基本信息

黄远标  男  博导  研究员 中国科学院福建物质结构研究所
电子邮件: ybhuang@fjirsm.ac.cn
通信地址: 福建省福州市杨桥西路155号中科院福建物构所化学楼715
邮政编码: 350002

中科院海西研究院“****”入选者,中科院青促会优秀会员。2009年博士毕业于复旦大学,同年加入中科院福建物构所;2012年被评为副研究员;2014-2015年在日本产业技术综合研究所开展JSPS研究,2017年先后被评为研究员,博士生导师,2018年分别入选中科院海西研究院“****”和中科院青促会优秀会员。主持四项国家自然科学基金(一项青年基金,三项面上项目),参与三项973计划。目前主要从事多孔离子型框架和卟啉框架材料(MOFCOF)应用于CO2的热、光、电催化转化研究,在国内外专业期刊J. Am. Chem. Soc.ACS Energy Lett.CCS Chem.Chem. Sci.J. Catal.等发表70余篇论文。


研究领域

多孔框架催化材料应用于CO2的催化转化


招生信息

博士,硕士

招生专业
070301-无机化学
070304-物理化学
070303-有机化学
招生方向
多孔框架材料
二氧化碳催化转化
电催化

教育背景

2006-09--2009-06   复旦大学    博士
2003-09--2006-06   福建师范大学   硕士
学历
研究生学历

学位
无机化学博士,复旦大学,导师金国新教授

工作经历

   
工作简历
2017-01~2018-06,中国科学院福建物质结构研究所, 研究员
2015-07~现在, 中国科学院福建物质结构研究所, 副研究员
2014-09~2015-07,日本产业技术综合研究所(AIST), JSPS邀请访问学者
2011-12~2014-09,中科院福建物构所, 副研究员
2009-07~2011-12,中科院福建物构所, 助理研究员

专利与奖励

   
奖励信息
(1) 中科院青促会优秀会员, 院级, 2018
(2) 福建省自然科学奖, 一等奖, 省级, 2018
(3) 中国科学院青年创新促进会会员, , 院级, 2014
(4) 2014年度海西研究院"春苗人才"计划, , 研究所(学校), 2014
专利成果
[1] 王旭生, 徐睿, 陈春辉, 黄远标, 曹荣. 一种碳量子点/金属有机骨架催化剂的制备方法和应用. CN: CN107754861A, 2018-03-06.

[2] 徐睿, 王旭生, 黄远标, 曹荣. 铼修饰的共价三嗪环吡啶框架催化剂及制备方法和应用. CN: CN107694606A, 2018-02-16.

[3] 王旭生, 徐睿, 陈春辉, 黄远标, 曹荣. 碳量子点@卟啉基金属有机骨架催化剂及制备方法和应用. CN: CN107694605A, 2018-02-16.

[4] 王旭生, 陈春辉, 梁均, 黄远标, 曹荣. 一种多元锆基多孔材料、制备方法、光催化脱铬中的应用. CN: CN107433206A, 2017-12-05.

[5] 王旭生, 曹荣, 黄远标. 一种金属有机骨架化学传感器和制备方法及其应用. CN: CN106916175A, 2017-07-04.

[6] 刘陶陶, 曹荣, 黄远标. 一种阳离子有机聚合物的制备及催化二氧化碳固定的方法. CN: CN106423280A, 2017-02-22.

[7] 梁均, 曹荣, 黄远标. 一种离子型催化剂的制备及催化转化二氧化碳的方法. CN: CN106423278A, 2017-02-22.

[8] 王旭生, 曹荣, 黄远标. 一种金属有机骨架材料用于有效分离尺寸相近的染料. CN: CN105617994A, 2016-06-01.

[9] 沈闽, 曹荣, 黄远标, 李红芳. 自组装Pd-Cu双金属多枝状纳米晶催化剂及其制备和用途. CN: CN105597780A, 2016-05-25.

[10] 沈闽, 曹荣, 黄远标, 曹敏纳. Pd 5.12 Cu多枝状纳米晶催化剂及其制备和用途. CN: CN105396600A, 2016-03-16.

[11] 马涛, 曹荣, 黄远标. 一种原位负载型催化剂及其制备和应用. CN: CN103623871A, 2014-03-12.

[12] 黄远标, 曹荣. 多孔铟-有机框架吸附分离材料及其制备和应用. CN: CN103613555A, 2014-03-05.

[13] 黄远标, 曹荣. 一种合金纳米催化剂的制备及光催化降解乙烯的方法. CN: CN103611573A, 2014-03-05.

[14] 曹荣, 黄远标. 一种自固载型催化剂的制备及催化烯烃环氧化方法. CN: CN102380417A, 2012-03-21.

出版信息

   
发表论文
[1] Wanfeng Xiong, Duanhui Si, Jundong Yi, Yuanbiao Huang, Hongfang Li, Rong Cao. Morphology and composition dependence of multicomponent Cu-based nanoreactor for tandem electrocatalysis CO2 reduction. Applied Catalysis B: Environmental. 2022, 314: [2] 王旭生, 杨胥, 陈春辉, 李红芳, 黄远标, 曹荣. 石墨烯量子点/铁基金属-有机骨架复合材料高效光催化二氧化碳还原. 化学学报. 2022, 22-28, https://t.cnki.net/kcms/detail?v=3uoqIhG8C44YLTlOAiTRKu87-SJxoEJu6LL9TJzd50mzFyiQ6m4BwEK1Ncdlssx-FnZ6TQW1yQk4rLO2WRKFJME2EaP8w52f&uniplatform=NZKPT.
[3] Tong, HuiYing, Liang, Jun, Wu, QiuJin, Zou, YuHuang, Huang, YuanBiao, Cao, Rong. Soluble imidazolium-functionalized coordination cages for efficient homogeneous catalysis of CO2 cycloaddition reactions. CHEMICAL COMMUNICATIONS[J]. 2021, 57(17): 2140-2143, https://www.webofscience.com/wos/woscc/full-record/WOS:000623421200003.
[4] Wu, Qiao, Liang, Jun, Xie, ZaiLai, Huang, YuanBiao, Cao, Rong. Spatial Sites Separation Strategy to Fabricate Atomically Isolated Nickel Catalysts for Efficient CO2 Electroreduction. ACS MATERIALS LETTERS[J]. 2021, 3(5): 454-461, http://dx.doi.org/10.1021/acsmaterialslett.1c00090.
[5] MengDi Zhang, DuanHui Si, JunDong Yi, Qi Yin, YuanBiao Huang, Rong Cao. Conductive phthalocyanine-based metal-organic framework as a highly efficient electrocatalyst for carbon dioxide reduction reaction. SCIENCE CHINA-CHEMISTRY[J]. 2021, 64(8): 1332-1339, http://dx.doi.org/10.1007/s11426-021-1022-3.
[6] Yi, JunDong, Si, DuanHui, Xie, Ruikuan, Yin, Qi, Zhang, MengDi, Wu, Qiao, Chai, GuoLiang, Huang, YuanBiao, Cao, Rong. Conductive Two-Dimensional Phthalocyanine-based Metal-Organic Framework Nanosheets for Efficient Electroreduction of CO2. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2021, 60(31): 17108-17114, http://dx.doi.org/10.1002/anie.202104564.
[7] Zou, YuHuang, Wu, QiuJin, Yin, Qi, Huang, YuanBiao, Cao, Rong. Self-Assembly of Imidazolium-Functionalized Zr-Based Metal-Organic Polyhedra for Catalytic Conversion of CO2 into Cyclic Carbonates. INORGANIC CHEMISTRY[J]. 2021, 60(4): 2112-2116, http://dx.doi.org/10.1021/acs.inorgchem.0c01199.
[8] Wu, Qiao, Mao, MinJie, Wu, QiuJin, Liang, Jun, Huang, YuanBiao, Cao, Rong. Construction of Donor-Acceptor Heterojunctions in Covalent Organic Framework for Enhanced CO2 Electroreduction. SMALL[J]. 2021, 17(22): http://dx.doi.org/10.1002/smll.202004933.
[9] Hou, Ying, Liang, YuLin, Shi, PengChao, Huang, YuanBiao, Cao, Rong. Atomically dispersed Ni species on N-doped carbon nanotubes for electroreduction of CO2 with nearly 100% CO selectivity. APPLIED CATALYSIS B-ENVIRONMENTAL[J]. 2020, 271: http://dx.doi.org/10.1016/j.apcatb.2020.118929.
[10] Huang Yuanbiao. Conductive Phthalocyanine-Based Covalent Organic Framework for Highly Efcient Electroreduction of Carbon Dioxide. Small. 2020, [11] Wu, QiuJin, Mao, MinJie, Chen, JianXin, Huang, YuanBiao, Cao, Rong. Integration of metalloporphyrin into cationic covalent triazine frameworks for the synergistically enhanced chemical fixation of CO2. CATALYSIS SCIENCE & TECHNOLOGY[J]. 2020, 10(23): 8026-8033, https://www.webofscience.com/wos/woscc/full-record/WOS:000596714600022.
[12] Yi, JunDong, Xie, Ruikuan, Xie, ZaiLai, Chai, GuoLiang, Liu, TianFu, Chen, RuiPing, Huang, YuanBiao, Cao, Rong. Highly Selective CO2 Electroreduction to CH4 by In Situ Generated Cu2O Single-Type Sites on a Conductive MOF: Stabilizing Key Intermediates with Hydrogen Bonding. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2020, 59(52): 23641-23648, https://www.webofscience.com/wos/woscc/full-record/WOS:000583727500001.
[13] Wu, Qiao, Xie, RuiKuan, Mao, MinJie, Chai, Guoliang, Yi, JunDong, Zhao, ShaoShuai, Huang, YuanBiao, Cao, Rong. Integration of Strong Electron Transporter Tetrathiafulvalene into Metalloporphyrin-Based Covalent Organic Framework for Highly Efficient Electroreduction of CO2. ACS ENERGY LETTERS[J]. 2020, 5(3): 1005-1012, https://www.webofscience.com/wos/woscc/full-record/WOS:000526311000038.
[14] Mao, MinJie, Zhang, MengDi, Meng, DongLi, Chen, JianXin, He, Chang, Huang, YuanBiao, Cao, Rong. Imidazolium-Functionalized Cationic Covalent Triazine Frameworks Stabilized Copper Nanoparticles for Enhanced CO2 Electroreduction. CHEMCATCHEM[J]. 2020, 12(13): 3530-3536, https://www.webofscience.com/wos/woscc/full-record/WOS:000538652000001.
[15] Hou, Ying, Hu, XiaoJing, Tong, HuiYing, Huang, YuanBiao, Cao, Rong. Unraveling the relationship of the pore structures between the metal-organic frameworks and their derived carbon materials. INORGANIC CHEMISTRY COMMUNICATIONS[J]. 2020, 114: http://dx.doi.org/10.1016/j.inoche.2020.107825.
[16] Zhang, MengDi, Si, DuanHui, Yi, JunDong, Zhao, ShaoShuai, Huang, YuanBiao, Cao, Rong. Conductive Phthalocyanine-Based Covalent Organic Framework for Highly Efficient Electroreduction of Carbon Dioxide. SMALL[J]. 2020, 16(52): https://www.webofscience.com/wos/woscc/full-record/WOS:000594437000001.
[17] Yi, JunDong, Zhang, MengDi, Hou, Ying, Huang, YuanBiao, Cao, Rong. N-Doped Carbon Aerogel Derived from a Metal-Organic Framework Foam as an Efficient Electrocatalyst for Oxygen Reduction. CHEMISTRY-AN ASIAN JOURNAL[J]. 2019, 14(20): 3642-3647, https://www.webofscience.com/wos/woscc/full-record/WOS:000478485100001.
[18] 伍巧, 梁均, 伊俊东, 石鹏超, 黄远标, 曹荣. 咪唑鎓盐官能化阳离子型金属-有机框架衍生的多孔氮/卤素双掺杂纳米碳高效氧还原催化剂. 中国科学:材料科学(英文版)[J]. 2019, 62(5): 671-680, http://lib.cqvip.com/Qikan/Article/Detail?id=7001649065.
[19] Wang, XuSheng, Chen, ChunHui, Ichihara, Fumihiko, Oshikiri, Mitsutake, Liang, Jun, Li, Lan, Li, Yunxiang, Song, Hui, Wang, Shengyao, Zhang, Teng, Huang, YuanBiao, Cao, Rong, Ye, Jinhua. Integration of adsorption and photosensitivity capabilities into a cationic multivariate metal-organic framework for enhanced visible-light photoreduction reaction. APPLIED CATALYSIS B-ENVIRONMENTAL[J]. 2019, 253: 323-330, http://dx.doi.org/10.1016/j.apcatb.2019.04.074.
[20] Yi, JunDong, Xu, Rui, Chai, GuoLiang, Zhang, Teng, Zang, Ketao, Nan, Bing, Lin, Hua, Liang, YuLin, Lv, Jiangquan, Luo, Jun, Si, Rui, Huang, YuanBiao, Cao, Rong. Cobalt single-atoms anchored on porphyrinic triazine-based frameworks as bifunctional electrocatalysts for oxygen reduction and hydrogen evolution reactions. JOURNAL OF MATERIALS CHEMISTRY A[J]. 2019, 7(3): 1252-1259, [21] 伊俊东, 刘陶陶, 黄远标, 曹荣. 钼基金属有机框架为模板合成二硫化钼纳米棒用于高效电解水产氢. 中国科学:材料科学(英文版). 2019, 62(7): 965-972, http://lib.cqvip.com/Qikan/Article/Detail?id=7001974245.
[22] Yi, JunDong, Liu, TaoTao, Huang, YuanBiao, Cao, Rong. Solid-state synthesis of MoS2 nanorod from molybdenum-organic framework for efficient hydrogen evolution reaction. SCIENCE CHINA-MATERIALS[J]. 2019, 62(7): 965-972, [23] Wu, Qiao, Liang, Jun, Yi, JunDong, Meng, DongLi, Shi, PengChao, Huang, YuanBiao, Cao, Rong. Unraveling the relationship between the morphologies of metal-organic frameworks and the properties of their derived carbon materials. DALTON TRANSACTIONS[J]. 2019, 48(21): 7211-7217, [24] Wu, Qiao, Liang, Jun, Yi, JunDong, Shi, PengChao, Huang, YuanBiao, Cao, Rong. Porous nitrogen/halogen dual-doped nanocarbons derived from imidazolium functionalized cationic metal-organic frameworks for highly efficient oxygen reduction reaction. SCIENCE CHINA-MATERIALS[J]. 2019, 62(5): 671-680, https://www.webofscience.com/wos/woscc/full-record/WOS:000461366000007.
[25] Liang, Jun, Huang, YuanBiao, Cao, Rong. Metal-organic frameworks and porous organic polymers for sustainable fixation of carbon dioxide into cyclic carbonates. COORDINATION CHEMISTRY REVIEWSnull. 2019, 378: 32-65, http://dx.doi.org/10.1016/j.ccr.2017.11.013.
[26] Zou, YuHuang, Liang, Jun, He, Chang, Huang, YuanBiao, Cao, Rong. A mesoporous cationic metal-organic framework with a high density of positive charge for enhanced removal of dichromate from water. DALTON TRANSACTIONS[J]. 2019, 48(20): 6680-6684, [27] Liu, TaoTao, Liang, Jun, Xu, Rui, Huang, YuanBiao, Cao, Rong. Salen-Co(iii) insertion in multivariate cationic metal-organic frameworks for the enhanced cycloaddition reaction of carbon dioxide. CHEMICAL COMMUNICATIONS[J]. 2019, 55(28): 4063-4066, https://www.webofscience.com/wos/woscc/full-record/WOS:000467968400010.
[28] 曹荣. Unraveling the Reactivity and Selectivity of Atomically Isolated Metal–Nitrogen Sites Anchored on Porphyrinic Triazine Frameworks for Electroreduction of CO2. CCS Chemistry. 2019, [29] Lin, ZuJin, Zheng, HeQi, Chen, Jin, Zhuang, WanE, Lin, YueXu, Su, JinWei, Huang, YuanBiao, Cao, Rong. Encapsulation of Phosphotungstic Acid into Metal-Organic Frameworks with Tunable Window Sizes: Screening of PTA@MOF Catalysts for Efficient Oxidative Desulfurization. INORGANIC CHEMISTRY[J]. 2018, 57(20): 13009-13019, https://www.webofscience.com/wos/woscc/full-record/WOS:000447680400063.
[30] Wang, Qiang, Wang, XuSheng, Chen, ChunHui, Yang, Xue, Huang, YuanBiao, Cao, Rong. Defective Pt nanoparticles encapsulated in mesoporous metal-organic frameworks for enhanced catalysis. CHEMICAL COMMUNICATIONS[J]. 2018, 54(64): 8822-8825, https://www.webofscience.com/wos/woscc/full-record/WOS:000441027700005.
[31] Wang, XuSheng, Li, Lan, Yuan, DaQiang, Huang, YuanBiao, Cao, Rong. Fast, highly selective and sensitive anionic metal-organic framework with nitrogen-rich sites fluorescent chemosensor for nitro explosives detection. JOURNAL OF HAZARDOUS MATERIALS[J]. 2018, 344: 283-290, http://dx.doi.org/10.1016/j.jhazmat.2017.10.027.
[32] Liu, TaoTao, Xu, Rui, Yi, JunDong, Liang, Jun, Wang, XuSheng, Shi, PengChao, Huang, YuanBiao, Cao, Rong. Imidazolium-Based Cationic Covalent Triazine Frameworks for Highly Efficient Cycloaddition of Carbon Dioxide. CHEMCATCHEM[J]. 2018, 10(9): 2036-2040, https://www.webofscience.com/wos/woscc/full-record/WOS:000431974000015.
[33] Chen, ChunHui, Wang, XuSheng, Li, Lan, Huang, YuanBiao, Cao, Rong. Highly selective sensing of Fe3+ by an anionic metal-organic framework containing uncoordinated nitrogen and carboxylate oxygen sites. DALTON TRANSACTIONS[J]. 2018, 47(10): 3452-3458, https://www.webofscience.com/wos/woscc/full-record/WOS:000428841900029.
[34] Xu, Rui, Wang, XuSheng, Zhao, Hui, Lin, Hua, Huang, YuanBiao, Cao, Rong. Rhenium-modified porous covalent triazine framework for highly efficient photocatalytic carbon dioxide reduction in a solid-gas system. CATALYSIS SCIENCE & TECHNOLOGY[J]. 2018, 8(8): 2224-2230, https://www.webofscience.com/wos/woscc/full-record/WOS:000433517700023.
[35] Liang, Jun, Xie, YaQiang, Wang, XuSheng, Wang, Qiang, Liu, TaoTao, Huang, YuanBiao, Cao, Rong. An imidazolium-functionalized mesoporous cationic metal-organic framework for cooperative CO2 fixation into cyclic carbonate. CHEMICAL COMMUNICATIONS[J]. 2018, 54(4): 342-345, https://www.webofscience.com/wos/woscc/full-record/WOS:000419379800003.
[36] Liang, Jun, Xie, YaQiang, Wu, Qiao, Wang, XiuYun, Liu, TaoTao, Li, HongFang, Huang, YuanBiao, Cao, Rong. Zinc Porphyrin/Imidazolium Integrated Multivariate Zirconium Metal-Organic Frameworks for Transformation of CO2 into Cyclic Carbonates. INORGANIC CHEMISTRY[J]. 2018, 57(5): 2584-2593, http://dx.doi.org/10.1021/acs.inorgchem.7b02983.
[37] Yi, JunDong, Xu, Rui, Wu, Qiao, Zhang, Teng, Zang, KeTao, Luo, Jun, Liang, YuLin, Huang, YuanBiao, Cao, Rong. Atomically Dispersed Iron-Nitrogen Active Sites within Porphyrinic Triazine-Based Frameworks for Oxygen Reduction Reaction in Both Alkaline and Acidic Media. ACS ENERGY LETTERS[J]. 2018, 3(4): 883-889, https://www.webofscience.com/wos/woscc/full-record/WOS:000430369600019.
[38] Shen, Min, Huang, Yuanbiao, Wu, Dongshuang, Lu, Jian, Cao, Minna, Liu, Meimei, Yang, Yinglong, Li, Hongfang, Guo, Binbin, Cao, Rong. Facile ultrafine copper seed-mediated approach for fabricating quasi-two-dimensional palladium-copper bimetallic trigonal hierarchical nanoframes. NANO RESEARCH[J]. 2017, 10(8): 2810-2822, https://www.webofscience.com/wos/woscc/full-record/WOS:000404560100023.
[39] Wang Qiang, Xu Rui, Wang XuSheng, Liu SiDe, Huang YuanBiao, Cao Rong. Platinum Nanoparticle-Decorated Porous Porphyrin-Based Metal-Organic Framework for Photocatalytic Hydrogen Production. CHINESE JOURNAL OF INORGANIC CHEMISTRY[J]. 2017, 33(11): 2038-2044, https://www.webofscience.com/wos/woscc/full-record/WOS:000424068200013.
[40] Shi, PengChao, Lin, Xi, Liang, Jun, Li, XinXiong, Huang, YuanBiao, Cao, Rong. A flexible porous copper-based metal-organic cage for carbon dioxide adsorption. INORGANIC CHEMISTRY COMMUNICATIONS[J]. 2017, 78: 28-31, http://dx.doi.org/10.1016/j.inoche.2017.02.015.
[41] Wang, XuSheng, Li, Lan, Liang, Jun, Huang, YuanBiao, Cao, Rong. Boosting Oxidative Desulfurization of Model and Real Gasoline over Phosphotungstic Acid Encapsulated in Metal-Organic Frameworks: The Window Size Matters. CHEMCATCHEM[J]. 2017, 9(6): 971-979, https://www.webofscience.com/wos/woscc/full-record/WOS:000397879500014.
[42] Shi, PengChao, Yi, JunDong, Liu, TaoTao, Li, Lan, Zhang, LinJie, Sun, ChuanFu, Wang, YaoBing, Huang, YuanBiao, Cao, Rong. Hierarchically porous nitrogen-doped carbon nanotubes derived from core-shell ZnO@zeolitic imidazolate framework nanorods for highly efficient oxygen reduction reactions. JOURNAL OF MATERIALS CHEMISTRY A[J]. 2017, 5(24): 12322-12329, https://www.webofscience.com/wos/woscc/full-record/WOS:000403664800038.
[43] Huang, YuanBiao, Liang, Jun, Wang, XuSheng, Cao, Rong. Multifunctional metal-organic framework catalysts: synergistic catalysis and tandem reactions. CHEMICAL SOCIETY REVIEWSnull. 2017, 46(1): 126-157, https://www.webofscience.com/wos/woscc/full-record/WOS:000391955700006.
[44] Yi, JunDong, Shi, PengChao, Liang, Jun, Cao, MinNa, Huang, YuanBiao, Cao, Rong. Porous hollow MoS2 microspheres derived from core-shell sulfonated polystyrene microspheres@MoS2 nanosheets for efficient electrocatalytic hydrogen evolution. INORGANIC CHEMISTRY FRONTIERS[J]. 2017, 4(4): 741-747, https://www.webofscience.com/wos/woscc/full-record/WOS:000399196000020.
[45] Liang, Jun, Chen, RuiPing, Wang, XiuYun, Liu, TaoTao, Wang, XuSheng, Huang, YuanBiao, Cao, Rong. Postsynthetic ionization of an imidazole-containing metal-organic framework for the cycloaddition of carbon dioxide and epoxides. CHEMICAL SCIENCE[J]. 2017, 8(2): 1570-1575, https://www.webofscience.com/wos/woscc/full-record/WOS:000395428300087.
[46] Huang, YuanBiao, Wang, Qiang, Liang, Jun, Wang, Xusheng, Cao, Rong. Soluble Metal-Nanoparticle-Decorated Porous Coordination Polymers for the Homogenization of Heterogeneous Catalysis. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY[J]. 2016, 138(32): 10104-10107, https://www.webofscience.com/wos/woscc/full-record/WOS:000381715700010.
[47] Li, Lan, Wang, Xusheng, Liang, Jun, Huang, Yuanbiao, Li, Hongfang, Lin, Zujin, Cao, Rong. Water-Stable Anionic Metal-Organic Framework for Highly Selective Separation of Methane from Natural Gas and Pyrolysis Gas. ACS APPLIED MATERIALS & INTERFACES[J]. 2016, 8(15): 9777-9781, https://www.webofscience.com/wos/woscc/full-record/WOS:000374812000027.
[48] Huang, YuanBiao, Shen, Min, Wang, Xusheng, Huang, Ping, Chen, Ruiping, Lin, ZuJin, Cao, Rong. Water-medium C-H activation over a hydrophobic perfluoroalkane-decorated metal-organic framework platform. JOURNAL OF CATALYSIS[J]. 2016, 333: 1-7, http://dx.doi.org/10.1016/j.jcat.2015.10.012.
[49] 黄远标, 曹荣. 双功能催化剂:多级微介孔金属-有机框架材料负载合金纳米协同催化. 2016, http://kns.cnki.net/KCMS/detail/detail.aspx?QueryID=0&CurRec=5&recid=&FileName=ZGHY201607043130&DbName=CPFDLAST2017&DbCode=CPFD&yx=&pr=&URLID=&bsm=.
[50] Wang, XuSheng, Liang, Jun, Li, Lan, Lin, ZuJin, Bag, Partha Pratim, Gao, ShuiYing, Huang, YuanBiao, Cao, Rong. An Anion Metal-Organic Framework with Lewis Basic Sites-Rich toward Charge-Exclusive Cationic Dyes Separation and Size-Selective Catalytic Reaction. INORGANIC CHEMISTRY[J]. 2016, 55(5): 2641-2649, https://www.webofscience.com/wos/woscc/full-record/WOS:000371753500075.
[51] Huang, YuanBiao, Shen, Min, Wang, Xusheng, Shi, PengChao, Li, Hongfang, Cao, Rong. Hierarchically micro- and mesoporous metal-organic framework-supported alloy nanocrystals as bifunctional catalysts: Toward cooperative catalysis. JOURNAL OF CATALYSIS[J]. 2015, 330: 452-457, https://www.webofscience.com/wos/woscc/full-record/WOS:000362603200042.
[52] Huang, Yuanbiao, Zhang, Yaohong, Chen, Xuxing, Wu, Dongshuang, Yi, Zhiguo, Cao, Rong. Bimetallic alloy nanocrystals encapsulated in ZIF-8 for synergistic catalysis of ethylene oxidative degradation. CHEMICAL COMMUNICATIONS[J]. 2014, 50(70): 10115-10117, https://www.webofscience.com/wos/woscc/full-record/WOS:000340707600029.
[53] Ma Tao, Liu Taotao, Yang Yanyan, Huang Yuanbiao, Cao Rong. ZIF-8原位负载Pd纳米粒子及其在Suzuki-Miyaura反应中的应用. 无机化学学报[J]. 2014, 30(1): 127-133, http://lib.cqvip.com/Qikan/Article/Detail?id=48335052.
[54] Ma Tao, Liu TaoTao, Yang YanYan, Huang YuanBiao, Cao Rong. In Situ Preparation of Palladium Nanoparticles Supported on ZIF-8 for Suzuki-Miyaura Reaction. CHINESE JOURNAL OF INORGANIC CHEMISTRY[J]. 2014, 30(1): 127-133, https://www.webofscience.com/wos/woscc/full-record/WOS:000330557500014.
[55] 马涛, 刘陶陶, 杨艳艳, 黄远标, 曹荣. ZIF-8原位负载Pd纳米粒子及其在Suzuki-Miyaura反应中的应用. 无机化学学报. 2014, 30(1): 127-133, http://lib.cqvip.com/Qikan/Article/Detail?id=48335052.
[56] Wang, XuSheng, Huang, YuanBiao, Lin, ZuJin, Cao, Rong. Phosphotungstic acid encapsulated in the mesocages of amine-functionalized metal-organic frameworks for catalytic oxidative desulfurization. DALTON TRANSACTIONS[J]. 2014, 43(31): 11950-11958, https://www.webofscience.com/wos/woscc/full-record/WOS:000339862400021.
[57] Huang, Yuanbiao, Lin, Zujin, Fu, Hongru, Wang, Fei, Shen, Min, Wang, Xusheng, Cao, Rong. Porous Anionic Indium-Organic Framework with Enhanced Gas and Vapor Adsorption and Separation Ability. CHEMSUSCHEM[J]. 2014, 7(9): 2647-2653, http://dx.doi.org/10.1002/cssc.201402206.
[58] Liu, SongJuan, Huang, Yuanbiao, Lin, ZuJin, Li, XinFa, Cao, Rong. Syntheses, structures and photoluminescent properties of lanthanide coordination polymers based on pyridyl functionalized imidazole dicarboxylic acid. RSC ADVANCES[J]. 2013, 3(24): 9279-9287, https://www.webofscience.com/wos/woscc/full-record/WOS:000319524100029.
[59] Huang, Yuanbiao, Ma, Tao, Huang, Ping, Wu, Dongshuang, Lin, Zujin, Cao, Rong. Direct CH Bond Arylation of Indoles with Aryl Boronic Acids Catalyzed by Palladium Nanoparticles Encapsulated in Mesoporous Metal-Organic Framework. CHEMCATCHEM[J]. 2013, 5(7): 1877-1883, https://www.webofscience.com/wos/woscc/full-record/WOS:000320929200036.
[60] Li, Hongfang, Lu, Jian, Lin, Jingxiang, Huang, Yuanbiao, Cao, Minna, Cao, Rong. Crystalline Hybrid Solid Materials of Palladium and Decamethylcucurbit5uril as Recoverable Precatalysts for Heck Cross-Coupling Reactions. CHEMISTRY-A EUROPEAN JOURNAL[J]. 2013, 19(46): 15661-15668, https://www.webofscience.com/wos/woscc/full-record/WOS:000326311400032.
[61] Lin, ZuJin, Han, LiWei, Wu, DongShuang, Huang, YuanBiao, Cao, Rong. Structure Versatility of Coordination Polymers Constructed from a Semirigid Tetracarboxylate Ligand: Syntheses, Structures, and Photoluminescent Properties. CRYSTAL GROWTH & DESIGN[J]. 2013, 13(1): 255-263, https://www.webofscience.com/wos/woscc/full-record/WOS:000313143900032.
[62] Lin, ZuJin, Huang, YuanBiao, Liu, TianFu, Li, XiangYing, Cao, Rong. Construction of a Polyhedral Metal-Organic Framework via a Flexible Octacarboxylate Ligand for Gas Adsorption and Separation. INORGANIC CHEMISTRY[J]. 2013, 52(6): 3127-3132, https://www.webofscience.com/wos/woscc/full-record/WOS:000316439400041.
[63] Huang, Yuanbiao, Liu, Songjuan, Lin, Zujin, Li, Weijin, Li, Xinfa, Cao, Rong. Facile synthesis of palladium nanoparticles encapsulated in amine-functionalized mesoporous metal-organic frameworks and catalytic for dehalogenation of aryl chlorides. JOURNAL OF CATALYSIS[J]. 2012, 292: 111-117, https://www.webofscience.com/wos/woscc/full-record/WOS:000307091200012.
[64] Li, Xinfa, Huang, Yuanbiao, Zhao, Huajun, Zeng, Qihua. Three-dimensional Yb(III)-Ag(I) heterometallic coordination polymer showing dual photoluminescent emissions in the visible and near-infrared regions. INORGANIC CHEMISTRY COMMUNICATIONS[J]. 2012, 23: 132-136, http://dx.doi.org/10.1016/j.inoche.2012.07.008.
[65] Li, Xinfa, Huang, Yuanbiao, Cao, Rong. Three-Dimensional Pillared-Layer 3d-4f Heterometallic Coordination Polymers With or Without Halides. CRYSTAL GROWTH & DESIGN[J]. 2012, 12(7): 3549-3556, https://www.webofscience.com/wos/woscc/full-record/WOS:000305919700026.
[66] Li, Xinfa, Huang, Yuanbiao, Cao, Rong. A family of three-dimensional 3d-4f and 4d-4f heterometallic coordination polymers based on mixed isonicotinate and 2-sulfobenzoate ligands: syntheses, structures and photoluminescent properties. DALTON TRANSACTIONS[J]. 2012, 41(20): 6195-6205, https://www.webofscience.com/wos/woscc/full-record/WOS:000303390100020.
[67] Lin, ZuJin, Yang, Zhen, Liu, TianFu, Huang, YuanBiao, Cao, Rong. Microwave-Assisted Synthesis of a Series of Lanthanide Metal-Organic Frameworks and Gas Sorption Properties. INORGANIC CHEMISTRY[J]. 2012, 51(3): 1813-1820, https://www.webofscience.com/wos/woscc/full-record/WOS:000300474700074.
[68] Li, Xinfa, Huang, Yuanbiao, Cao, Rong. Two-dimensional decanuclear erbium wheel supported by mixed hemimellitate and 4-chlorobenzoate ligands. CRYSTENGCOMM[J]. 2012, 14(18): 6045-6048, https://www.webofscience.com/wos/woscc/full-record/WOS:000307590700054.
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[71] Gao, Shuiying, Huang, Yuanbiao, Cao, Minna, Liu, Tianfu, Cao, Rong. The fabrication of palladium-pyridyl complex multilayers and their application as a catalyst for the Heck reaction. JOURNAL OF MATERIALS CHEMISTRY[J]. 2011, 21(41): 16467-16472, http://ir.fjirsm.ac.cn/handle/335002/1170.
[72] Lin, ZuJin, Liu, TianFu, Xu, Bo, Han, LiWei, Huang, YuanBiao, Cao, Rong. Pore-size tuning in double-pillared metal-organic frameworks containing cadmium clusters. CRYSTENGCOMM[J]. 2011, 13(10): 3321-3324, http://ir.fjirsm.ac.cn/handle/335002/1373.
[73] Huang, Yuanbiao, Lin, Zujin, Cao, Rong. Palladium Nanoparticles Encapsulated in a Metal-Organic Framework as Efficient Heterogeneous Catalysts for Direct C2 Arylation of Indoles. CHEMISTRY-A EUROPEAN JOURNAL[J]. 2011, 17(45): 12706-12712, http://ir.fjirsm.ac.cn/handle/335002/1239.
[74] Huang, Yuanbiao, Liu, Tianfu, Lin, Jingxiang, Lue, Jian, Lin, Zujin, Cao, Rong. Homochiral Nickel Coordination Polymers Based on Salen(Ni) Metalloligands: Synthesis, Structure, and Catalytic Alkene Epoxidation. INORGANIC CHEMISTRY[J]. 2011, 50(6): 2191-2198, http://ir.fjirsm.ac.cn/handle/335002/1230.
[75] Huang, Yuanbiao, Zheng, Zhaoliang, Liu, Tianfu, Lu, Jian, Lin, Zujin, Li, Hongfang, Cao, Rong. Palladium nanoparticles supported on amino functionalized metal-organic frameworks as highly active catalysts for the Suzuki-Miyaura cross-coupling reaction. CATALYSIS COMMUNICATIONS[J]. 2011, 14(1): 27-31, http://dx.doi.org/10.1016/j.catcom.2011.07.004.

科研活动

   
科研项目
( 1 ) 半封闭空间机动车排放污染物常温治理的关键纳米技术, 主持, 国家级, 2013-01--2017-12
( 2 ) 2014年度青年创新促进会奖励, 主持, 部委级, 2014-01--2017-12
( 3 ) 春苗人才计划, 主持, 市地级, 2014-01--2017-12
( 4 ) 碳量子点/金属-有机框架复合材料协同光还原二氧化碳研究, 主持, 国家级, 2017-01--2020-12
( 5 ) 基于机器学习势函数的纳米材料催化动态模拟与理性设计, 参与, 国家级, 2018-07--2023-06
参与会议
(1)金属-有机框架化合物(MOFs) 负载钯纳米颗粒及其催化   第17届分子筛会议   黄远标   2013-08-31
(2)金属-有机框架化合物(MOFs) 负载钯纳米颗粒及其催化   第七届全国配位化学会议   黄远标   2013-07-29

指导学生

现指导学生

郭慧  硕士研究生  070301-无机化学