2005年毕业于淮南师范学院化学生物系，获化学专业理学学士学位；2008年毕业于中国科学技术大学化学系，获无机化学专业理学硕士学位；2008-2010年于中科院宁波材料技术与工程研究所从事锂离子电池正极材料开发及产业化研究；2013年毕业于香港城市大学物理及材料科学系，获哲学博士学位

2014-2016年于新加坡国立大学化学与生物分子工程系从事博士后研究；2016年8月加入江苏大学能源研究院；

承担项目 　　2017-2020，原位石墨化制备N-P-Co掺杂薄层碳及耐酸性析氧性能研究，江苏省自然科学基金（BK20170529），主持 　　2017-2019，石墨化N-P-Co掺杂薄层碳制备及其耐酸性析氧性能研究，江苏省高层次创新创业人才引进计划资助项目，主持 　　2017-2019，耐酸性多原子掺杂薄层碳制备及其电催化析氧性能研究，中国博士后基金（2017M611714），主持 　　2017-2018，原位可循环制备铁-氮掺杂碳材料及微/介孔结构与电催化氧还原性能关系研究，江苏大学人才启动基金（16JDG064），主持 　　2018-2020，石墨烯/导电聚合物皮芯纳米纤维膜的可控制备及其柔性超级电容器性能研究，国家自然科学基金（21704035），参与 　　2018-2020，超薄铋基 Aurivillius 型氧化物混合维度异质结构的构筑及增强光催化还原CO2性能研究，国家自然科学基金（21701057），参与 　　2014-2018，可充放、高能量水系锂-空电池，新加坡国家研究基金竞争性研究项目(NRF-CRP10-2012-06)，参与 　　2009-2011，从磷酸铁锂纳米正极材料到高性能太阳能蓄电池，中国科学院知识创新工程重要方向项目(KGCX2-YW-365)，参与　　

　学术及科研成果 　　论文及专著 　　第一作者论文 　　[10] Guochun Li, Xiangli Jiang, Chang Liu, Mingchao Song, Shiliu Yang*, Jiabiao Lian, Jim Yang Lee, A microporous carbon derived from metal-organic frameworks for long-life lithium sulfur batteries, International Journal of Energy Research, 2020, 44, 2126. (IF=3.52) 　　[9] Shiliu Yang*, Xiaoyi Xue, Xinhe Liu, Wenjun Liu, Jian Bao, Yunpeng Huang, Huaneng Su, Shouqi Yuan and Huaming Li*, Scalable synthesis of micromesoporous iron-nitrogen-doped carbon as highly active and stable oxygen reduction electrocatalyst, ACS Applied Materials & Interfaces, 2019, 11, 39263. (IF=8.69) 　　[8] Shiliu Yang, Tianran Zhang, Guochun Li, Liuqing Yang and Jim Yang Lee*, Facile synthesis of N/M/O (M= Fe, Co, Ni) doped carbons for oxygen evolution catalysis in acid solution, Energy Storage Materials, 2017, 6, 140.　　 　　[7] Shiliu Yang, Yi Zhan, Liuqing Yang and Jim Yang Lee*, Dichotomizing the oxygen electrocatalytic properties of doped carbon catalysts in acid through a salt-activated synthesis, ChemCatChem, 2017, 9, 103. (IF=4.80) 　　[6] Shiliu Yang, Yi Zhan, Jingfa Li and Jim Yang Lee*, N-Co-O triply-doped highly crystalline porous carbon: an acid-proof non-precious metal oxygen evolution catalyst, ACS Applied Materials & Interfaces, 2016, 8, 3535. (IF=7.50) 　　[5] Shiliu Yang, Mingjun Hu, Ruguang Ma, Liujiang Xi and C. Y. Chung*, Solvothermal synthesis of monodisperse LiFePO4 micro hollow spheres as high performance cathode material for lithium ion batteries, ACS Applied Materials & Interfaces, 2013, 5, 8961. (IF=7.50) 　　[4] Shiliu Yang, Liping Wang, Ruguang Ma, Mingjun Hu, Liujiang Xi, Zhouguang Lu and C. Y. Chung*, Triethylene glycol assisted synthesis of pure tavorite LiFeSO4F cathode material for li-ion battery batteries, Journal of The Electrochemical Society, 2013, 160, 3072. (IF=3.26) 　　[3] Shiliu Yang, Ruguang Ma, Mingjun Hu, Zhouguang Lu, Liujiang Xi, Yucheng Dong, and C. Y. Chung*, Solvothermal synthesis of nano-LiMnPO4 from Li3PO4 rod-like precursor: reaction mechanism and electrochemical properties, Journal of Materials Chemistry, 2012, 22, 25402. (IF=8.87) 　　[2] Shiliu Yang, Xufeng Zhou, Jiangang Zhang and Zhaoping Liu*, Morphology-controlled solvothermal synthesis of LiFePO4 as a cathode material for lithium-ion batteries, Journal of Materials Chemistry, 2010, 20, 8086. (IF=8.87) 　　[1] Shiliu Yang, Hongbin Yao, Minrui Gao and Shuhong Yu*, Monodisperse cubic pyrite NiS2 dodecahedrons and microspheres synthesized by a solvothermal process in a mixed solvent: thermal stability and magnetic properties, CrystEngComm, 2009, 11, 1383. (IF=3.47) 　　合作论文 　　[23] Xiaoyan Zhang, Shengyuan Li, Sherif A El-Khodary, Bobo Zou, Shiliu Yang, Dickon H L Ng, Xianhu Liu, Jiabiao Lian*, Huaming Li, Porous α-Fe2O3 nanoparticles encapsulated within reduced graphene oxide as superior anode for lithium-ion battery. Nanotechnology, 2020, 31, 145404. (IF=3.31)　　 　　[22] Yucheng Dong, Shiliu Yang, Zhenyu Zhang, Jong-Min Lee* and Juan Antonio Zapien*, Enhanced electrochemical performance of lithium ion batteries using Sb2S3 nanorods wrapped in graphene nanosheets as anode materials, Nanoscale, 2018, 10, 3159. 　　[21] Haibo Li*, Cancan Ren, Rui Zhang, Rui Li, Shuling Xu, Lei Wang, Konggang Qu,Wenjun Kang*, Huaisheng Wang*, Shiliu Yang, and Yang Yu, One–step synthesis of MnO/Ni nanoparticles anchored on porous nitrogen–doped carbons from melamine foam and electrocatalytic study towards oxygen reduction reaction, Chemistry Select, 2017, 2, 4234. 　　[20] Yi Zhan, Shiliu Yang, Meihua Lu, Zhaolin Liu, Jim Yang Lee*, The development of cobalt phosphate for bifunctional oxygen electrocatalysis in alkaline solution, Electrochimica Acta, 2017, 227, 310. 　　[19] Yuhong Qian, Zhigang Hu, Xiaoming Ge, Shiliu Yang, Yongwu Peng, Zixi Kang, Zhaolin Liu, Jim Yang Lee, Dan Zhao*, A metal-free ORR/OER bifunctional electrocatalyst derived from metal-organic frameworks for rechargeable Zn-Air batteries, Carbon, 2017, 111, 641. 　　[18] Yi Zhan, Meihua Lu, Shiliu Yang, Zhaolin Liu and Jim Yang Lee*, The origin of catalytic activity of nickel phosphate for oxygen evolution in alkaline solution and its further enhancement by iron substitution, ChemElectroChem, 2016, 3, 615. 　　[17] Yi Zhan, Meihua Lu, Shiliu Yang, Chaohe Xu, Zhaolin Liu and Jim Yang Lee*, Activity of transition-metal (manganese, iron, cobalt, and nickel) phosphates for oxygen electrocatalysis in alkaline solution, ChemCatChem, 2016, 8, 372. 　　[16] Jingfa Li, Liuqing Yang, Shiliu Yang and Jim Yang Lee*, The application of redox tareting principles to the design of rechargeable Li-S flow batteries, Advanced Energy Materials, 2015, 5, 1501808. 　　[15] Yi Zhan, Guojun Du, Shiliu Yang, Chaohe Xu, Meihua Lu, Zhaolin Liu and Jim Yang Lee*, Development of cobalt hydroxide as a bifunctional catalyst for oxygen electrocatalysis in alkaline solution, ACS Applied Materials & Interfaces, 2015, 7, 12930. 　　[14] Chenwei Cao, Liujiang Xi, Kwan Lan Leung, Man Wang, Ying Liu, Ruguang Ma, Shiliu Yang, Zhouguang Lu* and C. Y. Chung*, Facile synthesis of porous Li-rich layered Li[Li0.2Mn0.534Ni0.133Co0.133]O2 as high-performance cathode materials for Li-ion batteries, RSC Advances, 2015, 5, 30507. 　　[13] Liujiang Xi, Hongkang Wang, Shiliu Yang, Ruguang Ma, Zhouguang Lu, Chenwei Cao, Kwan Lan Leung, Andrey L. Rogach and C. Y. Chung*, Single-crystalline Li4Ti5O12 nanorods and their application in high rate capability Li4Ti5O12/LiMn2O4 full cells, Journal of Power Sources, 2013, 242, 222. 　　[12] Ruguang Ma, Yucheng Dong, Liujiang Xi, Shiliu Yang, Zhouguang Lu and C. Y. Chung*, Fabrication of LiF/Fe/Graphene nanocomposites as cathode material for lithium-ion batteries, ACS Applied Materials & Interfaces, 2013, 5, 892. 　　[11] Ruguang Ma, Man Wang, Pengpeng Tao, Yu Wang, Chenwei Cao, Guangcun Shan, Shiliu Yang, Liujiang Xi, C. Y. Chung* and Zhouguang Lu*, Fabrication of FeF3 nanocrystals dispersed into a porous carbon matrix as a high performance cathode material for lithium ion batteries, Journal of Materials Chemistry A, 2013, 1, 15060. 　　[10] Mingjun Hu, Jiaju Xu, Jiefeng Gao, Shiliu Yang, Julia Shuk Ping Wong, Robert K. Y. Li*, Benzyl alcohol-based synthesis of oxide nanoparticles: the perspective of SN1 reaction mechanism, Dalton Transactions, 2013, 42, 9777. 　　[9] Ruguang Ma, Zhouguang Lu, Chundong Wang, Shiliu Yang, Liujiang Xi, Hong-En Wang and C. Y. Chung*, Large-scale fabrication of graphene-wrapped FeF3 by vapour-solid method and its application as cathode in lithium ion batteries, Nanoscale, 2013, 5, 6338. 　　[8] Liujiang Xi, Chenwei Cao, Ruguang Ma, Yu Wang, Shiliu Yang, Jianqiu Deng, Min Gao, Fang Lian, Zhouguang Lu* and C. Y. Chung*, Layered Li2MnO33LiNi0.5-xMn0.5-xCo2xO2 microspheres with Mn-rich core as high performance cathode materials for lithium ion batteries, Physical Chemistry Chemical Physics, 2013, 15, 16579. 　　[7] Yucheng Dong, Mingjun Hu, Ruguang Ma, Hua Cheng, Shiliu Yang, Yangyang Li and J. A. Zapien*, Evaporation-induced synthesis of carbon-supported Fe3O4 nanocomposites as anode material for lithium-ion batteries, CrystEngComm, 2013, 15, 1324. 　　[6] Mingjun Hu, Jiefeng Gao, Shiliu Yang, Yucheng Dong, Julia Shuk Ping Wong, Jiaju Xu, Guangcun Shan, Robert K. Y. Li*, E1 reaction-induced synthesis of hydrophilic oxide nanoparticles in non-hydrophilic solvent, Nanoscale, 2012, 4, 6284. 　　[5] Ruguang Ma, Zhouguang Lu, ShiliuYang, Liujiang Xi, Chundong Wang, Hong-En Wang and C. Y. Chung*, Facile synthesis and electrochemical characterization of Sn4Ni3/C nanocomposites as anode materials for lithium ion batteries, Journal of Solid State Chemistry, 2012, 196, 536. 　　[4] Liujiang Xi, Hong-En Wang, Zhouguang Lu, Shiliu Yang, Ruguang Ma, Jianqiu Deng and C. Y. Chung*, Facile synthesis of porous LiMn2O4 spheres as positive electrode for high-power lithium ion batteries, Journal of Power Sources, 2012, 198, 251. 　　[3] Ruguang Ma, Lifang He, Zhouguang Lu, Shiliu Yang, Liujiang Xi and C. Y. Chung*, Large-scale fabrication of hierarchical a-Fe2O3 assemblies as high performance anode materials for lithium-ion batteries, CrystEngComm, 2012, 14, 7882. 　　[2] Mingjun Hu, Jiefeng Gao, Yucheng Dong, Shiliu Yang and Robert K. Y. Li*, Rapid controllable high-concentration synthesis and mutual attachment of silver nanowires, RSC Advances, 2012, 2, 2055. 　　[1] Mingjun Hu, Jiefeng Gao, Yucheng Dong, Kai Li, Guangcun Shan, Shiliu Yang and Robert K. Y. Li*, Flexible transparent PES/Silver nanowires/PET sandwich-structured film for high-efficiency electromagnetic interference shielding, Langmuir, 2012, 28, 7101.　

　授权专利 　　[1] 刘兆平，杨石榴，周旭峰，张建刚，单分散磷酸铁锂纳米材料的制备方法及其锂离子二次电池，专利号：ZL 2010 1 0102881.X. 　　[2] 刘兆平，周旭峰，杨石榴，石墨烯改性磷酸铁锂正极活性材料及其制备方法以及锂离子二次电池，专利号：ZL 2009 1 0155316.7.