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清华大学招收博士后

已有 3667 次阅读 2019-8-27 15:10 |个人分类:生活点滴|系统分类:博客资讯| 清华大学, 招聘, 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。

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,邮件主题请写明:应聘博士后。

 

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 Am Chem 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, Nat Chem, 7 (2015) 905-912.

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

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

[19] H. Xu, S. Tao, D. Jiang, Nat Mater, 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.

[126] X.M. He, C.Y. Jiang, W. Li, C.R. Wan, J. Electrochem. Soc., 153 (2006) A566-A569.

[127] K. Wang, X.M. He, L. Wang, J.G. Ren, C.Y. Jiang, C.R. Wan, J. Electrochem. Soc., 153 (2006) A1859-A1862.

[128] L. Wang, N. Li, X.M. He, C.R. Wan, C.Y. Jiang, J. Electrochem. Soc., 159 (2012) A915-A919.

[129] M.X. Zhang, J.Y. Du, L.S. Liu, A. Stefanopoulou, J. Siegel, L.G. Lu, X.M. He, X.Y. Xie, M.G. Ouyang, J. Electrochem. Soc., 164 (2017) A3038-A3044.

[130] M.X. Zhang, L.S. Liu, A. Stefanopoulou, J. Siegel, L.G. Lu, X.M. He, M.G. Ouyang, J. Electrochem. Soc., 164 (2017) A2738-A2745.

[131] J.S. Zhao, L. Wang, X.M. He, C.R. Wan, C.Y. Jiang, J. Electrochem. Soc., 155 (2008) A292-A296.

[132] X.M. He, L. Wang, W.H. Pu, J.G. Ren, W. Wu, C.Y. Jiang, C.R. Wan, J. Therm. Anal. Calorim., 94 (2008) 151-155.

[133] K.Q. Ding, J. Zhao, J.M. Zhou, Y.B. Zhao, Y.Y. Chen, L.K. Liu, L. Wang, X.M. He, Z.H. Guo, Mater. Chem. Phys., 177 (2016) 31-39.

[134] J. Gao, J.J. Li, F. Song, J.X. Lin, X.M. He, C.Y. Jiang, Mater. Chem. Phys., 152 (2015) 177-182.

[135] X.M. He, J.J. Li, Y. Cai, C.Y. Jiang, C.R. Wan, Mater. Chem. Phys., 95 (2006) 105-108.

[136] L. Wang, K.Q. Ding, B.J. Wei, C.X. Li, X.M. Shi, Y. Zhang, X.M. He, Mater. Chem. Phys., 207 (2018) 58-66.

[137] D.S. Wang, X.L. Ma, Y.G. Wang, L. Wang, Z.Y. Wang, W. Zheng, X.M. He, J. Li, Q. Peng, Y.D. Li, Nano Res., 3 (2010) 1-7.

[138] X.L. Xiao, X.F. Liu, L. Wang, H. Zhao, Z.B. Hu, X.M. He, Y.D. Li, Nano Res., 5 (2012) 395-401.

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