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1993.09-1997.07：哈爾濱工業(yè)大學(xué)，電化學(xué)工程，學(xué)士

1997.09-1999.07：哈爾濱工業(yè)大學(xué)，應(yīng)用化學(xué)，碩士

1999.09-2002.09：中國科學(xué)院上海微系統(tǒng)與信息技術(shù)研究所，材料物理與化學(xué)，博士

2002.10-2005.02：清華大學(xué)，核能與新能源技術(shù)研究院，博士后；

2003.08-2004.08：加拿大皇后大學(xué)，化工系，博士后

2005.03-2021.12：上海交通大學(xué)，化學(xué)化工學(xué)院化工系，副教授、研究員

2006.01-2007.06：德國開姆尼茨工業(yè)大學(xué)，化學(xué)學(xué)院，博士后，亞歷山大.馮.洪堡學(xué)者

2013.02-2013.08：美國西太平洋國家實(shí)驗(yàn)室，高級訪問學(xué)者

自1999年以來長期研究鋰硫電池，創(chuàng)制高導(dǎo)電硫@導(dǎo)電聚合物SPAN或S@pPAN）正極材料，開創(chuàng)硫正極固固轉(zhuǎn)化反應(yīng)新機(jī)制，穩(wěn)定循環(huán)上萬次；并開發(fā)與S@pPAN匹配的本征安全電解質(zhì)、水性粘接劑和高可逆金屬負(fù)極，構(gòu)建本征安全鋰硫電池；研究有機(jī)電解質(zhì)中金屬鋅負(fù)極電化學(xué)行為以及長壽命鋅離子電池。

4.1 金屬基二次電池及其關(guān)鍵材料

4.2 鋰硫電池

4.3 鋅離子電池

4.4 其它相關(guān)表面處理及電化學(xué)器件

主持國家重點(diǎn)研發(fā)計(jì)劃、國家自然科學(xué)基金重點(diǎn)（海峽聯(lián)合）、上海市重點(diǎn)基金等項(xiàng)目。

1.國家重點(diǎn)研發(fā)計(jì)劃“儲能與智能電網(wǎng)”專項(xiàng)，本征安全金屬硫基儲能電池的研制，項(xiàng)目編號：2021YFB2400300，資助金額：2362.30萬元，起止年月：2021年12月至2025年11月；

2.國家自然科學(xué)基金重點(diǎn)項(xiàng)目（海峽聯(lián)合），半固態(tài)鋰硫二次電池關(guān)鍵材料及器件的研制，項(xiàng)目編號：U1705255，資助金額：204萬元，起止年月：2018年01月至2021年12月；

3.上海市重點(diǎn)基金，納米硫基復(fù)合材料及固體鋰硫二次電池的研制，項(xiàng)目編號：14JC149180，資助金額：50萬元，起止年月：2014年09月至2017年08月。

[1]  Huanhuan Yuan, Cheng Guo, Jiahang Chen, Huichao Lu, Jun Yang, Yanna Nuli, Jiulin Wang*. A crosslinking hydrogel binder for high-sulfur content S@pPAN cathode in rechargeable lithium batteries. Journal of Energy Chemistry, 2021, 60, 360-367.

[2]  王久林. 鋰硫二次電池之我見. 儲能科學(xué)與技術(shù), 2020, 9, 1-4.

[3]  Huijun Yang, Jiahang Chen, Jun Yang, Jiulin Wang*. Prospect of S@pPAN cathode materials for rechargeable lithium batteries. Angewandte Chemie International Edition, 2020, 59, 7306 -7318.

[4]  Jiahang Chen, Ahmad Naveed, Yanna Nuli, Jun Yang, Jiulin Wang*. Designing an intrinsically safe organic electrolyte for rechargeable batteries. Energy Storage Materials, 2020, 31, 382-400.

[5]  Huijun Yang, Jiahang Chen, Jun Yang, Yanna Nuli, Jiulin Wang*. Dense and high loading sulfurized pyrolyzed poly(acrylonitrile)(S@pPAN) cathode for rechargeable lithium batteries. Energy Storage Materials, 2020, 31, 187-194.

[6]  Jingyu Lei, Jiahang Chen, Huiming Zhang, Ahmad Naveed, Jun Yang, Yanna Nuli, Jiulin Wang*. High Molecular Weight Polyacrylonitrile Precursor for S@pPAN Composite Cathode Materials with High Specific Capacity for Rechargeable Lithium Batteries. ACS Applied Materials & Interfaces, 2020, 12, 33702-33709.

[7]  Jiahang Chen, Huiming Zhang, Huijun Yang, Jingyu Lei, Ahmad Naveed, Jun Yang, Yanna Nuli, Jiulin Wang*. Towards practical Li-S battery with dense and flexible electrode containing lean electrolyte. Energy Storage Materials, 2020, 27, 307-315.

[8]  Huichao Lu, Tao Zhang, Yixi Kuai, Jun Yang?, Jiulin Wang*, Yanna Nuli, Yongsheng Guo, Chengdu Liang. A superb 3D composite lithium metal anode prepared by in-situ lithiation of sulfurized polyacrylonitrile. Energy Storage Materials, 2020, 33, 452-459.

[9]  Ahmad Naveed, Huijun Yang, Yuyan Shao, Jun Yang, Yanna Nuli, Jun Liu, Siqi Shi, Liwen Zhang, Anjiang He, Bing He, Jiulin Wang*. A Highly Reversible Zn Anode with Intrinsically Safe Organic Electrolyte for Long‐Cycle‐Life Batteries. Advanced Materials, 2019, 31, 1900668.

[10] Zhixin Xu, Jun Yang*, Tao Zhang, L Sun, Yana Nuli, Jiulin Wang*, Shin-ichi Hirano. Stable Na Metal Anode Enabled by a Reinforced Multistructural SEI Layer. Advanced Functional Materials, 2019, 29, 1901924.

[11] Zhixin Xu, Jun Yang*, JiQian, Tao Zhang, Yanna Nuli, Renjie Chen, Jiulin Wang*. Bicomponent electrolyte additive excelling fluoroethylene carbonate for high performance Si-based anodes and lithiated Si-S batteries. Energy Storage Materials, 2019, 20, 388-394.

[12] Jiahang Chen, Huijun Yang, Xuan Zhang, Jingyu Lei, Huiming Zhang, Huanhuan Yuan, JunYang, Yanan Nuli, Jiulin Wang*. Highly Reversible Lithium-Metal Anode and Lithium–Sulfur Batteries Enabled by an Intrinsic Safe Electrolyte. ACS Applied Materials & Interfaces, 2019, 11, 33419-33427.

[13] Huijun Yang, Cheng Guo, Jiahang Chen, Ahmad Naveed, Jun Yang, Yanna Nuli, Jiulin Wang*. An Intrinsic Flame-Retardant Organic Electrolyte for Safe Lithium-Sulfur Batteries. Angewandte Chemie International Edition, 2019, 58, 791-795.

[14] Ahmad Naveed, Huijun Yang, Jun Yang, Yanna Nuli, Jiulin Wang*. Highly Reversible and Safe Zn Rechargeable Batteries Based on Triethyl Phosphate Electrolyte. Angewandte Chemie International Edition, 2019, 58, 2760-2764.

[15] Zhixin Xu, Jun Yang*. TaoZhang, Yanna Nuli, Jiulin Wang*, Shin-ichi Hirano. Silicon Microparticle Anodes with Self-Healing Multiple Network Binder, Joule, 2018, 2, 950-961.

[16] Cheng Guo, Huijun Yang, Ahmad Naveed, Yanna Nuli, Jun Yang, Yuliang Cao, Hanxi Yang, Jiulin Wang*. AlF3-Modifiedcarbon nanofibers as a multifunctional 3D interlayer for stable lithium metal anodes. Chemical Communications, 2018, 54, 8347- 8350.

[17] Huijun Yang, Cheng Guo,Ahmad Naveed, Jingyu Lei, Jun Yang, Yanna Nuli, Jiulin Wang*. Recent progress and perspective on lithium metal anode protection, Energy Storage Materials, 2018, 14, 199-221.

[18] Qingyu Li, Huijun Yang,Ahmad Naveed, Cheng Guo, Jun Yang, Yanna Nuli, Jiulin Wang*. Duplex component additive oftris(trimethylsilyl) phosphite-vinylene carbonate for lithium sulfur batteries, Energy Storage Materials, 2018, 14, 75-81.

[19] Huijun Yang, Ahmad Naveed, Qingyu Li, Cheng Guo, Jiahang Chen, Jingyu Lei, Jun Yang, Yanna Nuli, Jiulin Wang*. Lithium sulfur batteries with compatible electrolyte both for stable cathode and dendrite-free anode, Energy Storage Materials, 2018, 15, 299-307.

[20] Huijun Yang, Qinyu Li, Cheng Guo, Ahmad Naveed, Jun Yang, Yanna Nuli, Jiulin Wang*, Safer lithium–sulfur battery based on nonflammable electrolyte with sulfur composite cathode, Chemical Communications, 2018, 54, 4132-4135.

[21] Tao Zhang, Min Hong, Jun Yang*, Zhixin Xu, JiulinWang*, Yongsheng Guo, Chengdu Liang. A high performance lithium-ion–sulfur battery with a free-standing carbon matrix supported Li-rich alloy anode, Chemical Sciences, 2018, 9, 8829-8835.

[22] Jingjing Zhou, Jun Yang,* Zhixin Xu, Tao Zhang, Zhenying Chen, Jiulin Wang*, A high performance lithium–selenium battery using a microporous carbon confined selenium cathode and a compatible electrolyte, Journal of Materials Chemistry A, 2017, 5, 9350-9357.

[24] Lina Wang, Qinyu Li, Huijun Yang, Jun Yang, Yanna Nuli, Jiulin Wang*. Superior rate capability of a sulfur composite cathode in a tris(trimethylsilyl)borate-containing functional electrolyte. Chemical Communications, 2016, 52, 14430-14433.

[26] Jiulin Wang*, Yu-Shi He and Jun Yang*. Sulphur-based composite cathode materials for high-energy rechargeable lithium batteries. Advanced Materials, 2015, 27, 569-575.

[28] Wu Xu, Jiulin Wang, Xilin Chen, Eduard Nasybulin, Yaohui Zhang, Fei Ding, Ji-Guang Zhang. Lithium Metal Anode for Rechargeable Batteries. Energy & Environmental Science, 2014, 7, 513-537.

[30] Jiulin Wang*, Zhendong Yao, Charles W.Monroe, Jun Yang, Yanna NuLi. Carbonyl-β-cyclodextrin as a novel binder for sulfur composite cathode in rechargeable lithium batteries. Advanced Functional Materials, 2013, 23, 1194-1201.

[32] Yanqiang Wang, Jiulin Wang, Jun Yang, Yanna Nuli. High-Rate LiFePO4 Electrodematerial synthesized by a novel route from FePO4.4H2O. Advanced Functional Materials, 2006, 16, 2135-2140.

[34] Jiulin Wang*, Lu Liu, Zhijun Ling, Jun Yang, Chunrong Wan, Changyin Jiang. Polymer lithium cells with sulfur composites as cathode materials. Electrochimica Acta, 2003, 48, 1861-1867.

[36] Jiulin Wang*, Jun Yang, Jingying Xie, Naxini Xu, Y. Li. Sulfur-carbon nano-composite as cathode for rechargeable lithium battery based on gel electrolyte. Electrochemistry Communications, 2002, 4, 499-502.

6.1 上海市優(yōu)秀學(xué)術(shù)帶頭人（2020年）

6.2 上海市自然科學(xué)一等獎（第一完成人，2016年）

6.3 中國化工學(xué)會“侯德榜”化工科技青年獎（2015年）

6.4 中國石化聯(lián)合會科學(xué)技術(shù)二等獎（第二完成人，2014年）

6.5 教育部“新世紀(jì)優(yōu)秀人才”（2013年）

6.6 上海市青年科技“啟明星”（2007年）

6.7 德國洪堡學(xué)者（2006年）

7.1 本科生：《化工過程控制》、專業(yè)導(dǎo)論（生環(huán)平臺）

7.2 研究生：《電化學(xué)工程》、《化學(xué)前沿專題：新能源化學(xué)》、《催化及能源材料表征》、《專業(yè)英語》