章跃标 - 上海科技大学 - 物质科学与技术学院

个人简介

2006年本科毕业于中山大学应用化学专业，获理学学士学位；2011年毕业于中山大学化学学院，获无机化学专业博士学位（导师：陈小明院士）；2011年8月至2015年1月先后在美国加州大学洛杉矶分校、劳伦斯伯克利国家实验室和加州大学伯克利分校从事博士后研究（合作导师：Omar M. Yaghi院士）；2015年2月加入上海科技大学物质科学与技术学院，担任课题组长、研究员、博士生导师和助理教授（Tenure-Track），2022年3月晋升为常任副教授（Tenured）。

研究领域

1. 多孔材料新概念多孔材料在气体吸附分离、气体存储、湿度控制、分子传感、能量转化、择型和手性催化等有广阔的应用前景。按照孔径大小的尺度，IUPAC将孔分为微孔（< 2 nm），介孔或中孔（2 ~ 50 nm），大孔（> 50 nm）；按照最新定义，在微孔部分又分为超微孔（< 0.7 nm），极微孔（0.7 ~ 2 nm），而将小于100 nm以下的孔统称为纳米孔。本课题组主要研究金属-有机框架（MOFs)、共价有机框架（COFs）和沸石咪唑框架（ZIFs）等新概念材料的设计合成和定向组装。 2. 气体吸附新机制气体吸附是表征多孔材料本征孔特性和评估实用性能的重要手段。很多化学过程是发生在物质接触的表界面的，尤其是气-固界面，液-固界面，这些表面的相互作用直接决定了物质的性质进而决定其用途。而孔壁是材料接触气体或液体的界面，孔道是气体或液体的扩散通道，对于孔道结构的调控能够有效的从热力学和动力学方面对材料进行调控从而满足应用的需求。本课题组主要研究气体吸附晶体学、高压气体存储、气体分离和高湿度烟道气碳捕集。 3. 功能应用新思路在应用场景下，多孔材料的宏观性能发挥不仅由其微观结构决定，更受到其介观结构影响。因此对其多尺度结构（包括内部缺陷、晶体形貌和尺寸、表面晶面、纳米组装、复合和协同等）的研究，是决定材料外赋性质(Extrinsic Properties)的关键，是通往真正“构-效”关系的桥梁。本课题组主要研究多孔框架材料的晶态优化、相貌调控、纳米组装、材料复合和协同作用。

近期论文

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Flexibility On-Demand: Multivariate 3D Covalent Organic Frameworks Meng Wang, Tengwu Zeng, Yi Yu, Xun Wang, Yingbo Zhao, Hongxia Xi*, and Yue-Biao Zhang*, J. Am. Chem. Soc. 2024, ASAP. DOI: 10.1021/jacs.3c11944 Symmetry-breaking dynamics in a tautomeric 3D covalent organic framework Yangyang Xu,# Tu Sun,# Tengwu Zeng,# Xiangyu Zhang, Xuan Yao, Shan Liu, Zhaolin Shi, Wen Wen, Yingbo Zhao, Shan Jiang, Yanhang Ma & Yue-Biao Zhang*, Nat. Comm. 2023, 14: 4215. Solid-state NMR spectroscopy at ultrahigh resolution for structural and dynamical studies of MOFs Qing Wang, Min Peng, Cong-Cong Liang, Jing Tan, Sophia Zhang, Yue-Biao Zhang*, and Haiming Liu*, Mag. Res. Lett.2023, DOI: 10.1016/j.mrl.2023.02.002. Functionality-Induced Locking of Zeolitic Imidazolate Frameworks Tongtong Xu, Beibei Zhou, Yu Tao, Zhaolin Shi, Wentao Jiang, Mahmoud Abdellatief, Kyle E. Cordova, and Yue-Biao Zhang*, Chem. Mater. 2023, 35, 490-498. Guest-Adaptive Molecular Sensing in a Dynamic 3D Covalent Organic Framework Lei Wei,# Tu Sun,# Zhaolin Shi, Zezhao Xu, Wen Wen, Shan Jiang, Yingbo Zhao,* Yanhang Ma,* and Yue-Biao Zhang*, Nature Commun. 2022, 13, 7936. Zeolite NPO-Type Azolate Frameworks, Xiangyi Zha,# Xinhao Li,# Abdulhadi A. Al-Omari,# Shan Liu, Cong-Cong Liang, Ala’a Al-Ghourani, Mahmoud Abdellatief, Jingjing Yang, Ha L. Nguyen, Bassem Al-Maythalony,* Zhaolin Shi,* Kyle E. Cordova,* and Yue-Biao Zhang*, Angew. Chem. Int. Ed. 2022, 61, Early view, DOI: 10.1002/anie.202207467. Synergistic Stimulation of Metal−Organic Frameworks for Stable Super-cooled Liquid and Quenched Glass, Zheng Yin, Yingbo Zhao, Shuang Wan, Jian Yang, Zhaolin Shi, Si-Xu Peng, Ming-Zhu Chen, Tian-Yi Xie, Teng-Wu Zeng, Osamu Yamamuro, Masami Nirei, Hiroshi Akiba, Yue-Biao Zhang*, Hai-Bin Yu*, and Ming-Hua Zeng*，J. Am. Chem. Soc. 2022, ASAP, DOI: 10.1021/jacs.2c04532 Docking MOF Crystals on Graphene Support for Highly Selective Electrocatalytic Peroxide Production, Xiaofeng Huang, Peter Oleynikov, Hailong He, Alvaro Mayoral, Linqin Mu, Feng Lin, and Yue-Biao Zhang*, Nano Res. 2022, 15, 145-152. Acidic Metal−Organic Framework Empowered Precise Hydrodeoxygenation of Bio-Based Furan Compounds and Cyclic Ethers for Sustainable Fuels, Dong-Huang Liu,# Hai-Long He,# Jun-Jie Wang, Si-Yu Zhou, Tengwu Zeng, Xiang-Yu Gao, Yao Xiao, Xianfeng Yi, Anmin Zheng, Yue-Biao Zhang* and Zhi Li*, Green Chem. 2021, 23, 9974–9981. A Three-Dimensional sp2 Carbon-Conjugated Covalent Organic Framework, Shitao Wang*, Xiang-Xiang Li, Ling Da, Yaqin Wang, Zhehao Xiang, Wei Wang, Yue-Biao Zhang*, Dapeng Cao*, J. Am. Chem. Soc. 2021, 143, 15562–15566. Tracking Ultrafast Fluorescence Switch-on and Color-tuned Dynamics in Acceptor-donor-acceptor Chromophore, Wenqi Xu#, Lei Wei#, Zhengxin Wang, Ruixue Zhu, Jiaming Jiang, Huiyan Liu, Juan Du, Tsu-Chien Weng, Yue-Biao Zhang*, Yifan Huang*, and Weimin Liu*, J. Phys. Chem. B 2021, 125, 38, 10796-10804. Control over Interpenetration for Boosting Methane Storage Capacity in Metal‒Organic Frameworks, Jing Tan#, Yu Tao#, Xiangyu Zhang#, Qing Wang, Tengwu Zeng, Zhaolin Shi, Kyle Ellis Cordova, Yongjin Lee*, Haiming Liu* and Yue-Biao Zhang*, J. Mater. Chem. A, 2021, 9, 24857 - 24862. Fine-Tuning the Micro-Environment to Optimize the Catalytic Activity of Enzymes Immobilized in Multivariate Metal–Organic Frameworks, Yi-Ming Li, Jian Yuan*, Hao Ren, Chun-Yan Ji, Yu Tao, Yahui Wu, Lien-Yang Chou, Yue-Biao Zhang*, and Lin Cheng*, J. Am. Chem. Soc. 2021, 143, 15378–15390. Thiazolo[5,4-d]thiazole-Based Donor-Acceptor Covalent Organic Frameworks for Sunlight-Driven Hydrogen Evolution, Wenqian Li,# Xiaofeng Huang,# Tengwu Zeng, Yahu A. Liu, Weibo Hu, Hui Yang,* Yue-Biao Zhang,* and Ke Wen,* Angew. Chem. Int. Ed. 2021, 60, 1869−1874. Docking of Cu(I) and Ag(I) in Metal-Organic Frameworks for Adsorption and Separation of Xenon, Haoze Wang,# Zhaolin Shi,# Jingjing Yang,# Tu Sun, Bunyarat Rungtaweevoranit, Hao Lyu, Yue-Biao Zhang,* and Omar M. Yaghi,* Angew. Chem. Int. Ed. 2021, 60, 3417−3421. Diverse Crystal Size Effects in Covalent Organic Frameworks, Tianqiong, Ma, Lei Wei, Shawn Yin, Le Xu, Jing Niu, Huadong Xue, Xiaoge Wang, Junliang Sun,* Yue-Biao Zhang,* and Wei Wang,* Nature Commun. 2020, 11: 6128. Direct-Space Structure Determination of Covalent Organic Frameworks from 3D Electron Diffraction Data, Tu Sun, Colan E. Hughes, Linshuo Guo, Lei Wei, Kenneth D. M. Harris,* Yue-Biao Zhang,* and Yanhang Ma,* Angew. Chem. Int. Ed. 2020, 59, 22638-22644. Robust Metal–Triazolate Frameworks for CO2 Capture from Flue Gas, Zhaolin Shi, Yu Tao, Jiasheng Wu, Cuizheng Zhang, Hailong He, Liuliu Long, Yongjin Lee, Tao Li, and Yue-Biao Zhang,*J. Am. Chem. Soc. 2020, 142, 2750−2754. Atomic-Level Characterization of Dynamics of a 3D Covalent Organic Framework by Cryo-Electron Diffraction Tomography, Tu Sun,# Lei Wei,# Yichong Chen, Yanhang Ma* and Yue-Biao Zhang,* J. Am. Chem. Soc. 2019, 141, 10962–10966. Guest-Dependent Dynamics in a 3D Covalent Organic Framework, Yichong Chen,# Zhaolin Shi,# Lei Wei,# Beibei Zhou, Jing Tan, Hao-Long Zhou,* and Yue-Biao Zhang,* J. Am. Chem. Soc. 2019, 141, 3298−3303. Cooperative Capture of Uranyl Ion by a Carbonyl-Bearing Hierarchical-Porous Cu-Organic Framework, Xiao-Feng Wang,* Yangyang Chen, Li-Ping Song, Zhen Fang, Jian Zhang, Fanian Shi, YinWu Lin,* Yunkai Sun, Yue-Biao Zhang,* and João Rocha,* Angew. Chem. Int. Ed. 2019, 58, 18808−18812. An Allosteric Metal‐Organic Framework Exhibits Multiple Pore Configurations for the Optimization of Hydrocarbon Separation, Beibei Zhou, Tengwu Zeng, Zhaolin Shi, Gen Zhang, Satoshi Horike, Yue-Biao Zhang,* Chem. Asian J. 2019, 14, 3552–3556. Charge-switchable Metal-organic Framework for Size/Charge-selective Molecular Inclusions, Bei-Bei Yuan, Bei-Bei Zhou, and Yue-Biao Zhang,* and Jian-Lin Shi, J. Inorg. Mater. 2018, 33, 352. Secondary-Amine-Functionalized Isoreticular Metal–Organic Frameworks for Controllable and Selective Dye Capture, Jing Tan#, Beibei Zhou#, Congcong Liang, Hannah Zinky, Hao-Long Zhou, and Yue-Biao Zhang,* Mater. Chem. Front. 2018, 2, 129–135. Engineering of Pore Geometry for Ultrahigh Capacity Methane Storage in Mesoporous Metal–Organic Frameworks, Cong-Cong Liang,# Zhao-Lin Shi,# Chun-Ting He,# Jing Tan, Hu-Die Zhou, Hao-Long Zhou, Yongjin Lee, and Yue-Biao Zhang,* J. Am. Chem. Soc. 2017, 139, 13300–13303. A Dynamic Three-Dimensional Covalent Organic Framework, Yun-Xiang Ma,# Zhi-Jun Li,# Lei Wei, San-Yuan Ding, Yue-Biao Zhang,* and Wei Wang,* J. Am. Chem. Soc. 2017, 139, 4995–4998.