巩玉同
时间:2024-04-06 01:38 来源: 作者: 点击:次
个人经历 Personal experience 工作经历 教育经历 2019年08月--至今: 西北工业大学 材料学院 副教授 (博导)2017年08月--2019年08月:浙江大学 化学系 助理研究员2016年01月--2017年07月:东京工业大学 元素战略研究中心 博士后研究员 合作导师:Hideo Hosono 2012年03月--2015年12月: 浙江大学 化学系 博士 导师:王勇2010年09月--2012年03月: 浙江大学 化学系 硕士 导师:李浩然2006年09月--2010年07月: 曲阜师范大学 化学与化工学院 学士 教育教学教育教学 Education and teaching 教育教学 招生信息 1. 担任玛丽女王工程学院2019级本科生辅导员2. 承担本科生《仪器分析》课程 欢迎有志于研究多相催化、能源材料和材料基因工程技术的本科生(大创、毕设)、硕士生、博士生加入团队! 荣誉获奖科学研究 Scientific Research 一、研究方向1.碳基多相催化剂的设计合成及其在催化氧化、加氢、生物质转化等反应中的应用研究2.能源转化材料的设计合成及应用研究3.电子材料及金属间化合物的合成与催化应用研究4.催化剂材料的理论设计及第一性原理计算研究二、承担课题情况1.国家自然科学基金-面上基金项目 2023.01-2026.12 主持2.国家自然科学基金-青年基金项目 2019.01-2021.12 主持 3.科技部中日联合基金项目子课题 2022.09-2025.08 主持 4.中国博士后基金会第69届面上项目 2021.06-2023.06 主持5.中国博士后基金会第64届面上项目 2019.01-2019.06 主持 6.西北工业大学新进教师科研启动经费 2019.01-2020.12 主持7.西北工业大学思政课题一项 2021.06-2023.06 主持 科学研究学术成果 Academic Achievements 一、代表性论文: [59]. Gong Yutong, Xie Lei, Chen Chunhong, Liu Jinrong, Antonietti Markus, Wang Yong, Bottom-up hydrothermal carbonization for the precise engineering of carbon materials. Progress in Materials Science, 2023, 132, 101048. 【PDF】 [58]. Yang Yumin,Feng Shuang,Su Jianan,Gong Yutong*,Wang Junjie*, Mo-Doped Metal–Organic Frameworks for Efficient Nitrogen Reduction Reaction: A Density Functional Theory Study. ACS Sustainable Chemistry & Engineering, 2022, 10, 42, 14064-14072. 【PDF】 [57]. Gong Yutong, Li Hongchen, Li Can, Bao Xiaobing, Hosono Hideo, Wang Junjie, Insight into rare-earth-incorporated catalysts: The chance for a more efficient ammonia synthesis. Journal of Advanced Ceramics, 2022, 11, 1499-1529. 【PDF】[56]. Gong Yutong,Li Hongchen,Wu Jiazhen,Song Xingyi,Yang Xueqing,Bao Xiaobing,Han Xiao,Kitano Masaaki,Wang Junjie,Hosono Hideo, Unique catalytic mechanism for Ru-loaded ternary intermetallic electrides for ammonia synthesis. Journal of the American Chemical Society, 2022, 144, 8683–8692. 【PDF】[55]. Gong Yutong#,Li Hongchen#,Li Can,Yang Xueqing,Wang Junjie,Hosono Hideo, LaRuSi electride disrupts the scaling relations for ammonia synthesis. Chemistry of Materials, 2022, 34, 1677-1685. 【PDF】[54]. Bao Xiaobing,Chen Yuzhuo,Mao Shanjun,Wang Yong,Yang Yong,Gong Yutong*, Boosting the performance gain of Ru/C for hydrogen evolution reaction via surface engineering. Energy & Environmental Materials, 2022, doi.org/10.1002/eem1002.12418. 【PDF】[53]. Zhao Shijing,Xu Shishuai,Yao Jinlei,Chen Ning,Gong Yutong,Zhang Xipeng,Hao Xianfeng,Zhang Lijuan,Pei Cuiying,Tian Ruifeng,Wu Lailei,Wan Biao,Peng Wenfeng,Gao Bo,Qi Yanpeng,Gao Faming,Ahuja Rajeev,Yao Yansun,Gou Huiyang, Elucidating the reaction pathway of crystalline multi-metal borides for highly efficient oxygen-evolving electrocatalysts. Journal of Materials Chemistry A, 2022, 10, 1569-1578. 【PDF】[52]. Bao Xiaobing,Li Sijia,Hao Chentao,Qin Yifan,Gong Yutong,Yang Yong,Xu Aoni,Luo Mingchuan, Iridium nanohollows with porous walls for acidic water splitting. Journal of Materials Chemistry A, 2022, 10, 20005-20010. 【PDF】[51]. Peng Wenfeng,Deshmukh Amol,Chen Ning,Lv Zhengxing,Zhao Shijing,Li Jiong,Yan Bingmin,Gao Xiang,Shang Lu,Gong Yutong,Wu Lailei,Chen Mingyang,Zhang Tierui,Gou Huiyang, Deciphering the dynamic structure evolution of Fe- and Ni-codoped CoS2 for enhanced water oxidation. ACS Catalysis, 2022, 12, 3743-3751. 【PDF】[50]. Yao Yufang,Miao Nanxi,Gong Yutong,Wang Junjie, Theoretical exploration of quaternary hexagonal MAB phases and two-dimensional derivatives. Nanoscale, 2021, 13, 13208-13214. 【PDF】[49]. Li Kun,Wang Junjie,Blatov Vladislav A.,Gong Yutong,Umezawa Naoto,Tada Tomofumi,Hosono Hideo,Oganov Artem R., Crystal and electronic structure engineering of tin monoxide by external pressure. Journal of Advanced Ceramics, 2021, 10, 565-577. 【PDF】[48]. Li Kun,Gong Yutong,Wang Junjie,Hosono Hideo, Electron-deficient-type electride Ca5Pb3 extension of electride chemical space. Journal of the American Chemical Society, 2021, 143, 8821-8828. 【PDF】[47]. Ye Tian-Nan,Xiao Zewen,Li Jiang,Gong Yutong,Abe Hitoshi,Niwa Yasuhiro,Sasase Masato,Kitano Masaaki,Hosono Hideo, Stable single platinum atoms trapped in sub-nanometer cavities in 12CaO·7Al2O3 for chemoselective hydrogenation of nitroarenes. Nature communications, 2020, 11,1020. 【PDF】[46]. Xu Shishuai,Wang Mingzhi,Saranya Govindarajan,Chen Ning,Zhang Lili,He Yan,Wu Lailei,Gong Yutong*,Yao Zhiqiang,Wang Gongkai,Wang Zhibin,Zhao Shijing,Tang Hu,Chen Mingyang,Gou Huiyang*, Pressure-driven catalyst synthesis of Co-doped Fe3C@Carbon nano-onions for efficient oxygen evolution reaction. Applied Catalysis B-environmental, 2020, 268, 118385. 【PDF】[45]. Xu Shishuai,Gao Xiang,Deshmukh Amol,Zhou Junshuang,Chen Ning,Peng Wenfeng,Gong Yutong,Yao Zhiqiang,Finkelstein Kenneth D.,Wan Biao,Gao Faming,Wang Mingzhi,Chen Mingyang,Gou Huiyang, Pressure-promoted irregular CoMoP2 nanoparticles activated by surface reconstruction for oxygen evolution reaction electrocatalysts. Journal of Materials Chemistry A, 2020, 8, 2001-2007. 【PDF】[44]. Wang Chunpeng,Mao Shanjun,Wang Zhe,Chen Yuzhuo,Yuan Wentao,Ou Yang,Zhang Hao,Gong Yutong,Wang Yong,Mei Bingbao,Jiang Zheng,Wang Yong, Insight into single-atom-induced unconventional size dependence over CeO2-supported Pt catalysts. Chem, 2020, 6, 752-765. 【PDF】[43]. Peng Wenfeng,Li Junkai,Shen Kangqi,Zheng Lirong,Tang Hu,Gong Yutong,Zhou Junshuang,Chen Ning,Zhao Shijing,Chen Mingyang,Gao Faming,Gou Huiyang, Iron-regulated NiPS for enhanced oxygen evolution efficiency. Journal of Materials Chemistry A, 2020, 8, 23580-23589. 【PDF】[42]. Miao Nanxi,Wang Junjie,Gong Yutong,Wu Jiazhen,Niu Haiyang,Wang Shiyao,Li Kun,Oganov Artem R.,Tada Tomofumi,Hosono Hideo, Computational prediction of boron-based max phases and mxene derivatives. Chemistry of Materials, 2020, 32, 6947-6957. [41]. Liu Jinrong,Xie Lei,Wang Zhe,Mao Shanjun,Gong Yutong,Wang Yong, Biomass-derived ordered mesoporous carbon nano-ellipsoid encapsulated metal nanoparticles inside: ideal nanoreactors for shape-selective catalysis. Chemical Communications, 2020, 56, 229-232. [40]. Bao Xiaobing#,Gong Yutong#,Zheng Xiaozhong,Chen Jiayi,Mao Shanjun,Wang Yong, Highly performed platinum nanosheets synthesized under in situ reaction conditions for hydrogen generation. Journal of Energy Chemistry, 2020, 51, 272-279. [39]. Xie Lei,Wang Zhe,Liu Jinrong,Gong Yutong,Mao Shanjun,Lu Guofeng,Ma Xiao,Yu Lili,Wang Yong, Kinetics-controlled synthesis of hierarchically porous materials with tunable properties from diverse building blocks. Carbon, 2019, 155, 611-617. [38]. Wu Jiazhen,Li Jiang,Gong Yutong,Kitano Masaaki,Inoshita Takeshi,Hosono Hideo, Intermetallic electride catalyst as a platform for ammonia synthesis. Angewandte Chemie-international Edition, 2019, 58, 825-829. [37]. Wang Zhenzhen,Wang Chunpeng,Mao Shanjun,Gong Yutong,Chen Yuzhuo,Wang Yong, Pd nanoparticles anchored on amino-functionalized hierarchically porous carbon for efficient dehydrogenation of formic acid under ambient conditions. Journal of Materials Chemistry A, 2019, 7, 25791-25795. [36]. Wang Junjie,Ye Tian-Nan,Gong Yutong,Wu Jiazhen,Miao Nanxi,Tada Tomofumi,Hosono Hideo, Discovery of hexagonal ternary phase Ti2InB2 and its evolution to layered boride TiB. Nature communications, 2019, 10, 2284. [35]. Mao Shanjun,Zhao Bowen,Wang Zhe,Gong Yutong,Lu Guofeng,Ma Xiao,Yu Lili,Wang Yong, Tuning the catalytic performance for the semi-hydrogenation of alkynols by selectively poisoning the active sites of Pd catalysts. Green Chemistry, 2019, 21, 4143-4151. [34]. Liu Jinrong,Xie Lei,Deng Jiang,Gong Yutong,Tang Guping,Bai Hongzhen,Wang Yong, Annular mesoporous carbonaceous nanospheres from biomass-derived building units with enhanced biological interactions. Chemistry of Materials, 2019, 31, 7186-7191. [33]. Chen Yuzhuo,Kong Xiangqian,Mao Shanjun,Wang Zhe,Gong Yutong,Wang Yong, Study of the role of alkaline sodium additive in selective hydrogenation of phenol. Chinese Journal of Catalysis, 2019, 40, 1516-1524. [32]. Chen Jiadong,Wang Haiyan,Gong Yutong,Wang Yong, Directly immobilizing a Ru-tannic acid linkage coordination complex on carbon cloth: an efficient and ultrastable catalyst for the hydrogen evolution reaction. Journal of Materials Chemistry A, 2019, 7, 11038-11043. [31]. Bao Xiaobing,Gong Yutong*,Chen Yuzhuo,Zhang Hao,Wang Zhe,Mao Shanjun,Xie Lei,Jiang Zheng,Wang Yong*, Carbon vacancy defect-activated Pt cluster for hydrogen generation. Journal of Materials Chemistry A, 2019, 7, 15364-15370. [30]. Xie Lei,Li Xuefeng,Deng Jiang,Gong Yutong,Wang Haiyan,Mao Shanjun,Wang Yong, Sustainable and scalable synthesis of monodisperse carbon nanospheres and their derived superstructures. Green Chemistry, 2018, 20, 4596-4601. [29]. Kong Xiangqian,Gong Yutong*,Mao Shanjun,Wang Yong*, Selective hydrogenation of phenol. Chemnanomat, 2018, 4, 432-450.[28]. Hosono Hideo,Gong Yutong,Wu Jiazhen,Kitano Masaaki,Yokoyama Tashiharu,Lu Yangfan,Ye Tian-Nan Intermetallic compound, hydrogen absorbing / releasing material, catalyst and method for producing ammonia. 2018.(国际专利)[27]. Gong Yutong#,Wu Jiazhen#,Kitano Masaaki,Wang Junjie,Ye Tian-Nan,Li Jiang,Kobayashi Yasukazu,Kishida Kazuhisa,Abe Hitoshi,Niwa Yasuhiro,Yang Hongsheng,Tada Tomofumi,Hosono Hideo, Ternary intermetallic LaCoSi as a catalyst for N2 activation. Nature Catalysis, 2018, 1, 178-185.[26]. Wu Jiazhen#,Gong Yutong#,Inoshita Takeshi#,Fredrickson Daniel C.,Wang Junjie,Lu Yangfan,Kitano Masaaki,Hosono Hideo, Tiered electron anions in multiple voids of lascsi and their applications to ammonia synthesis. Advanced Materials, 2017, 29, 1700924.[25]. Bao Xiaobing#,Gong Yutong#,Deng Jiang,Wang Shiping,Wang Yong, Organic-acid-assisted synthesis of a 3D lasagna-like Fe-N-doped CNTs-G framework: An efficient and stable electrocatalyst for oxygen reduction reactions. Nano Research, 2017, 10, 1258-1267.[24]. Wei Zhongzhe,Gong Yutong,Xiong Tianyi,Zhang Pengfei,Li Haoran,Wang Yong, Highly efficient and chemoselective hydrogenation of alpha,beta-unsaturated carbonyls over Pd/N-doped hierarchically porous carbon. Catalysis Science & Technology, 2015, 5, 397-404.[23]. Wang Jing,Wei Zhongzhe,Gong Yutong,Wang Shiping,Su Diefeng,Han Chuanlong,Li Haoran,Wang Yong, Ni-promoted synthesis of graphitic carbon nanotubes from in situ produced graphitic carbon for dehydrogenation of ethylbenzene. Chemical Communications, 2015, 51, 12859-12862.[22]. Su Diefeng,Wang Jing,Jin Haiyan,Gong Yutong,Li Mingming,Pang Zhenfeng,Wang Yong, From "waste to gold": a one-pot method to synthesize ultrafinely dispersed Fe2O3-based nanoparticles on N-doped carbon for synergistic and efficient water splitting. Journal of Materials Chemistry A, 2015, 3, 11756-11761.[21]. Gong Yutong,Li Mingming,Wang Yong, Carbon nitride in energy conversion and storage: Recent advances and future prospects. ChemsusChem, 2015, 8, 931-946.[20]. Gong Yutong,Li Mingming,Li Haoran,Wang Yong, Graphitic carbon nitride polymers: promising catalysts or catalyst supports for heterogeneous oxidation and hydrogenation. Green Chemistry, 2015, 17, 715-736.[19]. Deng Jiang,Xiong Tianyi,Xu Fan,Li Mingming,Han Chuanlong,Gong Yutong,Wang Haiyan,Wang Yong, Inspired by bread leavening: one-pot synthesis of hierarchically porous carbon for supercapacitors. Green Chemistry, 2015, 17, 4053-4060.[18]. Deng Dong-Shun,Han Guo-Qiang,Zhu Xiao,Xu Xuan,Gong Yu-Tong,Wang Yong, Selective hydrogenation of unprotected indole to indoline over N-doped carbon supported palladium catalyst. Chinese Chemical Letters, 2015, 26, 277-281.[17]. Zhang Pengfei,Gong Yutong,Wei Zhongzhe,Wang Jing,Zhang Zhiyong,Li Haoran,Dai Sheng,Wang Yong, Updating biomass into functional carbon material in ionothermal manner. Acs Applied Materials & Interfaces, 2014, 6, 12515-12522.[16]. Wang Jing,Xu Zheng,Gong Yutong,Han Chuanlong,Li Haoran,Wang Yong, One-Step Production of sulfur and nitrogen Co-doped graphitic carbon for oxygen reduction: Activation effect of oxidized sulfur and nitrogen. ChemcatChem, 2014, 6, 1204-1209.[15]. Wang Haiyan,Gong Yutong,Wang Yong, Cellulose-based hydrophobic carbon aerogels as versatile and superior adsorbents for sewage treatment. RSC Advances, 2014, 4, 45753-45759.[14]. Li Mingming,Xu Xuan,Gong Yutong,Wei Zhongzhe,Hou Zhaoyin,Li Haoran,Wang Yong, Ultrafinely dispersed Pd nanoparticles on a CN@MgO hybrid as a bifunctional catalyst for upgrading bioderived compounds. Green Chemistry, 2014, 16, 4371-4377.[13]. Han Chuanlong,Wang Jing,Gong Yutong,Xu Xuan,Li Haoran,Wang Yong, Nitrogen-doped hollow carbon hemispheres as efficient metal-free electrocatalysts for oxygen reduction reaction in alkaline medium. Journal of Materials Chemistry A, 2014, 2, 605-609.[12]. Gong Yutong,Xie Lei,Li Haoran,Wang Yong, Sustainable and scalable production of monodisperse and highly uniform colloidal carbonaceous spheres using sodium polyacrylate as the dispersant. Chemical Communications, 2014, 50, 12633-12636.[11]. Gong Yutong,Wei Zhongzhe,Wang Jing,Zhang Pengfei,Li Haoran,Wang Yong, Design and fabrication of hierarchically porous carbon with a template-free method. Scientific Reports, 2014, 4.[10]. Gong Yutong,Wang Jing,Wei Zhongzhe,Zhang Pengfei,Li Haoran,Wang Yong, Combination of carbon nitride and carbon nanotubes: Synergistic catalysts for energy conversion. ChemsusChem, 2014, 7, 2303-2309.[9]. Gong Yutong,Wang Haiyan,Wei Zhongzhe,Xie Lei,Wang Yong, An efficient way to introduce hierarchical structure into biomass-based hydrothermal carbonaceous materials. ACS Sustainable Chemistry & Engineering, 2014, 2, 2435-2441.[8]. Zhang Pengfei,Gong Yutong,Li Haoran,Chen Zhirong,Wang Yong, Selective oxidation of benzene to phenol by FeCl3/mpg-C3N4 hybrids. RSC Advances, 2013, 3, 5121-5126.[7]. Zhang Pengfei,Gong Yutong,Li Haoran,Chen Zhirong,Wang Yong, Solvent-free aerobic oxidation of hydrocarbons and alcohols with Pd@N-doped carbon from glucose. Nature communications, 2013, 4, 1593.[6]. Li Yi,Xu Xuan,Zhang Pengfei,Gong Yutong,Li Haoran,Wang Yong, Highly selective Pd@mpg-C3N4 catalyst for phenol hydrogenation in aqueous phase. RSC Advances, 2013, 3, 10973-10982.[5]. Gong Yutong,Zhang Pengfei,Xu Xuan,Li Yi,Li Haoran,Wang Yong, A novel catalyst Pd@ompg-C3N4 for highly chemoselective hydrogenation of quinoline under mild conditions. Journal of Catalysis, 2013, 297, 272-280.[4]. Deng Dongshun,Yang Yang,Gong Yutong,Li Yi,Xu Xuan,Wang Yong, Palladium nanoparticles supported on mpg-C3N4 as active catalyst for semihydrogenation of phenylacetylene under mild conditions. Green Chemistry, 2013, 15, 2525-2531.[3]. Zhang Pengfei,Gong Yutong,Lv Yiqi,Guo Yan,Wang Yong,Wang Congmin,Li Haoran, Ionic liquids with metal chelate anions. Chemical Communications, 2012, 48, 2334-2336.[2]. Xu Xuan,Li Yi,Gong Yutong,Zhang Pengfei,Li Haoran,Wang Yong, Synthesis of palladium nanoparticles supported on mesoporous N-doped carbon and their catalytic ability for biofuel upgrade. Journal of the American Chemical Society, 2012, 134, 16987-16990.[1]. Li Yi,Gong Yutong,Xu Xuan,Zhang Pengfei,Li Haoran,Wang Yong, A practical and benign synthesis of amines through Pd@mpg-C3N4 catalyzed reduction of nitrites. Catalysis Communications, 2012, 28, 9-12.二、发明专利:[13].一种六方层状硼化物陶瓷h-MAB材料及制备方法 专利号:CN202210000296.1[12].一种类齿轮状介孔炭纳米球材料、制备方法及应用 专利号:CN201910039858.1[11].氢甲酰化催化剂及其制备方法和应用 专利号:CN201910492315.5[10].一种苯甲醛类化合物的制备方法及其用新型介孔碳担载的双金属催化剂 专利号:CN201110387822.6[9].金属间化合物、吸放氢材料、催化剂和氨的制造方法 专利号:CN201880045971.4[8].一种高分散负载型催化剂及其制备方法和应用 专利号:CN201910451496.7[7].一种选择性加氢催化剂在加氢反应中作为催化剂的应用 专利号:CN201910452579.8[6].一种氧化铈负载型高分散纳米催化剂的制备方法及其应用 专利号:CN201810764421.X[5].一种Fe-N-C氧还原催化剂及其合成方法和应用 专利号:CN201610288312.6[4].一种纳米级层状二氧化硅/石墨烯复合材料的制备方法及其产品 专利号:CN201410797490.2[3].一种大管径、超长纳米碳管的制备方法 专利号:CN201410338644.1[2].一种多孔碳的制备方法及其产品 专利号:CN201410038705.2[1].一种新型介孔碳担载的金属催化剂及其制备方法 专利号:CN201110387825.X三、所获奖励:中国石油和化学工业联合会 技术发明奖特等奖 排名14/30 2020 学术成果社会兼职 Social Appointments 担任Nanomaterials期刊、Crystals期刊、Energies和Catalysts期刊客座编辑。 综合介绍团队信息 Team Information 巩玉同为凝固技术国家重点实验室固定人员,隶属于西北工业大学材料前沿交叉研究中心,西北工业大学材料信息学与材料基因工程研究中心(中心网址:http://www.npu-mge.com/)。 |