王建淦

教育經歷 Education Experience

2010-2013 ；清華大學；博士；材料科學與工程；

2006-2009 ；北京航空航天大學；碩士；材料科學與工程；

2002-2006 ；山東大學；學士；材料科學與工程；

社會兼職 Social Appointments

《Rare Metals》期刊編委；

《Materials science advanced composite mateirals》期刊編委；

《Frontier in chemistry》(IF: 3 782)首席客座編輯；

《Nanomaterials 》(IF: 4 034)期刊客座編輯；

《Materials》(IF: 3 872) 期刊客座編輯；

功能材料學會理事；

Adv Mater ，ACS Nano，Adv Energy Mater ，Adv Funct Mater , Nano Energy, J Mater Chem A, 等20餘個國際著名期刊審稿人。

本科課程：【1】固體物理； 【2】電化學原理與套用；【3】先進電池材料

研究生課程：【1】Fundamentals、applications and measurement methods of electrochemistry ；【2】Nanostructured Materials and Nanotechnology；【3】電催化

2019，優秀碩士論文指導老師

2018，周堯和耀華獎教金 2018，陝西省青年科技新星

2017，香江學者 2017，翱翔新星

2016，華秦獎教金二等獎 2016，優秀本科畢設指導老師

2015，優秀青年教師特等獎 2015，華秦獎教金特等獎

課題組隸屬陝西省石墨烯聯合實驗室——納米能源材料研究中心，在研方向包括：

（1）先進電化學能源材料的設計與製備：納米碳材料，無機 有機及其雜化材料；

（2）能量存儲器件：鋰 鈉離子電池、鋰硫電池、鋅離子電池、超級電容器、其它新型儲能器件；

（3）高效能量轉換：納米催化（電催化、光電催化）、太陽能電池

（4）能量存儲-轉換一體化集成設計

科研平台：陝西省石墨烯聯合實驗室，擁有掃描電鏡（SEM）、原位X射線衍射（XRD）、拉曼-原子力顯微鏡聯用（Raman-AFM）、紅外光譜（FTIR）、同步熱分析（TG-DSC）、比表面積分析儀、螢光光譜（PL）、多通道電化學工作站、電池測試系統、太陽能測試系統等一系列材料製備與表征設備。

主持國家自然科學基金2項、“香江學者”計畫項目、陝西省創新人才推進計畫項目、陝西省自然科學基金面上項目2項、國家重點實驗室重點項目與探索項目3項、“翱翔新星”計畫1項、中央高校基礎業務科研項目 1項、橫向課題1項；同時參與國家自然科學基金面上 重點項目、陝西省科技創新團隊等多個項目。

迄今在Progress in Materials Science, ACS Nano, Nano Energy, Journal of Material ChemistryA, Small, ACS Applied Materials & Interfaces, Carbon，Journal of Power Sources，Electrochimica Acta，Chemical Engineering Journal等多個國際高水平刊物上發表論文77篇，它引次數超過3300，ESI高被引論文11篇，熱點論文一篇，H因子31；受邀撰寫英文專著1章節。

近期論文列表

[39] M Lei, J -G Wang*, L Ren, D Nan, C Shen, K Xie, X -R Liu, Highly Lithiophilic Cobalt Nitride Nanobrush as a Stable Host for High-Performance Lithium Metal Anodes, ACS Appl Mater Interfaces, 11 (2019) 30992-30998

[38] J Wang, J -G Wang*, H Liu, Z You, C Wei, F Kang, Electrochemical activation of commercial MnO microsized particles for high-performance aqueous zinc-ion batteries, J Power Sources, 438 (2019) 226951

[37] L Ren, J -G Wang*, H Liu, M Shao*, B Wei*, Metal-organic-framework-derived hollow polyhedrons of prussian blue analogues for high power grid-scale energy storage, ELectrochim Acta, 321 (2019) 134671

[36] Y Li, J -G Wang*, W Hua, H Liu, B Wei*, Heterostructured Sn SnO2-x nanotube peapods with a strong plasmonic effect for photoelectrochemical water oxidation, J Mater Chem A 7 (2019) 16883-16891

[35] J Wang, J -G Wang*, H Liu, C Wei, F Kang, Zinc ion stabilized MnO2 nanospheres for high capacity and long lifespan aqueous zinc-ion batteries, J Mater Chem A 7 (2019) 13727–13735

[34] Y Li, J -G Wang *, Y Fan, H Sun, W Hua, H Liu, B Wei* Plasmonic TiN boosting nitrogen-doped TiO2 for ultrahigh efficient photoelectrochemical oxygen evolution Applied Catalysis B: Environmental, 246 (2019) 21-29

[33] J -G Wang*, H Liu, R Zhou, X Liu, B Wei* Onion-like nanospheres organized by carbon encapsulated few-layer MoS2 nanosheets with enhanced lithium storage performance J Power Sources, 413 (2019) 327–333 (ESI 高被引論文)

[32] H Sun, Y Zhang, H Liu, X Zhang, J -G Wang * Constructing Hierarchical MoO2 N-Doped Carbon Hydrangea-Like Spheres with Superior Lithium Storage Properties J Alloys Compd , 787 (2019) 45-52

[31] H Sun, J -G Wang*, X Zhang, C Li, F Liu, W Zhu, W Hua, Y Li, M Shao* Nanoconfined Construction of MoS2@C MoS2 Core–Sheath Nanowires for Superior Rate and Durable Li-Ion Energy Storage ACS Sustainable Chem Eng , 7 (2019) 5346–5354

[30] X Zhang, J -G Wang*, W Hua, H Liu, B Wei Hierarchical nanocomposite of hollow carbon spheres encapsulating nano-MoO2 for high-rate and durable Li-ion storage J Alloys Compd , 787 (2019) 301-308

[29] J -G Wang *, H Liu, X Zhang, M Shao*, B Wei*, Elaborate construction of N S-co-doped carbon nanobowls for ultrahigh power supercapacitors, J Mater Chem A 6 (2018) 17653 - 17661

[28] J -G Wang *, H Liu, H Sun, W Hua, H Wang, X Liu, B Wei*, One-pot synthesis of nitrogen-doped ordered mesoporous carbon spheres for high-rate and long-cycle life supercapacitors, Carbon 127 (2018) 85-92 (ESI 高被引論文)

[27] H Sun, J -G Wang *, Y Zhang*, W Hua, Y Li, H Liu, Ultrafast lithium energy storage enabled by interfacial construction of interlayer-expanded MoS2 N-doped carbon nanowires, J Mater Chem A 6 (2018) 13419-13427

[26] J -G Wang *, H Liu, X Zhang, X Li, X Liu, F Kang, Green synthesis of hierarchically porous carbon nanotubes as advanced materials for high-efficient energy storage, Small 14 (2018) 1703950

[25] J -G Wang *, H Liu, H Liu, W Hua, M Shao*, Interfacial Constructing Flexible V2O5@Polypyrrole Core–Shell Nanowire Membrane with Superior Supercapacitive Performance, ACS Appl Mater Interfaces 10 (2018) 18816–18823 (ESI 高被引論文)

[24] J -G Wang *, H Sun, H Liu, D Jin, X -R Liu, X Li, F Kang, Triaxial Nanocables of Conducting Polypyrrole@SnS2@Carbon Enabling Significantly Enhanced Li-Ion Storage, ACS Appl Mater Interfaces 10 (2018) 13581？13587

[23] Y -Y Li, J -G Wang *, H Sun, B Wei*, Heterostructured TiO2 NiTiO3 Nanorod Arrays for Inorganic Sensitized Solar Cells with Significantly Enhanced Photovoltaic Performance and Stability, ACS Appl Mater Interfaces 10 (2018) 11580–11586

[22] H Liu, J -G Wang *, W Hua, J Wang, D Nan, C Wei, Scale-up production of high-tap-density carbon MnOx carbon nanotube microcomposites for Li-ion batteries with ultrahigh volumetric capacity, Chemical Engineering Journal 354 (2018) 220-227

[21] J -G Wang *, H Sun, R Zhao, X Zhang, H Liu, C Wei, Three-dimensional microflowers assembled by carbon-encapsulated-SnS nanosheets for superior Li-ion storage performance, J Alloys Compd 767 (2018) 361-367

[20] Y Li, J -G Wang *, H Sun, W Hua, X Li, Heterostructured SnS2 SnO2 Nanotubes with Enhanced Charge Separation and Excellent Photocatalytic Hydrogen Production, International Journal of Hydrogen Energy 43 (2018) 14121-14129

[19] J -G Wang, Z Zhang, X Zhang, X Li, X Liu, F Kang, B Wei* Cation exchange formation of prussian blue analogue submicroboxes for high-performance Na-ion hybrid supercapacitors Nano Energy, 39 (2017) 647-653

[18] J -G Wang*, H Liu, H Liu, Z Fu, D Nan, Facile synthesis of microsized MnO C compoistes with high tap density as high performance anodes for Li-ion batteries, Chem Eng J , 328 (2017) 591–598 (ESI 高被引論文，熱點論文)

[17] Y -Y Li, J -G Wang *, X -R Liu, C Shen, K Xie, B Wei*, Au TiO2 Hollow Spheres with Synergistic Effect of Plasmonic Enhancement and Light Scattering for Improved Dye-Sensitized Solar Cells, ACS Appl Mater Interfaces 9 (2017) 31691–31698

[16] J -G Wang *, H Liu, H Liu, X Li, D Nan*, F Kang, Electrospun LiMn1 5Ni0 5O4 hollow nanofibers as advanced cathodes for high rate and long cycle life Li-ion batteries, J Alloys Compd 729 (2017) 354-359

[15] J -G Wang *, Z Zhang, X Liu, B Wei*, Facile synthesis of cobalt hexacyanoferrate graphene nanocomposites for high-performance supercapacitor, Electrochim Acta 235 (2017) 114-121

[14] J -G Wang *, R Zhou, D Jin, K Xie, B Wei*, Uniform growth of MoS2 nanosheets on carbon nanofibers with enhanced electrochemical utilization for Li-ion batteries, Electrochim Acta 231 (2017) 396-402

[13] J -G Wang, D Jin, R Zhou, X Li, X Liu, C Shen, K Xie, B Li, F Kang, B Wei*, Highly Flexible Graphene Mn3O4 Nanocomposite Membrane as Advanced Anodes for Li-Ion Batteries ACS Nano 10 (2016) 6227–6234 (ESI 高被引論文)

[12] J -G Wang, D Jin, H Liu, C Zhang, R Zhou, C Shen, K Xie, B Wei*, All-manganese-based Li-ion batteries with high rate capability and ultralong cycle life, Nano Energy 22 (2016) 524-532

[11] J -G Wang, R Zhou, D Jin, K Xie, B Wei*, Controlled synthesis of NiCo2S4 nanostructures on nickel foams for high-performance supercapacitors, Energy Storage Materials 2 (2016) 1-7

[10] J -G Wang,D Jin, R Zhou, C Shen, K Xie, B Wei* One-step synthesis of NiCo2S4 ultrathin nanosheets on conductive substrates as advanced electrodes for high-efficient energy storage J Power Sources, 306 (2016) 100–106 (ESI 高被引論文)

[9] J -G Wang, F Kang, B Wei*, Engineerging of MnO2-based nanocomposites for high performance supercapacitors, Progress in Materials Science 74 (2015) 51-124 (ESI 高被引論文)

[8] J -G Wang, K Xie, B Wei*, Advanced Engineering of Nanotructured Carbons for Lithium-Sulfur Batteries, Nano Energy 15 (2015) 413-444 (ESI 高被引論文)

[7] J -G Wang, C Zhang, D Jin, K Xie, B Wei*, Synthesis of ultralong MnO C coaxial nanowires as freestanding anodes for high-performance lithium ion batteries, J Mater Chem A 3 (2015) 13699 - 13705

[6] J -G Wang*, C Zhang, F Kang, Nitrogen-Enriched Porous Carbon Coating for Manganese Oxide Nanostructures towards High-Performance Lithium-Ion Batteries, ACS Appl Mater Interfaces, 7 (2015) 9185–9194

[5] C Zhang, J -G Wang *, D Jin, K Xie, B Wei*, Facile fabrication of MnO C core-shell nanowires as an advanced anode material for lithium-ion batteries, Electrochimica Acta 180 (2015) 990-997

[4] J -G Wang *, Y Yang, F Kang*, Porous carbon nanofiber paper as an effective interlayer for high-performance lithium-sulfur batteries, Electrochim Acta 168 (2015) 271–276

[3] J -G Wang *, Y Yang, Z -H Huang, F Kang, MnO-carbon hybrid nanofiber composites as superior anode materials for lithium-ion batteries, Electrochim Acta 170 (2015) 164-170

[2] J -G Wang *, Y Yang, Z -H Huang, F Kang*, MnO2 Polypyrrole Nanotubular Composites: Reactive Template Synthesis, Characterization and Application as Superior Eectrode Materials for High-Performance Supercapacitors, Electrochim Acta 130 (2014) 642-649

[1] J -G Wang, Y Yang, Z -H Huang, F Kang*, A high-performance asymmetric supercapacitor based on carbon and carbon–MnO2 nanofiber electrodes, Carbon, 61 (2013) 190-199 (ESI 高被引論文)