主要从事二硫化钼、黑磷、石墨烯等先进光电子器件研究,重点研究二维材料环境气体传感器、场效应晶体管、光电探测器等,在Advanced Functional Materials、Nano Research、Applied Catalysis B: EnvironmInternational、Small等重要期刊发表学术论文14篇,申请专利15项,授权11项,其中国际PCT专利2项。主持了中国博士后科学基金第74批面上项目,为国家自然科学基金、北京市科委重大专项和中国科学院先导项目的骨干成员。
联系方式wkc2021@sjtu.edu.cn; wangkunchan@163.com
论文16篇,其中SCI收录13篇
[1] Kunchan Wang1, Qiangqiang Wang1, Enze Tian1, Zehui Li, Can Liu, Kaihui Liu. Two-dimensional material sensors with light excitation[J]. Advanced Functional Materials. 2024. (SCI, IF=18.5, Accepted)
[2] Kunchan Wang1, Zhuoyang He1, Xinyue Li1, et al. Black phosphorus-based junctions and their optoelectronic device applications[J]. Nano Research. 2023, 16, 1651–1669. (SCI, IF=10.2)
[3] Kunchan Wang, Zhenxiang Zhan, Ting Lei, et al. Cu-MoS2/rGO hybrid material for enhanced hydrogen evolution reaction performance[J]. International Journal of Hydrogen Energy, 2020, 16(45): 9773-9782. (SCI, IF=7.1)
[4] Kunchan Wang, Zhenxiang Zhan, Ting Lei, et al. Nitrogen-doped carbon fiber/carbon paper supported Co-MoS2 as an efficient catalyst for hydrogen evolution[J]. Materials Letters, 2020, 281(15): 128579. (SCI, IF=3.6)
[5] Kunchan Wang, Ming Xia, Ting lei. Metallurgically prepared NiCu alloys as cathode materials for hydrogen evolution reaction[J]. Materials Chemistry & Physics, 2017, 186: 61-66. (SCI, IF = 4.8)
[6] Kunchan Wang, Ling Shi, Junying Zhang, et al. Preparation of paraffin @ melamine-formaldehyde resin microcapsules coated with silver nano-particles[C]// International Conference on Materials for Renewable Energy and Environment. IEEE, 2013: 508 - 512.(EI)
[7] Kunchan Wang, Junyan Gao, Ling Shi, Junying Zhang, Jue Cheng. Self-assembly of silica particles onto the surface of quartz fiber[C]// The 4th Asian Conference on Adhesion, September 25-27, 2011, 107-109.
[8] Zehui Li, Kunchan Wang, et al. Atomic-scale modulating of nanomaterials for highly sensitive and selective sensors[C]// The 15h Pacific Rim Conference of Ceramic Societie (PACRIM5). November 5-9, 2023, Shenzhen, China. (Invited)
[9] Chuanping Zhu, Kunchan Wang, Ting lei, et al. Facile synthesis of MoS2/rGO-MOF hybrid material as highly efficient catalyst for hydrogen evolution[J]. Materials Letters, 2018, 216: 243247. (SCI, IF=3.6)
[10] Li Li, Kunchan Wang, Ting Lei. Petal-like NiFe2O4/Fe2O3 heterostructure nanoarrays as bifunctional electrocatalyst for highly efficient alkaline overall water splitting[J].Inorganic Chemistry Communications. 2024, 173, 113801.
[11] Bei Hu, Teng Zhang, Kunchan Wang, et al. Narrow directed black phosphorus nanoribbons produced by a reformative mechanical exfoliation approach[J]. Small. 2023, 3, 07538. (SCI, IF=15.2)
[12] Xiangyu Long, Ping yin, Ting Lei, Kunchan Wang. Methanol Electro-oxidation on Cu@Pt/C core-shell catalyst derived from Cu-MOF[J]. Applied Catalysis B: Environmental, 2020, 260, 118187. (SCI, IF=24.3)
[13] Bei Hu, Qing Qiu, Chao Li, Ming Shen, Bingwen Hu, Wei Tong, Kunchan Wang, et al. Tailoring anionic redox activity in a P2-Type sodium layered oxide cathode via Cu substitution[J]. ACS applied materials & interfaces, 2022, 14(25): 28738-28747. (SCI, IF= 10.4)
[14] Yanming Zhang, Qichao Li, Xiaowo Ye, Long Wang, Zhiyan He, Teng Zhang, Kunchan Wang, et al. High-performance infrared detectors based on black phosphorus/carbon nanotube heterojunctions[J]. Nanomaterials, 2023, 13(19): 2700. (SCI, IF= 5.4)
[15] Fangyuan Shi, Shengguang Gao, Qichao Li, Yanming Zhang, Teng Zhang, Zhiyan He, Kunchan Wang, et al. Black phosphorus field-effect transistors with improved contact via localized Joule heating[J]. Nanomaterials, 2023, 13(18), 2607. (SCI, IF= 5.4
[16] Zhiyan He, Kai Wang, Chao Yan, Lijuan Wan, Qingping Zhou, Teng Zhang, Shenghao Jiang, Jian Zhao, Kunchan Wang. Controlled preparation and device application of sub-5-nm graphene nanoribbons and graphene nanoribbon/carbon nanotube intramolecular heterostructures[J]. ACS Applied Materials & Interfaces, 2023, 15, 7148−7156. (SCI, IF=10.4)
专利14项,其中已授权11项
[1] Changxin Chen, Shenghao Jiang, Kunchan Wang, et al. Liquid-phase exfoliation method for producing black phosphorus nanoribbons or phosphorene nanoribbons. Patent NO.AU2021104425A4. (澳大利亚专利)
[2] Qingping Zhou, Changxin Chen, Kunchan Wang, et al. Graphene nanoribbons/carbon nanotubes heterojunction photoelectric device. Patent NO. AU2021106585A4. (澳大利亚专利)
[3] 陈长鑫,王坤婵,等. 一种基于窄的石墨烯纳米带的场效应晶体管的制备方法[P].授权专利号:ZL202111311073.9,专利授权日:2023-04-11.
[4] 陈长鑫,王坤婵,等. 一种基于液相剥离及阶联离心方法制备的一维黑磷纳米带或磷烯纳米带的场效应晶体管[P].申请专利号:202411198419.2,申请日:2024-08-29.
[5] 李泽晖,王坤婵,等. 一种缺陷调控的二维材料异质结器件及其制备方法和应用[P]. 授权专利号:ZL202311818080.7,专利授权日:2024-11-26.
[6] 李泽晖,钟嘉浩,王坤婵,等. 一种基于昆虫嗅觉分辨机制的仿生气体识别系统[P].计算机软件著作权登记号:2024SR1251791,登记日期:2024-8-27.
[7] 周庆萍,陈长鑫,王坤婵. 一种制备碳纳米管/石墨烯纳米带异质结光电器件的方法[P].授权专利号: ZL202110965956.5,专利授权日:2024-02-02.
[8] 陈长鑫,胡蓓,王坤婵,等. 一种机械剥离制备磷烯纳米带的方法[P].申请专利号:2024111182609,申请日,2024-8-15.
[9] 雷霆,吕依芮,王坤婵. 含金属氧化物的抗菌羟基磷灰石复合材料及其制备方法[P].授权专利号:ZL201811-327501.5,专利授权日:2020-8-4.
[10] 雷霆,詹振翔,王坤婵. 一种UV固化透明导电涂料及其制备方法[P]. 公开号:CN110172293A,公告日:2019-08-27.
[11] 史翎,高俊彦,王坤婵,等. 一种石英纤维表面改性方法[P]. 专利号:ZL201110122113.5. 授权日:2013-6-5.
[12] 宋延林,沙栩正,杨明,刘云霞,吴为,王坤婵. 一种热敏无砂目印版及其制备方法与应用[P].授权专利号:ZL201310538062.3,专利授权日:2019-1-18.
[13] 宋延林,杨明,沙栩正,刘云霞,吴为,王坤婵. 一种光敏无砂目印版及其制备方法与应用[P].授权专利号:ZL201310537517.X,专利授权日:2018-11-27.
[14] 杨明,宋延林,刘云霞,李美丽,王坤婵. 一种水性油墨用版材及其制备方法[P]. 授权专利号:ZL201510005006.2,授权日:2018-6-15.
主持/参与的基金
[1] 中国博士后科学基金第74批面上资助《黑水虻处理餐厨垃圾过程中有机氨的产生机制及仿生嗅觉传感研究》,NO. 2023M742249,2024.01-2026.1,8万,在研,负责;
[2] 浙江福莱新材料股份有限公司-黑磷基和碳基纳米材料的制备及其电子器件基础研究,26万,2021-01至2023-01,已结题,负责;
[3] 北京市科委重大专项, 光电传感芯片用晶圆级二维材料研发及产业化, 476万,2023.7~ 2025.9,在研,技术骨干;
[4] 国家重点研发计划青年科学家项目,面上项目,烟气碳污协同高精度多组分立体在线监测技术及应用,2024YFC3714000,300万元,2024-12至2027-11,参与;
[5] 国家自然科学基金委员会,面上项目,二维异质结传感材料的拓扑缺陷调控及其对痕量VOCs选择性响应研究,5247100056,48万元,2025-01至2028-12,第二参与人;
[6] 国家自然科学基金委员会,面上项目,基于石墨烯串联的碳纳米管/石墨烯纳米带垂直异质结的多结光伏电池,62074098,59万元,2020-01至2023-12,已结题,技术骨干。
[7] 国家自然科学基金委员会,面上项目,新型SPE阴极膜电极的设计、制备及电解制氢研究,21673297,65万,2017-01至2020-12,已结题,技术骨干;
[8] 国家自然科学基金委员会,面上项目,基于无机壁材微胶囊相变材料的自组装制备及其机理研究,51173010,60万,2012-01至2015-12,已结题,参与;
[9] 中国科学院战略性先导科技专项(A类)“变革性纳米产业制造技术聚焦”,6000万,2013-07至2018-12,已结题(建成世界上首条600万平米/年的无阳极氧化处理绿色版基示范线),技术 骨干。
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