/Sb/Sb2O3/G@C Composite Electrodes for High-Performance Li-Ion Batteries,F. Y. Sun, H. Feng, S. L. Gao, D. D. Yang* and H. B. Yang*,New J. Chem., 44(3)(2020)4122-4128
[4] Facile Fabrication of Porous Si Microspheres from Low-Cost Precursors for High-Capacity Electrode,L. Y. Geng, D. D. Yang, S. L. Gao, Z. X. Zhang, F. Y. Sun, Y. Y. Pan, S. Q. Li, X. H. Li, P. F. Cao,* and H. B. Yang*,Adv. Mater. Interfaces, 7(3)(2020)1901726-1901733
[5] From natural material to high-performance silicon based anode: Towards cost-efficient silicon based electrodes in high-performance Li-ion batteries,S. L. Gao, D. D. Yang, Y. Y. Pan, L. Y. Geng, S. Q. Li, X. H. Li, P. F. Cao*, H. B. Yang*,Electrochim. Acta, 327(2019)135058-135066
[6] Polymer Binders Constructed via Dynamic Non-covalent Bonds for High-capacity Silicon based Anodes,Y. Y. Pan, S. L. Gao, F. Y. Sun, H. B. Yang*, P. F. Cao*,Chem. Eur. J., 25(47)(2019)10976-10994
[7] Simple synthesis of Si/Sn@C-G anodes with enhanced electrochemical properties for Li-ion batteries,D. D. Yang, J. Shi, J. H. Shi, H. B. Yang*,Electrochim. Acta, 259(2018)1081-1088
[8] Scalable preparation of mesoporous Silicon@C/graphite hybrid as stable anodes for lithium-ion batteries,X. T. Li, D. D. Yang, X. C. Hou, J. H. Shi, Y. Peng, H. B. Yang*,J. Alloys Compd., 728(25) (2017)1-9
[9] Insights into the conversion behavior of SiO-C hybrid with pre-treated graphite as anodes for Li-ion batteries,W. J. Wu, Y. H. Liang, H. Y. Ma, Y. Peng, H. B. Yang*,Electrochim. Acta, 187(2016)473-479
[10] Enhancing electrochemical properties of silicon-graphite anodes by the introduction of cobalt for lithium-ion batteries,J. Zhang, Y. H. Liang, Q. Zhou, Y. Peng, H. B. Yang*,J. Power Sources, 290(2015)71-79
[11] A low-cost and advanced SiOx/C composite with hierarchical structure as anode material for lithium-ion batteries,W. J. Wu, J. Shi, Y. H. Liang, F. Liu, Y. Peng, H. B. Yang*,Phys. Chem. Chem. Phys., 17(20)(2015)13451 - 13456
[12] Evaluation of the electrochemical characteristics of silicon/lithium titanate composite as anode material for lithium ion batteries,J. Shi,Y. H. Liang, L. L. Li, Y. Peng, H. B. Yang*,Electrochim. Acta, 155(2015)125-131
[13] 锂离子二次电池多孔硅/碳复合负极材料及其制备方法,杨化滨,侯晓存,赵前永,中国发明专利 ZL 201510079972.9,(授权日2018年3月30日)
[14] 锂离子二次电池硅氧化物复合负极材料及其制备方法,杨化滨,吴文骏,马海燕,中国发明专利 ZL 201410853426.1,(授权日2017年2月22日)
[15] 一种用于锂离子二次电池负极材料及其制备方法,杨化滨,刘方,李林林,中国发明专利 ZL 201110294189.6(授权日2014年6月18日)
[16] 一种用于锂离子二次电池的负极材料及其制备方法,杨化滨,周倩,中国发明专利 ZL 201210135889.5,(授权日2014年5月7日)
[17] 一种金属硫化物单晶材料及其制备方法,杨化滨,齐洁,中国发明专利 ZL 201010130742.8,(授权日2012年7月25日)
