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年薪25-55万,清华大学招收锂离子电池等方向博士后

      清华大学招收博士后

方向:超分子、光阻(光刻胶)、锂离子电池(材料、电池、安全性、失效分析)、燃料电池、能源材料、环境材料、智能材料等合作导师:何向明、徐宏、王莉、杨洋

待遇:20-40万年薪+业绩。

专业背景:化学/化工/材料, 有机合成,计算化学,高分子,超分子,锂电/燃料电池,以及其它能源材料/环境材料。

工作内容:高水平前沿创新研究。

另外:常年招收博士后。博士后在站期间,基本年薪约10.5万元(不含住房补贴1.2万元),全部年薪不少于25万元;可租住博士后公寓及解决子女入园、入学;享受清华大学教职工社会保险、住房公积金等;享受全国博管会关于出站博士后户口迁移及家属户口随迁等政策。

详情请浏览清华大学博士后网站,并进行网上申报http://postdoctor.tsinghua.edu.cn/。咨询可发邮件至:hexm@tsinghua.edu.cn;ou.xiaoying@sztspi.com,邮件主题请写明:应聘博士后。

  

年薪25-55万,清华大学招收锂离子电池等方向博士后同时,欢迎海外优秀青年直接申报编制指标(教授、副教授、研究员、副研究员),并通过清华大学申报千人计划,或者青年千人计划。待遇面议(包括住房一套,薪酬无上限)。请将简历及要求发至hexm@tsinghua.edu.cn

清华大学

核能与新能源技术研究院

锂离子电池实验室简介

清华大学核能与新能源技术研究院锂离子电池技术的研究始于上个世纪九十年代初。

年薪25-55万,清华大学招收锂离子电池等方向博士后

www.hexmgroup.com

 

目前拥有清华大学昌平校区800平米实验基地、清华大学本部100平米实验室,致力于新能源器件及其关键材料相关的工程科学问题研究,创新研究,及产业中的工程问题解决方案。发表论文400多篇,授权发明专利300多项。10多项成果实现了产业化。  

Selected Publications

[1] Y. Wu, W. Wang,J. Ming, M. Li, L. Xie, X. He, J. Wang, S. Liang, Y. Wu,Advanced Functional Materials,(2018).

[2] L. Wang, X.M. He, J.J. Li,W.T. Sun, J. Gao, J.W. Guo, C.Y. Jiang, Angew. Chem.-Int. Edit., 51 (2012)9034-9037.

[3] X. Liu, D. Ren, H. Hsu, X.Feng, G.-L. Xu, M. Zhuang, H. Gao, L. Lu, X. Han, Z. Chu, J. Li, X. He, K.Amine, M. Ouyang, Joule, 2 (2018) 2047-2064.

[4] Y. Sun, L. Wang, Y. Li, Y.Li, H.R. Lee, A. Pei, X. He, Y. Cui, Joule, 3 (2019) 1080-1093.

[5] H. Gao, T.Y. Ma, T. Duong, L.Wang, X.M. He, I. Lyubinetsky, Z.X. Feng, F. Maglia, P. Lamp, K. Amine, Z.H.Chen, Mater Today Energy, 7 (2018) 18-26.

[6] L. Wang, X.M. He, W.T. Sun,J.L. Wang, Y.D. Li, S.S. Fan, Nano Lett., 12 (2012) 5632-5636.

[7] J.S. Zhao, X.M. He, L. Wang, J.H.Tian, C.R. Wan, C.Y. Jiang, Int. J. Hydrog. Energy, 32 (2007)380-384.

[8] J.S. Zhao, X.M. He, J.H.Tian, C.R. Wan, C.Y. Jiang, Energy Conv. Manag., 48 (2007)450-453.

[9] C. Wang, S.B. Wang, L.F.Peng, J.L. Zhang, Z.G. Shao, J. Huang, C.W. Sun, M.G. Ouyang, X.M. He, Energies,9 (2016) 39.

[10] C. Gu, N. Huang, Y. Chen, L.Qin, H. Xu, S. Zhang, F. Li, Y. Ma, D. Jiang,Angew Chem Int Ed Engl,54 (2015) 13594-13598.

[11] C. Gu, N. Huang, Y. Wu, H.Xu, D. Jiang, Angew Chem Int Ed Engl, 54 (2015) 11540-11544.

[12] F. Xu, H. Xu, X. Chen, D.Wu, Y. Wu, H. Liu, C. Gu, R. Fu, D. Jiang, Angew Chem Int Ed Engl, 54 (2015)6814-6818.

[13] Y. Xu, S. Jin, H. Xu, A.Nagai, D. Jiang, Chem Soc Rev, 42 (2013) 8012-8031.

[14] X. Chen, M. Addicoat, E.Jin, L. Zhai, H. Xu, N. Huang, Z. Guo, L. Liu, S. Irle, D. Jiang, J AmChem Soc, 137 (2015) 3241-3247.

[15] N. Huang, L. Zhai, H. Xu, D.Jiang, J Am Chem Soc, 139 (2017) 2428-2434.

[16] H. Xu, J. Gao, D. Jiang, NatChem, 7 (2015) 905-912.

[17] H. Xu, D. Jiang, NatChem, 6 (2014) 564-566.

[18] S. Dalapati, M. Addicoat, S.Jin, T. Sakurai, J. Gao, H. Xu, S. Irle, S. Seki, D. Jiang, NatCommun, 6 (2015) 7786.

[19] H. Xu, S. Tao, D. Jiang, NatMater, 15 (2016) 722-726.

[20] E. Jin, J. Li, K. Geng, Q.Jiang, H. Xu, Q. Xu, D. Jiang, Nature Communications, 9 (2018).

[21] E. Jin, M. Asada, Q. Xu, S.Dalapati, M.A. Addicoat, M.A. Brady, H. Xu, T. Nakamura, T. Heine, Q. Chen, D.Jiang, Science, 357 (2017) 673-676.

[22] Z. Pei, Y. Yang, Q. Chen, Y.Wei, Y. Ji, Advanced Materials, 28 (2016) 156-+.

[23] X. Qian, Q. Chen, Y. Yang,Y. Xu, Z. Li, Z. Wang, Y. Wu, Y. Wei, Y. Ji,Advanced Materials, 30(2018).

[24] Y. Yang, Z. Pei, Z. Li, Y.Wei, Y. Ji, J. Am. Chem. Soc., 138 (2016) 2118-2121.

[25] Y. Yang, E.M. Terentjev, Y.Wei, Y. Ji, Nature Communications, 9 (2018).

[26] Y. Yang, Y. Yang, S. Chen,Q. Lu, L. Song, Y. Wei, X. Wang, Nature Communications, 8 (2017).

[27] Y. Yang, S. Zhang, X. Zhang,L. Gao, Y. Wei, Y. Ji, Nature Communications, 10 (2019).

[28] Z. Pei, Y. Yang, Q. Chen,E.M. Terentjev, Y. Wei, Y. Ji, Nature Materials, 13 (2014) 36-41.

[29] G. Ma, L. Wang, X. He, J.Zhang, H. Chen, W. Xu, Y. Ding, Acs Applied Energy Materials, 1(2018) 5446-5452.

[30] E. Pan, Y. Jin, C. Zhao, M.Jia, Q. Chang, M. Jia, L. Wang, X. He, Acs Applied Energy Materials, 2(2019) 1756-1764.

[31] Y. Wu, H. Ming, M. Li, J.Zhang, W. Wahyudi, L. Xie, X. He, J. Wang, Y. Wu, J. Ming, Acs Energy Letters, 4(2019) 656-665.

[32] X. Feng, S. Zheng, D. Ren,X. He, L. Wang, H. Cui, X. Liu, C. Jin, F. Zhang, C. Xu, H. Hsu, S. Gao, T.Chen, Y. Li, T. Wang, H. Wang, M. Li, M. Ouyang, Appl. Energy, 246 (2019)53-64.

[33] X.N. Feng, X.M. He, M.G.Ouyang, L.G. Lu, P. Wu, C. Kulp, S. Prasser, Appl. Energy, 154 (2015)74-91.

[34] M.G. Ouyang, X.N. Feng, X.B.Han, L.G. Lu, Z. Li, X.M. He, Appl. Energy, 165 (2016) 48-59.

[35] D. Ren, X. Liu, X. Feng, L.Lu, M. Ouyang, J. Li, X. He, Appl. Energy, 228 (2018) 633-644.

[36] X.M. He, Chem.Eng. Commun., 195 (2008) 1227-1239.

[37] X.M. He, W.H. Pu, J.L. Han,J. Chen, J.F. Lu, C.Y. Jiang, C.R. Wan, Chem. Phys., 324 (2006) 767-770.

[38] N. Piao, L. Wang, T. Anwar,X. Feng, S.e. Sheng, G. Tian, J. Wang, Y. Tang, X. He, Corrosion Science, 158(2019) 108100.

[39] K. Wang, X.M. He, J.G. Ren,C.Y. Jiang, C.R. Wan, Electrochem. Solid State Lett., 9(2006) A320-A323.

[40] J. Cao, L. Wang, M. Fang, Y.Shang, L. Deng, J. Yang, J. Li, H. Chen, X. He,Electrochim. Acta, 114(2013) 527-532.

[41] J. Cao, L. Wang, Y.M. Shang,M. Fang, L.F. Deng, J. Gao, J.J. Li, H. Chen, X.M. He, Electrochim. Acta, 111(2013) 674-679.

[42] J.B. Chen, Y.W. Wang, X.M.He, S.M. Xu, M. Fang, X. Zhao, Y.M. Shang,Electrochim. Acta, 142 (2014)152-156.

[43] Y.Q. Chen, L. Wang, T.Anwar, Y. Zhao, N. Piao, X.M. He, Q.Y. Zhu,Electrochim. Acta, 241(2017) 132-140.

[44] Z.J. Dai, L. Wang, X.M. He,F.P. Ye, C.C. Huang, J.J. Li, J. Gao, J.L. Wang, G.Y. Tian, M.G. Ouyang, Electrochim.Acta, 112 (2013) 144-148.

[45] Z.J. Dai, L. Wang, F.P. Ye,C.C. Huang, J.X. Wang, X.K. Huang, J.L. Wang, G.Y. Tian, X.M. He, M.G. Ouyang, Electrochim.Acta, 134 (2014) 13-17.

[46] K.Q. Ding, Y.B. Zhao, L.K.Liu, Y. Li, L. Liu, L. Wang, X.M. He, Z.H. Guo,Electrochim. Acta, 176(2015) 240-248.

[47] X.M. He, W.H. Pu, J.G. Ren,L. Wang, J.L. Wang, C.Y. Jiang, C.R. Wan,Electrochim. Acta, 52 (2007)7372-7376.

[48] X.M. He, W.H. Pu, L. Wang,J.G. Ren, C.Y. Jiang, C.R. Wan, Electrochim. Acta, 52 (2007)3651-3653.

[49] X.M. He, J.G. Ren, W. Li,C.Y. Jiang, C.R. Wan, Electrochim. Acta, 51 (2006)4533-4536.

[50] X.M. He, Q. Shi, X. Zhou,C.R. Wan, C.Y. Jiang, Electrochim. Acta, 51 (2005)1069-1075.

[51] M. Jia, Y. Jin, P. Zhao, C.Zhao, M. Jia, L. Wang, X. He, Electrochim. Acta, 310 (2019)230-239.

[52] Y.H. Jin, L. Wang, Y.M.Shang, J. Gao, J.J. Li, X.M. He, Electrochim. Acta, 151 (2015)109-117.

[53] Y.H. Jin, L. Wang, Y.M.Shang, J. Gao, J.J. Li, Q.L. Jiang, X. Du, C.W. Ji, X.M. He, Electrochim.Acta, 188 (2016) 40-47.

[54] W.H. Pu, X.M. He, J.G. Ren,C.R. Wan, C.Y. Jiang, Electrochim. Acta, 50 (2005)4140-4145.

[55] G.N. Qian, L. Wang, Y.M.Shang, X.M. He, S.F. Tang, M. Liu, T.W. Li, G.Q. Zhang, J.L. Wang, Electrochim.Acta, 187 (2016) 113-118.

[56] J.G. Ren, X.M. He, W.H. Pu,C.Y. Jiang, C.R. Wan, Electrochim. Acta, 52 (2006)1538-1541.

[57] J.G. Ren, X.M. He, L. Wang,W.H. Pu, C.Y. Jiang, C.R. Wan, Electrochim. Acta, 52 (2007)2447-2452.

[58] H. Sun, X.M. He, J.G. Ren,J.J. Li, C.Y. Jiang, C.R. Wan, Electrochim. Acta, 52 (2007)4312-4316.

[59] Z. Tian, X.M. He, W.H. Pu,C.R. Wan, C.Y. Jiang, Electrochim. Acta, 52 (2006)688-693.

[60] Z. Tian, W.H. Pu, X.M. He,C.R. Wan, C.Y. Jiang, Electrochim. Acta, 52 (2007)3199-3206.

[61] K. Wang, X.M. He, J.G. Ren,L. Wang, C.Y. Jiang, C.R. Wan, Electrochim. Acta, 52 (2006)1221-1225.

[62] L. Wang, X.M. He, J.J. Li,M. Chen, J. Gao, C.Y. Jiang, Electrochim. Acta, 72 (2012)114-119.

[63] L. Wang, N. Li, X.M. He,C.R. Wan, C.Y. Jiang, Electrochim. Acta, 68 (2012)214-219.

[64] L. Wang, J.S. Zhao, X.M. He,C.R. Wan, Electrochim. Acta, 56 (2011) 5252-5256.

[65] Y.Q. Wu, L.Q. Xie, X.M. He,L.H. Zhuo, L.M. Wang, J. Ming, Electrochim. Acta, 265 (2018)115-120.

[66] J. Yang, Y. Zhang, P. Zhao,Y. Shang, L. Wang, X. He, J. Wang, Electrochim. Acta, 158 (2015)202-208.

[67] J.P. Yang, P. Zhao, Y.M.Shang, L. Wang, X.M. He, M. Fang, J.L. Wang,Electrochim. Acta, 121(2014) 264-269.

[68] H.P. Zhao, C.Y. Jiang, X.M.He, J.G. Ren, C.R. Wan, Electrochim. Acta, 52 (2007)7820-7826.

[69] H.P. Zhao, J.G. Ren, X.M.He, J.J. Li, C.Y. Jiang, C.R. Wan, Electrochim. Acta, 52 (2007)6006-6011.

[70] J.S. Zhao, L. Wang, X.M. He,C.R. Wan, C.Y. Jiang, Electrochim. Acta, 53 (2008)7048-7053.

[71] X.M. He, W.H. Pu, H.W.Cheng, C.Y. Jiang, C.R. Wan, Energy Conv. Manag., 47 (2006)1879-1883.

[72] X. Feng, S. Zheng, D. Ren,X. He, L. Wang, X. Liu, M. Li, M. Ouyang, Energy Procedia, 158 (2019)4684-4689.

[73] X. Feng, M. Ouyang, X. Liu,L. Lu, Y. Xia, X. He, Energy Storage Materials, 10 (2018)246-267.

[74] X. Feng, S. Zheng, X. He, L.Wang, Y. Wang, D. Ren, M. Ouyang, Frontiers in Energy Research, 6(2018).

[75] Y.L. Zhang, L. Wang, J.J.Li, L. Wen, X.M. He, J. Alloy. Compd., 606 (2014)226-230.

[76] H.Y. Liu, J. Xu, B.H. Guo,X.M. He, J. Appl. Polym. Sci., 131 (2014) 6.

[77] W.H. Pu, X.M. He, J.F. Lu,C.Y. Jiang, C.R. Wan, J. Chem. Phys., 123 (2005) 3.

[78] W. Li, X.M. He, J.G. Ren,C.Y. Jiang, C.R. Wan, J. Electroanal. Chem., 597 (2006)127-129.

[79] M. Fang, S.P. Kelty, X.M.He, J.Energy Chem., 23 (2014) 282-286.

[80] Y.Y. Li, L. Wang, X.M. He,B. Tang, Y.X. Jin, J.L. Wang, J. Energy Chem., 25 (2016) 131-135.

[81] H.Y. Liu, Z.H. Dai, J. Xu,B.H. Guo, X.M. He, J. Energy Chem., 23 (2014) 582-586.

[82] P. Zhao, J.P. Yang, Y.M.Shang, L. Wang, M. Fang, J.L. Wang, X.M. He, J. Energy Chem., 24(2015) 138-144.

[83] X.N. Feng, Y. Pan, X.M. He,L. Wang, M.G. Ouyang, J Energy Storage, 18 (2018) 26-39.

[84] Z.H. Chen, Y. Ren, Y. Qin,H.M. Wu, S.Q. Ma, J.G. Ren, X.M. He, Y.K. Sun, K. Amine, J. Mater. Chem., 21(2011) 5604-5609.

[85] L. Wang, X.M. He, J.J. Li,J. Gao, J.W. Guo, C.Y. Jiang, C.R. Wan, J. Mater. Chem., 22 (2012)22077-22081.

[86] J. Cao, L. Wang, X.M. He, M.Fang, J. Gao, J.J. Li, L.F. Deng, H. Chen, G.Y. Tian, J.L. Wang, S.S. Fan, J.Mater. Chem. A, 1 (2013) 5955-5961.

[87] S. Zhang, J. Cao, Y.M.Shang, L. Wang, X.M. He, J.J. Li, P. Zhao, Y.W. Wang,J. Mater. Chem. A, 3(2015) 17697-17703.

[88] H.Y. Liu, J. Xu, B.H. Guo,X.M. He, J. Mater. Sci., 49 (2014) 6961-6966.

[89] W.H. Pu, X.M. He, L. Wang,C.Y. Jiang, C.R. Wan, J. Membr. Sci., 272 (2006) 11-14.

[90] W.H. Pu, X.M. He, L. Wang,Z. Tian, C.Y. Jiang, C.R. Wan, J. Membr. Sci., 280 (2006) 6-9.

[91] H.P. Zhao, C.Y. Jiang, X.M.He, H.G. Ren, C.R. Wan, J. Membr. Sci., 310 (2008) 1-6.

[92] X.M. He, W.H. Pu, J.L. Han,J. Chen, J.F. Lu, C.Y. Jiang, C.R. Wan, J. Phys. Chem. B, 109 (2005)23141-23144.

[93] T.Y. Ma, G.L. Xu, Y. Li, L.Wang, X.M. He, J.M. Zheng, J. Liu, M.H. Engelhard, P. Zapol, L.A. Curtiss, J.Jorne, K. Arnine, Z.H. Chen, J. Phys. Chem. Lett., 8 (2017)1072-1077.

[94] A.J. Bai, L. Wang, Y. Li,X.M. He, J.X. Wang, J.L. Wang, J. Power Sources, 289 (2015)100-104.

[95] J. Cao, L. Wang, M. Fang,X.M. He, J.J. Li, J. Gao, L.F. Deng, J.L. Wang, H. Chen, J. Power Sources, 246(2014) 499-504.

[96] X.N. Feng, M. Fang, X.M. He,M.G. Ouyang, L.G. Lu, H. Wang, M.X. Zhang,J. Power Sources, 255 (2014)294-301.

[97] X.N. Feng, J.Q. Li, M.G.Ouyang, L.G. Lu, J.J. Li, X.M. He, J. Power Sources, 232 (2013)209-218.

[98] X.N. Feng, J. Sun, M.G.Ouyang, X.M. He, L.U. Lu, X.B. Han, M. Fang, H. Peng, J. Power Sources, 272(2014) 457-467.

[99] X.N. Feng, J. Sun, M.G.Ouyang, F. Wang, X.M. He, L.G. Lu, H.E. Peng, J. Power Sources, 275(2015) 261-273.

[100] X.M. He, J.J. Li, Y. Cai,Y.W. Wang, J.R. Ying, C.Y. Jiang, C.R. Wan, J. Power Sources, 150(2005) 216-222.

[101] X.M. He, J.J. Li, H.W.Cheng, C.Y. Jiang, C.R. Wan, J. Power Sources, 152 (2005)285-290.

[102] X.M. He, J.G. Ren, L. Wang,W.H. Pu, C.Y. Jiang, C.R. Wan, J. Power Sources, 190 (2009)154-156.

[103] X.M. He, L. Wang, W. Li,C.Y. Jiang, C.R. Wan, J. Power Sources, 158 (2006)1480-1483.

[104] Z.L. Huang, J. Gao, X.M.He, J.J. Li, C.Y. Jiang, J. Power Sources, 202 (2012)284-290.

[105] J.G. Li, X.M. He, R.S.Zhao, C.R. Wan, C.Y. Jiang, D.G. Xia, S.C. Zhang, J. Power Sources, 158(2006) 524-528.

[106] J.G. Li, L. Wang, J. Luo,J. Gao, J.J. Li, J.L. Wang, X.M. He, G.Y. Tian, S.S. Fan, J. Power Sources, 244(2013) 652-657.

[107] J.G. Li, L. Wang, Q. Zhang,X.M. He, J. Power Sources, 189 (2009) 28-33.

[108] J.G. Li, L. Wang, Q. Zhang,X.M. He, J. Power Sources, 190 (2009) 149-153.

[109] M. Ouyang, M. Zhang, X.Feng, L. Lu, J. Li, X. He, Y. Zheng, J. Power Sources, 294 (2015)272-283.

[110] D.S. Ren, X.N. Feng, L.G.Lu, M.G. Ouyang, S.Q. Zheng, J.Q. Li, X.M. He, J. Power Sources, 364(2017) 328-340.

[111] W. Tian, L. Wang, K. Huo,X. He, J. Power Sources, 430 (2019) 60-66.

[112] J. Wang, Y.W. Wang, X.M.He, J.G. Ren, C.Y. Jiang, C.R. Wan, J. Power Sources, 138 (2004)271-273.

[113] L. Wang, X.M. He, J.J. Li,J. Gao, M. Fang, G.Y. Tian, J.L. Wang, S.S. Fan, J. Power Sources, 239(2013) 623-627.

[114] L. Wang, W.T. Sun, X.Y.Tang, X.K. Huang, X.M. He, J.J. Li, Q.W. Zhang, J. Gao, G.Y. Tian, S.S. Fan, J.Power Sources, 244 (2013) 94-100.

[115] M. Wang, J.J. Li, X.M. He,H. Wu, C.R. Wan, J. Power Sources, 207 (2012) 127-133.

[116] F.P. Ye, L. Wang, X.M. He,M. Fang, Z.J. Dai, J.X. Wang, C.C. Huang, F. Lian, J.L. Wang, G.Y. Tian, M.G.Ouyang, J. Power Sources, 253 (2014) 143-149.

[117] Y.H. Ye, Y.X. Shi, N.S.Cai, J. Lee, X.M. He, J. Power Sources, 199 (2012)227-238.

[118] J.R. Ying, M. Lei, C.Y.Jiang, C.R. Wan, X.M. He, J.J. Li, L. Wang, J.G. Ren, J. Power Sources, 158(2006) 543-549.

[119] H.P. Zhao, C.Y. Jiang, X.M.He, J.G. Ren, J. Power Sources, 184 (2008) 532-537.

[120] S.Q. Zheng, L. Wang, X.N.Feng, X.M. He, J. Power Sources, 378 (2018) 527-536.

[121] X.M. He, J.J. Li, Y. Cai,Y.W. Wang, J.R. Ying, C.Y. Jiang, C.R. Wan, J. Solid State Electrochem.,9 (2005) 438-444.

[122] L. Wang, J.G. Li, X.M. He,W.H. Pu, C.R. Wan, C.Y. Jiang, J. Solid State Electrochem., 13(2009) 1157-1164.

[123] X. Feng, X. He, L. Lu, M.Ouyang, J. Electrochem. Soc., 165 (2018) A155-A167.

[124] X. Feng, X. He, M. Ouyang,L. Wang, L. Lu, D. Ren, S. Santhanagopalan, J. Electrochem. Soc., 165(2018) A3748-A3765.

[125] S.H. Guo, S.C. Zhang, X.M.He, W.H. Pu, C.Y. Jiang, C.R. Wan, J. Electrochem. Soc., 155 (2008)A760-A763.

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