清华大学何向明、徐宏博导招收博士
清华大学何向明、徐宏博导招收博士
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
导师:何向明、徐宏 (核能与新能源技术研究院,专业方向:化学工程与技术)
待遇:6-30万年薪。
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。
联系:hexm@tsinghua.edu.cn
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] g. ma, l. wang, x. he, j. zhang, h. chen, w. xu, y. ding, acs applied energy materials, 1 (2018) 5446-5452.
[23] e. pan, y. jin, c. zhao, m. jia, q. chang, m. jia, l. wang, x. he, acs applied energy materials, 2 (2019) 1756-1764.
[24] 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.
[25] 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.
[26] x.n. feng, x.m. he, m.g. ouyang, l.g. lu, p. wu, c. kulp, s. prasser, appl. energy, 154 (2015) 74-91.
[27] m.g. ouyang, x.n. feng, x.b. han, l.g. lu, z. li, x.m. he, appl. energy, 165 (2016) 48-59.
[28] d. ren, x. liu, x. feng, l. lu, m. ouyang, j. li, x. he, appl. energy, 228 (2018) 633-644.
[29] x.m. he, chem. eng. commun., 195 (2008) 1227-1239.
[30] 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.
[31] n. piao, l. wang, t. anwar, x. feng, s.e. sheng, g. tian, j. wang, y. tang, x. he, corrosion science, 158 (2019) 108100.
[32] k. wang, x.m. he, j.g. ren, c.y. jiang, c.r. wan, electrochem. solid state lett., 9 (2006) a320-a323.
[33] j. cao, l. wang, m. fang, y. shang, l. deng, j. yang, j. li, h. chen, x. he, electrochim. acta, 114 (2013) 527-532.
[34] 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.
[35] 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.
[36] y.q. chen, l. wang, t. anwar, y. zhao, n. piao, x.m. he, q.y. zhu, electrochim. acta, 241 (2017) 132-140.
[37] 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.
[38] 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.
[39] 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.
[40] 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.
[41] x.m. he, w.h. pu, l. wang, j.g. ren, c.y. jiang, c.r. wan, electrochim. acta, 52 (2007) 3651-3653.
[42] x.m. he, j.g. ren, w. li, c.y. jiang, c.r. wan, electrochim. acta, 51 (2006) 4533-4536.
[43] x.m. he, q. shi, x. zhou, c.r. wan, c.y. jiang, electrochim. acta, 51 (2005) 1069-1075.
[44] m. jia, y. jin, p. zhao, c. zhao, m. jia, l. wang, x. he, electrochim. acta, 310 (2019) 230-239.
[45] y.h. jin, l. wang, y.m. shang, j. gao, j.j. li, x.m. he, electrochim. acta, 151 (2015) 109-117.
[46] 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.
[47] w.h. pu, x.m. he, j.g. ren, c.r. wan, c.y. jiang, electrochim. acta, 50 (2005) 4140-4145.
[48] 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.
[49] j.g. ren, x.m. he, w.h. pu, c.y. jiang, c.r. wan, electrochim. acta, 52 (2006) 1538-1541.
[50] j.g. ren, x.m. he, l. wang, w.h. pu, c.y. jiang, c.r. wan, electrochim. acta, 52 (2007) 2447-2452.
[51] h. sun, x.m. he, j.g. ren, j.j. li, c.y. jiang, c.r. wan, electrochim. acta, 52 (2007) 4312-4316.
[52] z. tian, x.m. he, w.h. pu, c.r. wan, c.y. jiang, electrochim. acta, 52 (2006) 688-693.
[53] z. tian, w.h. pu, x.m. he, c.r. wan, c.y. jiang, electrochim. acta, 52 (2007) 3199-3206.
[54] k. wang, x.m. he, j.g. ren, l. wang, c.y. jiang, c.r. wan, electrochim. acta, 52 (2006) 1221-1225.
[55] l. wang, x.m. he, j.j. li, m. chen, j. gao, c.y. jiang, electrochim. acta, 72 (2012) 114-119.
[56] l. wang, n. li, x.m. he, c.r. wan, c.y. jiang, electrochim. acta, 68 (2012) 214-219.
[57] l. wang, j.s. zhao, x.m. he, c.r. wan, electrochim. acta, 56 (2011) 5252-5256.
[58] y.q. wu, l.q. xie, x.m. he, l.h. zhuo, l.m. wang, j. ming, electrochim. acta, 265 (2018) 115-120.
[59] j. yang, y. zhang, p. zhao, y. shang, l. wang, x. he, j. wang, electrochim. acta, 158 (2015) 202-208.
[60] j.p. yang, p. zhao, y.m. shang, l. wang, x.m. he, m. fang, j.l. wang, electrochim. acta, 121 (2014) 264-269.
[61] h.p. zhao, c.y. jiang, x.m. he, j.g. ren, c.r. wan, electrochim. acta, 52 (2007) 7820-7826.
[62] h.p. zhao, j.g. ren, x.m. he, j.j. li, c.y. jiang, c.r. wan, electrochim. acta, 52 (2007) 6006-6011.
[63] j.s. zhao, l. wang, x.m. he, c.r. wan, c.y. jiang, electrochim. acta, 53 (2008) 7048-7053.
[64] x.m. he, w.h. pu, h.w. cheng, c.y. jiang, c.r. wan, energy conv. manag., 47 (2006) 1879-1883.
[65] x. feng, s. zheng, d. ren, x. he, l. wang, x. liu, m. li, m. ouyang, energy procedia, 158 (2019) 4684-4689.
[66] x. feng, m. ouyang, x. liu, l. lu, y. xia, x. he, energy storage materials, 10 (2018) 246-267.
[67] x. feng, s. zheng, x. he, l. wang, y. wang, d. ren, m. ouyang, frontiers in energy research, 6 (2018).
[68] y.l. zhang, l. wang, j.j. li, l. wen, x.m. he, j. alloy. compd., 606 (2014) 226-230.
[69] h.y. liu, j. xu, b.h. guo, x.m. he, j. appl. polym. sci., 131 (2014) 6.
[70] w.h. pu, x.m. he, j.f. lu, c.y. jiang, c.r. wan, j. chem. phys., 123 (2005) 3.
[71] w. li, x.m. he, j.g. ren, c.y. jiang, c.r. wan, j. electroanal. chem., 597 (2006) 127-129.
[72] m. fang, s.p. kelty, x.m. he, j. energy chem., 23 (2014) 282-286.
[73] y.y. li, l. wang, x.m. he, b. tang, y.x. jin, j.l. wang, j. energy chem., 25 (2016) 131-135.
[74] h.y. liu, z.h. dai, j. xu, b.h. guo, x.m. he, j. energy chem., 23 (2014) 582-586.
[75] 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.
[76] x.n. feng, y. pan, x.m. he, l. wang, m.g. ouyang, j energy storage, 18 (2018) 26-39.
[77] 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.
[78] 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.
[79] 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.
[80] 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.
[81] h.y. liu, j. xu, b.h. guo, x.m. he, j. mater. sci., 49 (2014) 6961-6966.
[82] w.h. pu, x.m. he, l. wang, c.y. jiang, c.r. wan, j. membr. sci., 272 (2006) 11-14.
[83] w.h. pu, x.m. he, l. wang, z. tian, c.y. jiang, c.r. wan, j. membr. sci., 280 (2006) 6-9.
[84] h.p. zhao, c.y. jiang, x.m. he, h.g. ren, c.r. wan, j. membr. sci., 310 (2008) 1-6.
[85] 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.
[86] 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.
[87] a.j. bai, l. wang, y. li, x.m. he, j.x. wang, j.l. wang, j. power sources, 289 (2015) 100-104.
[88] 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.
[89] 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.
[90] 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.
[91] 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.
[92] 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.
[93] 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.
[94] x.m. he, j.j. li, h.w. cheng, c.y. jiang, c.r. wan, j. power sources, 152 (2005) 285-290.
[95] x.m. he, j.g. ren, l. wang, w.h. pu, c.y. jiang, c.r. wan, j. power sources, 190 (2009) 154-156.
[96] x.m. he, l. wang, w. li, c.y. jiang, c.r. wan, j. power sources, 158 (2006) 1480-1483.
[97] z.l. huang, j. gao, x.m. he, j.j. li, c.y. jiang, j. power sources, 202 (2012) 284-290.
[98] 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.
[99] 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.
[100] j.g. li, l. wang, q. zhang, x.m. he, j. power sources, 189 (2009) 28-33.
[101] j.g. li, l. wang, q. zhang, x.m. he, j. power sources, 190 (2009) 149-153.
[102] m. ouyang, m. zhang, x. feng, l. lu, j. li, x. he, y. zheng, j. power sources, 294 (2015) 272-283.
[103] 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.
[104] w. tian, l. wang, k. huo, x. he, j. power sources, 430 (2019) 60-66.
[105] j. wang, y.w. wang, x.m. he, j.g. ren, c.y. jiang, c.r. wan, j. power sources, 138 (2004) 271-273.
[106] 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.
[107] 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.
[108] m. wang, j.j. li, x.m. he, h. wu, c.r. wan, j. power sources, 207 (2012) 127-133.
[109] 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.
[110] y.h. ye, y.x. shi, n.s. cai, j. lee, x.m. he, j. power sources, 199 (2012) 227-238.
[111] 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.
[112] h.p. zhao, c.y. jiang, x.m. he, j.g. ren, j. power sources, 184 (2008) 532-537.
[113] s.q. zheng, l. wang, x.n. feng, x.m. he, j. power sources, 378 (2018) 527-536.
[114] 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.
[115] 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.
[116] x. feng, x. he, l. lu, m. ouyang, j. electrochem. soc., 165 (2018) a155-a167.
[117] x. feng, x. he, m. ouyang, l. wang, l. lu, d. ren, s. santhanagopalan, j. electrochem. soc., 165 (2018) a3748-a3765.
[118] 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.
[119] x.m. he, c.y. jiang, w. li, c.r. wan, j. electrochem. soc., 153 (2006) a566-a569.
[120] k. wang, x.m. he, l. wang, j.g. ren, c.y. jiang, c.r. wan, j. electrochem. soc., 153 (2006) a1859-a1862.
[121] l. wang, n. li, x.m. he, c.r. wan, c.y. jiang, j. electrochem. soc., 159 (2012) a915-a919.
[122] 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.
[123] 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.
[124] j.s. zhao, l. wang, x.m. he, c.r. wan, c.y. jiang, j. electrochem. soc., 155 (2008) a292-a296.
[125] 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.
[126] 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.
[127] j. gao, j.j. li, f. song, j.x. lin, x.m. he, c.y. jiang, mater. chem. phys., 152 (2015) 177-182.
[128] x.m. he, j.j. li, y. cai, c.y. jiang, c.r. wan, mater. chem. phys., 95 (2006) 105-108.
[129] 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.
[130] 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.
[131] 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.
[132] x.l. xiao, l. wang, d.s. wang, x.m. he, q. peng, y.d. li, nano res., 2 (2009) 923-930.
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