徐成俊(清華大學深圳研究生院講師、副研究員)

徐成俊 副研究員 主要從事電化學儲能相關領域研究.

2010年1月~2012年5月，清華大學電氣工程專業博士後

2012年5月~至今， 清華大學深圳研究生院講師，副研究員

主要從事電化學儲能相關領域研究，包括納米儲能材料如二氧化錳和碳材料，儲能電化學，新型儲能器件如高價態離子存儲電容器和可充電鋅離子電池。

在新能源頂級期刊包括Angew. Chem. Int. Ed.，J. Power Sources，J. Electrochem. Soc.等上發表20多篇SCI文章，第一作者文章被引用超過200次，現已獲得5個授權專利，正在申請15個發明專利，2個PCT，2個美國和2個日本專利，負責國家自然科學基金1項、博士後基金和深圳市基金多項。

[1] Xu, C., Li, B., Du, H., Kang, F. (2012): Energertic zinc ion chemistry: The rechargeable zinc ion battery, Angew. Chem. Int. Ed. 2012, 51: 933-935.

[2] Xu, C., Kang, F., Li, B., Du, H. (2010): Recent progress on manganese dioxide based supercapacitors, Journal of Materials Research, 2010, 25(8): 1421-1432. (Invited review article)

[3] Xu, C., Li, B., Du, H., Kang, F., Zeng, Y. (2008): Electrochemical properties of nanosized hydrous manganese dioxide synthesized by a self-reacting microemulsion method. Journal of Power Sources, 2008, 180: 664–670.

[4] Xu, C., Li, B., Du, H., Kang, F., Zeng, Y. (2008): Supercapacitive Studies on Amorphous MnO2 in Mild Solutions. Journal of Power Sources, 2008, 184: 691-694.

[5] Xu, C., Du, H., Li, B., Kang, F., Zeng, Y. (2009): The capacitive behavior and charge storage mechanism of manganese dioxide in aqueous mild solution containing bivalent cations. Journal of the Electrochemical Society, 2009, 156(1), A73-78.

[6] Xu, C., Du, H., Li, B., Kang, F., Zeng, Y. (2009): The reversible insertion properties of zinc ion into manganese dioxide and its application for energy storage. Electrochemical Solid-State Letters, 2009, 12(4), A61-A65.

[7] Xu, C., Du, H., Li, B., Kang, F., Zeng, Y. (2009): Asymmetric activated carbon-manganese dioxide capacitors in mild aqueous electrolytes containing alkaline-earth cations. Journal of the Electrochemical Society, 2009, 156: A435-437.

[8] Xu, C., Wei, C, Kang, F., Guan, Z (2011): Charge storage mechanism of manganese dioxide for capacitor application: Effect of the mild electrolytes containing alkaline and alkaline-earth metal cations, Journal of Power Sources, 2011, 196: 7854-7859.

[9] Xu, C.*, Chiang, S.W., Ma, J., Kang, F. (2013): Investigation on zinc ion storage in alpha manganese dioxide for zinc ion battery by electrochemical impedance spectrum. Journal of the Electrochemical Society, 2013, 160: A93-97.

[10] Wei, C., Xu, C., Li, B., Nan, D., Ma, J, Kang, F. (2012): Formation and conversion mechanisms between single-crystal gamma-MnOOH and manganese oxides, Materials Research Bulletin, 2012, 47(5): 1740-1746.

[11] Wei, C., Xu, C., Li, B., Nan, D., Ma, J, Kang, F. (2012): Preparation and characterization of manganese dioxides with nano-sized tunnel structures for zinc ion storage, J. Phys. Chem. Solids, 2012, 73: 1487-1491.

[12] Huang, J., Xu, C. (2005): Effect of N2 mass flow rate on the optical property of titanium nitride films deposited by magnetron sputtering, Acta Optica Sinica, 2005, 25: 1293-1296.

[13] Zhai, D., Li, B., Xu, C., Du, H., He, Y., Wei, C, Kang, F. (2011): A study on charge storage mechanism of alpha-MnO2 by occupying tunnels with metal cations (Ba2+, K+), Journal of Power Sources, 2011, 196: 7860-7867.

[14] Ma, J, Li, B., Du, H., Xu, C., Kang, F. (2011): The Effect of vanadium on physicochemical and electrochemical performances of LiFePO4 cathode for lithium battery, Journal of the Electrochemical Society, 2011, 158: A26-32.

[15] Ma, J, Li, B., Du, H., Xu, C., Kang, F. (2011): Effects of tin doping on physicochemical and electrochemical performances of LiFe1-xSnxPO4/C (0 <= x <= 0.07) composite cathode materials, Electrochimica Acta, 2011, 56: 7385-7391.

[16] Ma, J, Li, B., Du, H., Xu, C., Kang, F. (2012): The improvement of the high-rate charge/discharge performances of LiFePO4 cathode materials by Sn doping. Journal of Solid Sate Electrochemistry, 2012, 16: 1-8.

[17] Ma, J, Li, B., Du, H., Xu, C., Kang, F. (2012): Inorganic-based sol-gel synthesis of nano-structured liFePO4/C cathode materials for lithium ion batteries. Journal of Solid Sate Electrochemistry, 2012, 16: 1353-1362.

[18] Zhai, D., Li, B., Kang, F., Du, H., Xu, C. (2010): Preparation of mesophase-pitch-based activated carbons for electric double layer capacitors with high energy density, Microporous and Mesoporous Materials, 2010, 130: 224-228.

申請和授權的專利

[19] [1] Kang, F., Xu, C., Li, B., Du, H., Rechargeable zinc ion battery. China Patent (Patent No ZL200910106650.3).

[20] [2] Kang, F., Xu, C., Li, B., Du, H., Rechargeable zinc ion battery. China Patent (Patent No ZL2012052100534500).

[21] [3] Kang, F., Xu, C., Li, B., Du, H., Rechargeable zinc ion battery. China Patent (Patent No ZL2012052100530220).

[22] [4] Kang, F., Du, H., Li, B., Xu, C., Guan, Z, High frequency electrochemical supercapacitor. China Patent (Patent No ZL200810241775.2).

[23] [5] Xu, C., Kang, F., Li, B., Du, H., Rechargeable nickel ion battery. PCT Patent (Patent No PCT/CN2011/078629)

[24] [6] Kang, F., Xu, C., Li, B., Du, H., Rechargeable zinc ion battery. Submitted as U.S. Patent, (Application No US-2012-0034515-A1, Application date 02.09.2012).

[25] [7] Xu, C., Du, H., Li, B., Kang, F., Zhao Fenggang, Zeng, Y. The method to synthesize nanosized manganese dioxide. Submitted as China Patent, (Application No 200710032605.9, Application date 18.12.2007).

[26] [8] Xu, C., Du, H., Li, B., Kang, F., Zhao Fenggang, Zeng, Y. The method to synthesize nanosized particles. Submitted as China Patent, (Application No. 200710032606.3, Application date 18.12.2007).

[27] [9] Xu, C., Du, H., Li, B., Kang, F., Zhao Fenggang, Zeng, Y. A manganese dioxide electrochemical supercapacitor. Submitted as China Patent, (Application No 200810027780.3, Application date 30.04.2008).

[28] [10] Xu, C., Kang, F., Li, B., Du, H., Rechargeable nickel ion battery. Submitted as China Patent, (Application No 201010297235.3, Application date 29.09.2010).

[29] [11] Kang, F., Xu, C., Li, B., Du, H., Rechargeable zinc ion battery. Submitted as Japan Patent, (Application No P2012-524363A, Application date 11.10.2012).

[30] [12] Kang, F., Xu, C., Li, B., Du, H., A method to synthesize spinel ZnMn2O4. Submitted as China Patent, (Application No 200910110704.3, Application date 30.09.2009).

[31] [13] Kang, F., Xu, C., Li, B., Du, H., Rechargeable zinc ion battery based on vanadium oxides. Submitted as China Patent, (Application No 200910238912.1, Application date 29.12.2009).

[32] [14] Kang, F., Xu, C., Li, B., Du, H., Polymer rechargeable zinc ion battery. Submitted as China Patent, (Application No 200910205640.5, Application date 30.09.2009).

[33] [15] Kang, F., Xu, C., Li, B., Du, H., A high capacity rechargeable zinc ion battery. Submitted as China Patent, (Application No 201110061992.5, Application date 15.03.2011).

口頭報告:

[34] [1] Xu, C, Multivalent ion storage mechanism: A new strategy for ecofriendly energy storage, 17th International Symposium on Intercalation Compounds, May 12-16, 2013, Sendai, Japan. (Invited as keynote speaker)

[35] [2] Xu, C, Secondary batteries: Battery chemistry and structure, March 24, 2013, Chongqing University, Chongqing City, China. (Invited by Department of Material Science and Technology, Chongqing University)

[36] [3] Xu, C, New energy devices from basic chemistry to new design, Young Scientist Forum, May 22, 2012, Shenyang National Laboratory for Materials Science, Shenyang, China. (Invited by Prof. Dangsheng Su)

[37] [4] Xu, C, Du, H., Li, B., Kang, F., Zeng, Y. Synthesis and the polyvalent cation storage properties of manganese dioxides, 15th International Symposium on Intercalation Compounds, May 11-15, 2009, Tsinghua University, Beijing, China. (Oral)

[38] [5] Xu, C, Kang, F., Li, B., Energertic zinc ion chemistry: The rechargeable zinc ion battery, 16th International Symposium on Intercalation Compounds, May 22-27, 2011, Se？-Ústupky, Czech Republic. (Oral)

[39] [6] Xu, C, Wei, C, Kang, F., Li, B., High energy density asymmetric manganese dioxide carbon supercapacitors, 10th Chinese Symposium on New Carbon Materials, Dec. 10-14, 2011, Shenzhen City, China. (Oral)

[40] [7] Xu, C, Du, H., Li, B., Kang, F., Nano-sized manganese dioxide based asymmetrical supercapacitor with high energy density. 2nd International Symposium on Enhanced Electrochemical Capacitors. June 12-16, 2011, Poznan, Poland. (Oral)

[41] [8] Xu, C, Manganese oxides for energy storage, 8th Annual Particuology Symposium, Sep. 4-8, 2012, Hangzhou City, China. (Oral)