唐新村

教育經歷

[1]1989.9-1992.6

邵陽學院| 化學工程

[2]1996.9-1999.6

新疆大學| 物理化學| 碩士| 碩士

[3]1999.9-2002.6

湖南大學| 材料學| 博士| 博士

工作經歷

[1]2002.7-至今

中南大學化學化工學院

[1] 資源與環境化學：

① 廢舊電池及其它鈷鎳二次資源的回收與綜合處理；

② 冶金廢渣中砷的無害化處理；

[2] 鋰離子電池及關鍵電極材料的製備與性能評價方法：

① 動力鋰離子電池高性能、高振實密度LiFePO4正極材料的製備技術；

② 資源與材料一體化的鈷鎳錳三元正極材料的製備技術；

③ 基於容量參數的二次電池動力學評價方法及其在電池綜合性能預測評價的套用技術。

科研項目

[1]砷酸鐵/針鐵礦核殼結構的形成機制及其在低Fe/As比除砷固砷中的套用

[2]新疆鎳鈷資源與CoxNiyMn1-x-yO2三元前驅體材料的一體化製備技術

[3]納米自組裝製備納-微複合球形磷酸鐵鋰及其電化學性能研究

[4]高砷冶金廢料的回收與綜合處理技術

[5]環境友好型廢舊鋰離子電池回收工藝

[6]半乾法煙氣脫硫關鍵設備及高效煙氣脫硫劑製備技術

[7]廢舊鋰離子電池資源綜合回收利用的和諧性

[8]二次電池組單體電池的分選方法

[9]鋰離子廢舊電池中鈷和鋰的提取工藝

[10]耐高溫嚴寒鋰離子電池配套電解液的開發與套用

[11]基於容量參數的高能二次電池動力學性能評價方法

[12]鋅鋁合金除銅除鉛工藝

[13]五氧化二釩新工藝流程及技術服務

[14]全釩離子液流電池的產業化研究

[15]低熱固相反應機制中的基礎問題研究

[16]離子電池關鍵材料——耐高溫嚴寒低成本大容量鋰錳氧及配套電解液的製備技術

論文成果

[1] Yina Wu, Le Zhou, Guoqing Xu, Jie Huang, Xiong Fang, Yang Wang, Yuan Jin, Xincun Tang*. Preparation of High Tap Density LiFePO4/C through Carbothermal Reduction Process Using Beta-Cyclodextrin as Carbon Source. Int. J. Electrochem. Sci.,

[2] L. Zhou, Y.N. Wu, J. Huang, X. Fang, T. Wang, W.M. Liu, Y. Wang, Y. Jin, X.C. Tang. Enhanced electrochemical performance of Li1.2Mn0.54Ni0.13Co0.13O2 cathode material coated with Li+-conductive Li2SiO3 for lithium ion batteries J. Alloys Compd., 724 (2017): 991-999

[3] Jin Y, Tang X, Wang H. Solvothermal synthesis and self-assembling mechanism of micro-nano spherical LiFePO4 with high tap density RSC Advances, 2016, 6(79): 75602-75608

[4] Tao Wang, Yang Wang, Yina Wu, Le Zhou, Yuan Jin, Wenming Liu, Jie Huang, Xiong Fang, Xincun Tang*. LiFePO4/C Composite Prepared by Coal Based Carbon Sources Int. J. Electrochem. Sci., 12(2016): 975-984

[5] Zhenmiao Zheng, Wei Kong Pang, Xincun Tang∗, Dianzeng Jia, Yudai Huang, Zaiping Guo. Solvothermal synthesis and electrochemical performance of hollow LiFePO4 nanoparticles Journal of Alloys and Compounds, 2015，640(15): 95-100

[6] Jie Liu, Xin-Cun Tang∗, Yuan-Hua Xiao, Hai Jia, Mei-Li Gong, Fu-Qin Huang. Porous sheet-like and sphere-like nano-architectures of SnO2 nanoparticles via a solvent-thermal approach and their gas-sensing performances Materials Science and Engineering B, 2013, 178(1165–1168):

[7] Liang Zhang, Xincun Tang, Zhouguang Lua, Zhimin Wang, Lianxing Li, Yuanhua Xiao. Facile synthesis and photocatalytic activity of hierarchical WO3 core–shell microspheres Applied Surface Science, 2011, 258: 1719-1724

[8] Liang Chen, Xincun Tang*, Yang Zhang, Lianxing Li, Zhiwen Zeng, Yi Zhang. Process for the recovery of cobalt oxalate from spent lithium-ion batteries Hydrometallurgy, 2011，108: 80-86

[9] Lianxing Li, Xincun Tang*, Hongtao Liu*, Yi Qu, Zhouguang Lu. Morphological solution for enhancement of electrochemical kinetic performance of LiFePO4 Electrochimica Acta, 2010,56: 995-999

[10] Lian-Xing Li, Xin-Cun Tang*, Zhuo Luo, Xia-Wei Song, Hong-Tao Liu. A novel parameter for evaluation on power performance of Ni–MH rechargeable batteries International Journal of Hydrogen Energy, 2010, 35(7): 2847-2851

[11] Xin-Cun Tang*, Lian-Xing Li, Qiong-Lin Lai, Xia-Wei Song, Li-Hui Jiang. Investigation on diffusion behavior of Li+ in LiFePO4 by capacity intermittent titration technique (CITT) Electrochimica Acta, 2009, 54(8): 2329-2334

[12] Tang, Xin-Cun; Jia, Dian-zeng; Jiang, Chen-Kui; Jiang, Li-Hui; Guo, Zai-Ping. Diffusion and kinetics of solvent-free reaction between molecular crystals by time-dependent powder UV-vis reflection spectrum The Journal of Physical Chemistry A, 2008，112(24): 5390-5394

[13] Xin-Cun Tang, Li-Qing Li, Bai-Yun Huang, Yue-Hui He. Phenomenon of Enhanced Diffusion of Lithium-ion in LiMn2O4 Induced by Electrochemical Cycling Solid State Ionics, 2006，177: 687-690

[14] Xin-Cun TANG, Cheng-Kui Jiang, Chun-Yue Pan, Bo-Yun Huang, Yue-Hui He. Synthesis and phase transition of Li-Mn-O spinels with high Li/Mn Ratio by thermo-decomposition of LiMnC2O4(Ac) Journal of Solid State Chemistry, 2006，179: 1100-1109

[15] Xin-Cun Tang, Xia-Wei Song, Pei-Zhi Shen, Dian-Zeng Jia. Capacity Intermittent Titration Technique (CITT): A Novel Technique for Determination of Li+ Diffusion Coefficient of LiMn2O4 Electrochimica Acta, 2005, 50: 5581-5587

[16] Tang Xin-Cun, Pan Chun-Yue, He Li-Ping, Li-Li-Qing, Chen Zong-Zhang. A Novel Technique Based On the Ratio of Potentio-charge Capacity to Galvano-charge Capacity (RPG) For Determination of the Diffusion Coefficient of Intercalary Species within Insertion-host Materials: Theories and Experiments Electrochimica Acta, 2004, 49(19): 3113-3119

[17] Tang Xincun, Jia Dianzeng, Zhang Xiaogang, Zhou Zhongyuan. Synthesis, structure and properties of two photochromic compound containing a pyrazolone-ring Chemical Research in Chinese Universities, 2000, 16(2): 116-121

[18] Tang Xincun, Jia Dianzeng, Zhang Xiaogang, Zhou Zhongyuan. Synthesis, structure and properties of a novel kind of photochromic compound containing a pyrazolone-ring J. Photochem. Photobiol., 2000，134(1-2): 23-29

專利成果

[1]一種高砷冶金廢料梯度脫砷方法

[2]一種利用含砷廢水製備三氧化二砷的方法

[3]一種用於SO2還原砷酸鹽水溶液製備三氧化二砷的裝置

[4]一種硫化鎘包覆碳納米管材料及氣敏元件的製造方法

[5]一種環保的廢舊鋰電池回收中的酸浸萃取工藝

[6]廢舊鋰電池中活性物質酸性浸出液的高效淨化工藝

[7]一種廢舊鋰電池正極活性材料的高效浸出工藝

[8]一種室溫測定有機醇類氣體的氣敏元件的製作方法

研究成果先後獲得省部級科技進步一等獎1項、二等獎1項和三等獎1項。