章跃标课题组介绍
课题组长 |
章跃标 常任副教授 | 研究员 | 博导 电子邮箱:zhangyb@shanghaitech.edu.cn 通讯地址:上海市浦东新区华夏中路393号物质学院2号楼505A 研究方向:多孔框架材料与碳中和能源应用 个人简介: 现任上海科技大学物质学院课题组长、研究员、博导、常任副教授;国家优青、上海领军人才、上海优秀学术带头人。2011年博士毕业于中山大学(导师:陈小明院士);2011-2015年在美国加州大学伯克利分校等从事博士后研究(合作导师:Omar M. Yaghi院士);2015年加入上海科技大学物质学院,任课题组长、研究员和助理教授(Tenure Track),2022年晋升为常任副教授。主要从事多孔框架材料与碳中和能源应用,在动态共价有机框架、多基元金属有机框架、微孔金属多氮唑框架等新材料的设计,及其在能源存储(储气、储氢、储热)和环境治理(烟道气碳捕集、直接空气捕集和空气集水)等功能应用取得了系列研究成果,以通讯作者(或共通作者)在PNAS、Nat. Comm.、JACS、Angew. Chem.、ACS Centr. Sci.、Chem. Mater.等国际知名学术期刊发表研究论文超过30篇,所有论文SCI他引累计超过15,000次,ESI高被引论文超过10篇,H指数达到50。 主讲课程:《结晶化学》、《固体化学》、《材料科学基础1》 学术服务:《Nano Research》Young Star Editor、《结构化学》青年编委、 荣誉奖项: ● 上海市优秀学术带头人(2021年度) ● 上海市青年五四奖章(2019年度) ● 广东省自然科学一等奖(2019年度,5/7) ● ICCDU XV Outstanding Young Research Award(2017年) ● NSFC优秀青年科学基金项目资助(2016-2018年) ● 广东省自然科学一等奖(2012年度,5/5) ● 广东省优秀博士学位论文(2012年度) ● 教育部博士研究生学术新人奖(2010年) |
研究兴趣 |
多孔框架材料与碳中和能源应用
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。
参考书目:
1. (a) 《分子筛与多孔材料化学》,徐如人, 庞文琴, 于吉红, 著 北京:科学出版社, 2004.
(b) 《有序介孔分子筛材料》,赵东元、万颖、周午纵 著,北京:高等教育出版社,2013.
(c) 《金属-有机框架材料》,陈小明,张杰鹏,等编著 北京: 化学工业出版社,2017.
(d)《配位聚合物化学》,卜显和 等编著,北京: 科学出版社, 2019.
(e) 《Introduce to Reticular Chemistry: Metal–Organic Frameworks and Covalent Organic Frameworks》, O. M. Yaghi, M. J. Kalmutzki, C. S. Diercks, Weinheim: Wiely-VCH, 2019.
2. (a)《Adsorption by Powders and Porous Solids: Principles, Methodology and Applications, 2nd Ed》J. Rouquerol, F. Rouquerol, P. Llewellyn, G. Maurin, K. Sing, Academic Press: 2013.
(b)《Characterization of Porous Solids and Powders: Surface Area, Pore Size and Density》, S. Lowell, J. E. Shields, M. A. Thomas, M. Thommes, Springer: 2004.
(c) 《Gas Adsorption in Metal-Organic Frameworks: Fundamentals and Applications》, T. Grant Glover, Bin Mu, CRC Press: 2019
(d) Physisorption of gases, with special reference to the evaluation of surface area and pore size distribution (IUPAC Technical Report) M. Thommes, K. Kaneko, A. V. Neimark, J. P. Olivier, F. Rodriguez-Reinoso, J. Rouquerol, K. S.W. Sing, Pure Appl. Chem.2015, 87, 1051-1069.
3. (a) 《Crystal Structures: Patterns and Symmetry》, M. O'Keeffe, B. G. Hyde, Dover: 20202.
(b)《X-ray Crystallography》,G. S. Girolami, University Science Books: 2016.
论文发表 |
Accumulated Citations >16,600, H-index 53, ESI Highly Cited Papers 15, Hot Papers 2
Independent research: | ||
33. Single-Crystal Dynamic Covalent Organic Frameworks for Adaptive Guest Alignments | ||
Lei Wei, Shitao Wu, Chengji Li, Chenyu Liu, Hao Chen, Yue-Biao Zhang*, Fan Zheng*, Yanhang Ma*, and Yingbo Zhao*, J. Am. Chem. Soc. 2024, 146, 31384–31390. | ||
Baoqiu Yu, Yu Tao, Xuan Yao, Yucheng Jin, Shan Liu, Tongtong Xu, Hailong Wang,* Hui Wu, Wei Zhou, Xin Zhou, Xu Ding, Xiao Wang, Xin Xiao, Yue-Biao Zhang*, Jianzhuang Jiang*, J. Am. Chem. Soc. 2024, 146, 28932–28940. | ||
Tongtong Xu, Wentao Jiang, Yu Tao, Mahmoud Abdellatief, Kyle E. Cordova, Yue-Biao Zhang*, J. Am. Chem. Soc. 2024, 146, 11225–11234. | ||
29. Encoding ordered structural complexity to covalent organic frameworks Lei Wei#, Xinyue Hai#, Tongtong Xu, Zidi Wang, Wentao Jiang, Shan Jiang, Qisheng Wang, Yue-Biao Zhang*, Yingbo Zhao*, Nat. Comm. 2024, 15: 2411. | ||
28. Atomic Observation and Structural Evolution of Covalent Organic Framework Rotamers Tengwu Zeng,# Yang Ling,# Wentao Jiang,# Xuan Yao, Yu Tao, Shan Liu, Huiyu Liu, Tieying Yang, Wen Wen, Shan Jiang, Yingbo Zhao, Yanhang Ma, Yue-Biao Zhang*, PNAS 2024, 121: e2320237121. | ||
27. Highly Enantioselective Catalysis by Enzyme Encapsulated in Metal Azolate Frameworks with Micelle-Controlled Pore Sizes Hao Ren, Jian Yuan*, Yi-Ming Li, Wen-Jing Li, Yi-Hang Guo, Yi-Bo Zhang, Bing-Hao Wang, Kaili Ma, Lu Peng, Guping Hu, Wen-Qi Wang, Hailong He, Lien-Yang Chou, Ming-Hua Zeng, Yue-Biao Zhang*, and Lin Cheng*, ACS Cent. Sci. 2024, 10, 358–366. | ||
26. 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, 146, 1035-1041. | ||
25. 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, and Yue-Biao Zhang*, Nat. Comm. 2023, 14: 4215. | ||
24. 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, 3, 175-186. | ||
23. 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. (Selected as Front Cover) | ||
22. 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 Comm. 2022, 13, 7936. | ||
21. 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, e202207467. (Hot paper, Highlighted as Back Cover) | ||
20. 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, 144, 13021–13025. (highlighted as Supplementary Cover) | ||
19. 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. (Highlighted as Front Cover) | ||
18. 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. | ||
17. A Three-Dimensional sp2 Carbon-Conjugated Covalent Organic Framework Shitao Wang*, Xiang-Xiang Li, Ling Da, Yaqin Wang, Zhao Xiang, Wei Wang, Yue-Biao Zhang*, Dapeng Cao*, J. Am. Chem. Soc. 2021, 143, 15562–15566. | ||
16. 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. (Highlighted as Supplementary Journal Cover) | ||
15. 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. (Highlighted as Back Cover) | ||
14. 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. | ||
13. 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. (Very Important Paper, highlighted as Front Cover, ESI Highly Cited Paper) | ||
12. 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. (Highlighted as Inside Back Cover, ESI Highly Cited Paper) | ||
11. 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. | ||
10. 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. | ||
9. 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. (Highlighted by ChemistryViews and JACS Editorial, ESI Highly Cited Paper) | ||
8. 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. (Highlighted as Supplementary Journal Cover) | ||
7. 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. | ||
6. 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. (Hot Paper) | ||
5. 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. | ||
4. 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. | ||
3. 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. (Emerging Investigators-themed collection) | ||
2. 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. (Highlighted by Nature Research) | ||
1. 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. | ||
Reviews: | ||
9. Recent progress in metal-organic frameworks (Part II material application) Jiandong Pang#, Wentao Jiang#, Xue-Wen Zhang#, Hao-Long Zhou#, Yuxiu Sun#, Wei Gong#, Bin Wang#, Fuyin Ma#, Linwei He#, Long Chen#, Qiang Chen#, He-Qi Zheng#, Yuanjing Cui#, Wen-Jie Shi#, Chao Zhang#, Mei Wang#, Yue-Biao Zhang*, Jie-Peng Zhang*, Chongli Zhong*, Yong Cui*, Shuao Wang*, Jian-Rong Li*, Guodong Qian*, Tong-Bu Lu*, Huan Pang*, Xian-He Bu*, Sci. Chin. Chem. 2024, DOI: 10.1007/s11426-024-2458-3 | ||
8. Multivariate Metal–Organic Frameworks for Programming Functions Wentao Jiang, Cong-Cong Liang, Yue-Biao Zhang*, Adv. Funct. Mater. 2024, 34: 202308946. | ||
7. Flexible Metal–Organic Frameworks as CO2 Adsorbents en Route to Energy-Efficient Carbon Capture Xuan Yao, Kyle E. Cordova, and Yue-Biao Zhang*, Small Structures 2022, 3: 2100209 | ||
6. Covalent Organic Frameworks for Sunlight-driven Hydrogen Evolution Xiaofeng Huang* and Yue-Biao Zhang*, Chem. Lett. 2021, 50, 676-686. (Highlighted as Inside Cover) | ||
5. Reticular Materials for Electrochemical Reduction of CO2 Xiaofeng Huang and Yue-Biao Zhang,* Coordin. Chem. Rev. 2021, 427, 213564. | ||
4. Anisotropic Reticular Chemistry Wentao Xu, Binbin Tu, Qi Liu, Yufei Shu, Cong-Cong Liang, Christian S. Diercks, Omar M. Yaghi*, Yue-Biao Zhang,* Hexiang Deng,* and Qiaowei Li*, Nat. Rev. Mater. 2020, 5, 764-779. (Highlighted as Front Cover) | ||
3. Unravelling Crystal Structures of Covalent Organic Frameworks by Electron Diffraction Tomography Tu Sun, Lei Wei, Yanhang Ma,* and Yue-Biao Zhang,*Chin. J. Chem. 2020, 38, 1153-1166. (J&K Critical Review, Highlighted as Front Cover) | ||
2. Renaissance of the Methane Adsorbents Zhaolin Shi and Yue-Biao Zhang,* Isr. J. Chem. 2018, 58, 985–994. (Invited Review in Special Issue for Reticular Chemistry) | ||
1. Crystallization of Covalent Organic Frameworks for Gas Storage Applications Lijuan Zhu and Yue-Biao Zhang,* Molecules 2017, 22, 1149–1178. (Invited Review) | ||
Essays: | ||
2. MOF Adsorbents Capture CO2 on an Industrial Scale Zhaolin Shi, Xinhao Li, Xuan Yao, and Yue-Biao Zhang*, Sci. Bull. 2022, 67, 885-887. (Research Highlight) | ||
1. Reticular Chemistry at the Atomic, Molecular, and Framework Scales Yue-Biao Zhang,* Qiaowei Li,* and Hexiang Deng,* Nano Res. 2021, 14, 335-337. (Editorial, Special Issue on Reticular Chemistry) | ||
Before ShanghaiTech: | ||
14. Principles of Designing Extra-Large Pore Openings and Cages in Zeolitic Imidazolate Frameworks Jingjing Yang,# Yue-Biao Zhang,# Qi Liu, Christopher A. Trickett, Enrique Gutiérrez-Puebla, M. Ángeles Monge, Hengjiang Cong, Abdulrahman Aldossary, Hexiang Deng,* and Omar M. Yaghi,* J. Am. Chem. Soc. 2017, 139, 6448–6455. | ||
13. High Methane Storage Working Capacity in Metal–Organic Frameworks with Acrylate Links Juncong Jiang#, Hiroyasu Furukawa#, Yue-Biao Zhang, and Omar M. Yaghi*, J. Am. Chem. Soc. 2016, 138, 10244–10251. (ESI highly cited paper) | ||
12. Covalent Organic Frameworks Comprising Cobalt Porphyrins for Catalytic CO2 Reduction in Water Song Lin,# Christian S. Diercks,# Yue-Biao Zhang,# Nikolay Kornienko, Eva M. Nichols, Yingbo Zhao, Aubrey R. Paris, Dohyung Kim, Peidong Yang, Omar M. Yaghi,* and Christopher J. Chang,* Science 2015, 349, 1208‒1213. (Highlighted by Science News, Nature Mater., and MIT Tech. Rev.; ESI highly cited paper) | ||
11. Introduction of Functionality, Selection of topology, and Enhancement of Gas Adsorption in Multivariate Metal–Organic Framework-177 Yue-Biao Zhang, Hiroyasu Furukawa, Nakeun Ko, Weixuan Nie, Hye Jeong Park, Satoshi Okajima, Kyle E Cordova, Hexiang Deng,* Jaheon Kim,* and Omar M Yaghi,* J. Am. Chem. Soc. 2015, 137, 2641‒2650. (ESI Highly Cited Paper) | ||
10. Tunable Electrical Conductivity in Oriented Thin Films of Tetrathiafulvalene-based Covalent Organic Framework Song-Liang Cai#, Yue-Biao Zhang#, Andrew B. Pun, Bo He, Jinhui Yang, Francesca M. Toma, Ian D. Sharp, Omar M. Yaghi, Jun Fan, Sheng-Run Zheng, Wei-Guang Zhang* and Yi Liu*, Chem. Sci. 2014, 5, 4693–4700. (ESI Highly Cited Paper) | ||
9. Water Adsorption in Porous Metal–Organic Frameworks and Related Materials Hiroyasu Furukawa#, Felipe Gándara#, Yue-Biao Zhang, Juncong Jiang, Wendy L. Queen, Matthew R. Hudson, and Omar M. Yaghi*, J. Am. Chem. Soc. 2014, 136, 4369–4381. (ESI Highly Cited Paper) | ||
8. Superacidity in Sulfated Metal–Organic Framework-808 Juncong Jiang, Felipe Gándara, Yue-Biao Zhang, Kyungsu Na, Omar M. Yaghi*, and Walter G. Klemperer*, J. Am. Chem. Soc.2014, 136, 12844–12847. (ESI Highly Cited Paper) | ||
7. Supercapacitors of Nanocrystalline Metal–Organic Frameworks Kyung Min Choi, Hyung Mo Jeong, Jung Hyo Park, Yue-Biao Zhang, Jeung Ku Kang*, and Omar M. Yaghi*, ACS Nano2014, 8, 7451–7457. (ESI Highly Cited Paper) | ||
6. Single-Crystal Structure of a Covalent Organic Framework Yue-Biao Zhang,# Jie Su,# Hiroyasu Furukawa, Yifeng Yun, Felipe Gándara, Adam Doung, Xiaodong Zou,* Omar M. Yaghi,* J. Am. Chem. Soc. 2013, 135, 16336‒16339. (ESI Highly Cited Paper) | ||
5. Toward a Single-Layer Two-Dimensional Honeycomb Supramolecular Organic Framework in Water Kang-Da Zhang, Jia Tian, David Hanifi, Yuebiao Zhang, Andrew Chi-Hau Sue, Tian-You Zhou, Lei Zhang, Xin Zhao*, Yi Liu*, and Zhan-Ting Li*, J. Am. Chem. Soc.2013, 47, 17913–17918. (ESI Highly Cited Paper) | ||
4. Porous Coordination Polymers constructed from Anisotropic Metal-Carboxylate-Pyridyl Clusters Yue-Biao Zhang, Jie-Peng Zhang,* Pure. Appl. Chem. 2013, 85, 405-416. | ||
3. Metal Azolate Frameworks: From Crystal Engineering to Functional Materials Jie-Peng Zhang,* Yue-Biao Zhang, Jian-Bian Lin, Xiao-Ming Chen,* Chem. Rev. 2012, 112, 1001-1033. (ESI Highly Cited Paper) | ||
2. Geometry Analysis and Systematic Synthesis of Highly Porous Isoreticular Frameworks with a Unique Topology Yue-Biao Zhang, Hao-Long Zhou, Rui-Biao Lin, Jie-Peng Zhang,* Xiao-Ming Chen, Nature Comm. 2012, 3: 642. | ||
1. A Highly Connected Porous Coordination Polymer with Unusual Channel Structure and Sorption Properties Yue-Biao Zhang, Wei-Xiong Zhang, Fei-Yue Feng, Jie-Peng Zhang,* and Xiao-Ming Chen,* Angew. Chem. Int. Ed. 2009, 48, 5287–5290. (Highlighted by Nature Chem.) |
(#These authors contributed equally; *Corresponding author)
Contributed papers:
48. Ethane Triggered Gate-Opening in a Flexible-Robust Metal-Organic Framework for Ultra-High Purity Ethylene Purification
Lu Zhang, Bin Yu, Meng Wang, Yang Chen, Yong Wang, Lin-Bing Sun, Yue-Biao Zhang, Zhenjie Zhang, Jinping Li, and Libo Li*, Angew. Chem. Int. Ed.2024, e202418853.
47. Determining Covalent Organic Framework Structures Using Electron Crystallography and Computational Intelligence
Xiangyu Zhang, Junyi Hu, Huiyu Liu, Tu Sun, Zidi Wang, Yingbo Zhao, Yue-Biao Zhang, Ping Huai, Yanhang Ma*, and Shan Jiang* J. Am. Chem. Soc. 2024, DOI: 10.1021/jacs.4c12757
46. Ultrahigh–Surface Area Covalent Organic Frameworks for Methane Adsorption
Ying Yin#, Ya Zhang#, Xu Zhou#, Bo Gui, Wenqi Wang, wentao Jiang, Yue-Biao Zhang, Junliang Sun*, and Cheng Wang*, Science 2024, 386, 693-696.
45. Facile fabrication of recyclable robust noncovalent porous crystals from low-symmetry helicene derivative
Guoli Zhang, Jian Zhang, Yu Tao, Fuwei Gan, Geyu Lin, Juncong Liang, Chengshuo Shen,* Yuebiao Zhang & Huibin Qiu*,Nat. Comm. 2024, 15: 5469.
44. Constructing Photocatalytic Covalent Organic Frameworks with Aliphatic Linkers
Ting Xu, Zhiqiang Wang, Weiwei Zhang*, Shuhao An, Lei Wei, Shaomeng Guo, Yanlin Huang, Shan Jiang, Minghui Zhu, Yue-Biao Zhang, and Wei-Hong Zhu*, J. Am. Chem. Soc. 2024, 146, 29, 20107–20115.
43. Topology Prediction of Gas-Separating Metal−Organic Frameworks with Low Symmetry Vertices
Yichen Wu, Huoshu Xu, Xinhao Li, Yin Rao, Sailin Yuan, Yu Yan, Yue-Biao Zhang, Qiaowei Li*, Small 2024, DOI: 10.1002/smll.202402314
42. An Ultrastable, Easily Scalable and Regenerable Macrocycle-Based Hydrogen-Bonded Organic Framework
Zhi-Wei Li, Zi-Jun Huang, Ying-Xian Li, Xiaomei Wu, Wen Shi, Yue-Biao Zhang, Xiaomin Ma, Gangfeng Ouyang,* Bao-Hui Ye, Gao-Feng Liu*, and Xiao-Ming Chen, CCS Chemistry 2024, DOI: 10.31635/ccschem.024.202404150
41.Polymer coating assisted shaping of metal–organic framework particles into pellets with enhanced methane uptake
Chunhui Wu, * Xinxin Chu, Dejun Dai, Xiaoling Wu, Dongxu Wang, Yu Tao, Yue-Biao Zhang, and Tao Li* , Sustainable Energy Fuels 2024, 8, 1636-1640.
40. Directing Molecular Weaving of Covalent Organic Frameworks and Their Dimensionality by Angular Control
Xing Han, S Ephraim Neumann, Brent L Nannenga, Kaiyu Wang, Kelvin Kam-Yun Li, Saber Mirzaei, Xuan Yao, Chenhui Zhu, Mei-Yan Gao, Yue-Biao Zhang, Yong Cui,
Omar M Yaghi*, J. Am. Chem. Soc. 2023, 145, 22885-22889.
39. Molecular weaving of chicken-wire covalent organic frameworks
Xing Han, Tianqiong Ma, Brent L Nannenga, Xuan Yao, S Ephraim Neumann, Punit Kumar, Junpyo Kwon,Zichao Rong, Kaiyu Wang, Yuebiao Zhang, Jorge AR Navarro,
Robert O Ritchie, Yong Cui*, Omar M Yaghi*, Chem 2023, 9, 2509-2517.
38. Extrinsic compensation on separation performance of layer-by-layer nanofiltration membrane
Shanshan Xu, Rongrong He, Jiarui Chen, Juan Luo, Hao Chen, Shihong Lin, Yue-Biao Zhang, Tao He*, Desalination2023, 564, 116786
37. Lithium extraction from geothermal brine by granulated HTO titanium-based adsorbent with block-co-polymer poly (ethylene-co-vinyl alcohol)(EVAL) as binder
Chunyao Zhang, Jiaru Yao, Wentao Zhai, Hao Chen, Hialong He, Yue-Biao Zhang, Tao He*, Chem. Engin. J. 2023, 466: 143526.
36. Positive role of sulfonated PEEK coating for PEEK membrane in mass transfer of lithium extraction
Wei Li, Bingyang Bai, Jianfeng Song*, Tao Huang, Hailong He, Yue-Biao Zhang, Tao He*, Desalination 2023, 552: 16451.
35. Establishing gas transport highways in MOF-based mixed matrix membranes
Conger Li, Anheng Qi, Yang Ling, Yu Tao, Yue-Biao Zhang, Tao Li*, Science Adv. 2023, 9: eadf508.
34. Stable fouling resistance of polyethylene (PE) separator membrane via oxygen plasma plus zwitterion grafting
Wentao Zhai, Hanwei Yu, Hao Chen, Le Li, Dongdong Li, Yuebiao Zhang, Tao He*, Separ. Purif. Tech. 2022, 293: 121091.
33. Layer-by-layer (LBL) hollow fiber nanofiltration membranes for seawater treatment: ion rejection
Chenjun Dong, Rongrong He, Shanshan Xu, Hailong He, Hao Chen, Yue-Biao Zhang, Tao He*, Desalination2022, 534: 115793.
32. Polyethylene separator supported thin-film composite forward osmosis membranes for concentrating lithium enriched brine
Nan Sun, Pengjia Dou*, Wentao Zhai, Hailong He, Long D Nghiem, Vahid Vatanpour, Yuebiao Zhang, Changkun Liu, Tao He*, Water Res.2022, 216: 118297.
31. Concentrating phosphoric acid by direct contact membrane distillation using a low-cost polyethylene separator
Yidan Wang, Hanwei Yu, Xing Yang*, Li Liu, Shanshan Xu, Hailong He, Yuebiao Zhang, Tao He*, Desalination 2022, 530: 115664.
30. Acid stable layer-by-layer nanofiltration membranes for phorsphoric and purification
S. Xu, R. He, C. Dong, N. Sun, S. Zhao, H. He, H. Yu, Y.-B. Zhang, T. He*, J. Membr. Sci. 2022, 644:120090.
29. Layer-by-layers (LBL) hollow fiber nanofiltration membrances for seawater treatment: Ion rejection
C. Dong, R. He, S. Xu, H. He, H. Chen, Y.-B. Zhang, T. He*, Desalination 2022, 534: 115793.
28. Reconstructed covalent organic frameworks
Weiwei Zhang, Linjiang Chen, Sheng Dai, Chengxi Zhao, Cheng Ma, Lei Wei, Minghui Zhu, Samantha Y. Chong, Haofan Yang, Lunjie Liu, Yang Bai, Miaojie Yu, Yongjie Xu, Xiao-Wei Zhu, Qiang Zhu, Shuhao An, Reiner Sebastian Sprick, Marc A. Little, Xiaofeng Wu, Shan Jiang, Yongzhen Wu, Yue-Biao Zhang, He Tian, Wei-Hong Zhu*, and Andrew I. Cooper*, Nature 2022, 604, 72-79. (Highlighted by Matter and Sci. China Chem., ESI Highly Cited Paper)
27. Concentrating phosphoric acid by direct contact membrane distillation using a low-cost polyethylene separator
Yidan Wang, Hanwei Yu, Xing Yang, Li Liu, Shanshan Xu, Hailong He, Yue-Biao Zhang, and Tao He*, Desalination 2022, 530, 115664.
26. Acid stable layer-by-layer nanofiltration membranes for phosphoric acid purification
Shanshan Xu, Rongrong He, Chenjun Dong, Nan Sun, Shuwei Zhao, Hailong He, Hanwei Yu, Yue-Biao Zhang, and Tao He*, J. Membr. Sci. 2022, 644, 120090.
25. An Exceptional Thermally-Induced Four-State Nonlinear-Optical Switch Arising from Stepwise Molecular Dynamic Changes in a New Hybrid Salt
Ying Zeng, Chun-Li Hu, Wei-Jian Xu, Teng-Wu Zeng, Zhao-Xiang Zhu, Xiao-Xian Chen, De-Xuan Liu, Yu-Jie Chen, Yue-Biao Zhang, Wei-Xiong Zhang*, and Xiao-Ming Chen, Angew. Chem. Int. Ed. 2022, 61, e202110082.
24. Coordination Modulated On-Off Switching of Flexibility in a Metal-organic Framework
Jorge Albalad, Ricardo Peralta, Michael Huxley, Steven Tsoukatos, Zhaolin Shi, Yue-Biao Zhang, Jack D. Evans, Christopher J Sumby*, and Christian J Doonan*, Chem. Sci. 2021, 12, 14893-14900.
23. New Reticular Chemistry of the Rod Secondary Building Unit: Synthesis, Structure, and Natural Gas Storage of a Series of Three-Way Rod Amide-Functionalized Metal–Organic Frameworks
Yu-Feng Zhang, Zong-Hui Zhang, Logan Ritter, Han Fang, Qian Wang, Brian Space, Yue-Biao Zhang, Dong-Xu Xue*, and Junfeng Bai*, J. Am. Chem. Soc. 2021, 143, 12202-12211.
22. Physicochemical Understanding of the Impact of Pore Environment and Species of Adsorbates on Adsorption Behaviour
Hae Sung Cho,* Hideki Tanaka, Yongjin Lee, Yue-Biao Zhang, Juncong Jiang, Minho Kim, Hyungjun Kim, Jeung Ku Kang, and Osamu Terasaki*, Angew. Chem. Int. Ed. 2021, 60, 20504.
21. Mitigation of gypsum and silica scaling in membrane distillation by pulse flow operation
Li Liu, Hailong He, Yidan Wang, Tiezheng Tong, Xuemei Li, Yue-Biao Zhang, Tao He,* J. Membr. Sci. 2021, 624: 119107.
20. Enhancing the Gas Separation Selectivity of Mixed-Matrix Membranes Using a Dual-Interfacial Engineering Approach
Chunhui Wu, Kexin Zhang, Hongliang Wang, Yaqi Fan, Songwei Zhang, Sanfeng He, Fang Wang, Yu Tao, Xiaowen Zhao, Yue-Biao Zhang, Yanhang Ma, Yongjin Lee, and Tao Li*, J. Am. Chem. Soc. 2020, 142, 43, 18503–18512.
19. How to Create MOF Glasses and Take Advantage of Emerging Opportunities
Zheng Yin, Yue-Biao Zhang, Hai-Bin Yu, Ming-Hua Zeng,* Sci. Bull. 2020, 65, 1432-1435.
18. Oxidative Aromatization of Biobased Chemicals to Benzene Derivatives through Tandem Catalysis
Donghuan Liu, Hai-Long He, Yue-Biao Zhang, Zhi Li,* ACS Sustain. Chem. Engin. 2020, 8, 38, 14322–14329.
17. Anion Exchange-Induced Well Dispersion of Cobalt Porphyrins in a Cationic Porous Organic Polymer for Enhanced Electrochemical CO2 Reduction via Secondary-Coordination Sphere Interactions
Jia-Kang Tang, Chen-Yuan Zhu, Tian-Wen Jiang, Lei Wei, Hui Wang, Ke Yu, Chun-Lei Yang, Yue-Biao Zhang, Chen Chen, Zhan-Ting Li, Dan-Wei Zhang,* Li-Ming Zhang,* J. Mater. Chem. A 2020, 8, 18677-18686.
16. Water-Soluble Flexible Organic Frameworks That Include and Deliver Proteins
Jia-Le Lin, Ze-Kun Wang, Zi-Yue Xu, Lei Wei, Yun-Chang Zhang,* Hui Wang, Dan-Wei Zhang, Wei Zhou, Yue-Biao Zhang, Yi Liu,* and Zhan-Ting Li*, J. Am. Chem. Soc. 2020, 142, 3577–3582.
15. Water-Soluble 3D Covalent Organic Framework that Displays an Enhanced Enrichment Effect of Photosensitizers and Catalysts for the Reduction of Protons to H2
Zhong-Zheng Gao, Ze-Kun Wang, Lei Wei, Guangqiang Yin, Jia Tian, Chuan-Zhi Liu, Hui Wang, Dan-Wei Zhang, Yue-Biao Zhang, Xiaopeng Li, Yi Liu,* and Zhan-Ting Li,* ACS Appl. Mater. Interfaces 2020, 12, 1404–1411.
14. Improvement of Permeability and Rejection of an Acid Resistant Polysulfonamide Thin-Film Composite Nanofiltration Membrane by a Sulfonated Poly(ether ether ketone) Interlayer
Ye Zhu, Pengjia Dou, Hailong He, Hongling Lan, Shanshan Xu, Yue-Biao Zhang, Tao He,* Jason Niu, Sep. and Purif. Tech. 2020, 239, 116528.
13. Impact of SPEEK on PEEK membranes: Demixing, Morphology and Performance Enhancement in Lithium Membrane Extraction
Tao Huang, Jianfeng Song, Hailong He, Yue-Biao Zhang, Xue-Mei Li, Tao He,* J. Membr. Sci. 2020, 615, 118448.
12. Unprecedented Scaling/Fouling Resistance of Omniphobic Polyvinylidene Fluoride Membrane with Silica Nanoparticle Coated Micropillars in Direct Contact Membrane Distillation
Zechun Xiao, Hong Guo, Hailong He, Yongjie Liu, Xuemei Li, Yue-Biao Zhang, Huabing Yin, Alexey V. Volkov, Tao He,* J. Membr. Sci. 2020, 599, 117819.
11. Covalently Connected Nb4N5-xOx-MoS2 Heterocatalysts with Desired Electron Density to Boost Hydrogen Evolution
Yang Yang, Yutong Wang, Hai-Long He, Wenjun Yan, Li Fang, Yue-Biao Zhang, Yong Qin, Run Long, Xian-Ming Zhang*, and Xiujun Fan* ACS Nano 2020, 14, 4925–4937.
10. Modulator-Induced Zr-MOFs Diversification and Investigation of Their Properties in Gas Sorption and Fe3+ Ion Sensing
Jun-Hao Wang,* Meng-Na Li, Shu Yan, Ying Zhang, Cong-Cong Liang, Xian-Ming Zhang,* and Yue-Biao Zhang, Inorg. Chem. 2020, 59, 2961-2968.
9. Isotherms of individual pores by gas adsorption crystallography
Hae Sung Cho,# Jingjing Yang,# Xuan Gong,#Yue-Biao Zhang, Koichi Momma, Bert M Weckhuysen, Hexiang Deng,* Jeung Ku Kang, Omar M Yaghi,* and Osamu Terasaki*, Nat. Chem. 2019, 11, 562‒570.
8. Robust Ethane-Trapping Metal−Organic Framework with High Capacity for Ethylene Purification
Omid T. Qazvini, Ravichandar Babarao, Zhao-Lin Shi, Yue-Biao Zhang, and Shane G. Telfer,* J. Am. Chem. Soc. 2019, 141, 5014–5020. (ESI Highly Cited Paper)
7. Harnessing Bottom-up Self-Assembly to Position Five Distinct Components in an Ordered Porous Framework
Binbin Tu, Lisa Diestel, Zhao-Lin Shi, W. R. L. Nisansala Bandara, Yi Chen, Weimin Lin, Yue-Biao Zhang, Shane G. Telfer,* and Qiaowei Li,* Angew. Chem. Int. Ed. 2019, 58, 5348–5353.
6. (003)-Facet-Exposed Ni3S2 Nanoporous Thin Films on Nickel Foil for Efficient Water Splitting
Jing Dong, Fu-Qiang Zhang, Yang Yang, Yue-Biao Zhang, Hailong He, Xiaofeng Huang, Xiujun Fan,* and Xian-Ming Zhang,* Appl. Catal. B: Environ. 2019, 243, 694–703.
5. Forward osmosis concentration of a vanadium leaching solution
Pengjia Dou, Shuwei Zhao, Jianfeng Song, Hailong He, Qianhong She,* Xue-Mei Li, Yue-Biao Zhang, Tao He,* J. Membr. Sci. 2019, 582, 167–171.
4. Slippery for scaling resistance in membrane distillation: A novel porous micropillared superhydrophobic surface
Zechun Xiao, Rui Zheng, Yongjie Liu, Hailong He, Xiaofei Yuan, Yunhui Jie, Dongdong Li, Huabing Yin, Yue-Biao Zhang, Xue-Mei Li, Tao He,* Water Res. 2019, 155, 152-161. (ESI Highly Cited Paper)
3. 3-[[3-(Triethoxysilyl)-propyl] amino] propane-1-sulfonic acid zwitterion grafted polyvinylidene fluoride antifouling membranes for concentrating greywater in direct contact membrane distillation
Jin Wang, Hailong He, Mengliang Wang, Zechun Xiao, Ying Chen, Yanqiang Wang, Jianfeng Song, Xue-Mei Li, Yue-Biao Zhang, Tao He*, Desalination 2019, 455, 71–78.
2. Organic-Inorganic Layered and Hollow Tin Bromide Perovskite with Tunable Broadband Emission
Pengfei Fu, Menglin Huang, Yuequn Shang, Na Yu, Hao-Long Zhou, Yue-Biao Zhang, Shiyou Chen,* Jinkang Gong, and Zhijun Ning,* ACS Appl. Mater. Interfaces 2018, 10, 34363–34369.
1. Supramolecular-jack-like Guest in Ultramicroporous Crystal for Exceptional Thermal Expansion Behavior
Hao-Long Zhou, Yue-Biao Zhang, Jie-Peng Zhang,* and Xiao-Ming Chen. Nature Commun. 2015, 6, 6917.
More information:
https://scholar.google.com/citations?user=fbmv8f4AAAAJ&hl=en
https://www.webofscience.com/wos/author/record/1694291
https://orcid.org/0000-0002-8270-1067
专利申请 |
PUBLISHED PATENT APPLICATIONS: 3. Zelitic Imidazolate Frameworks. Omar M. Yaghi, Jingjing Yang, Yue-Biao Zhang: PCT/US2016/063685 2. Acid, Solvent, and Thermal Resistant Metal-Organic Frameworks. Omar M. Yaghi, Seungkyu Lee, Juncong Jiang, Yue-Biao Zhang: EP15707499.8/US15116186 1. Functionalized and Multivariate BTB-based Metal-Organic Frameworks. Omar M. Yaghi, Yue-Biao Zhang, Hexiang Deng: WO 2015157239 A1 |
组内动态 |
本组成员 |
邮箱:liushan@shanghaitech.edu.cn
家乡:山东聊城
博士:上海科技大学
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家乡:江西赣州
博士:上海科技大学
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家乡:山西大同
本科:上海交通大学
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家乡:山东临沂
本科:浙江理工大学
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家乡:上海
本科:四川大学
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家乡:江苏淮安
本科:上海科技大学
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家乡:福建南平
本科:郑州大学
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家乡:江苏南通
本科:上海科技大学
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家乡:山东枣庄
本科:青岛科技大学
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家乡:陕西安康
本科:华东理工大学
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家乡:山东日照
本科:北京化工大学
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家乡:山东菏泽
本科:宁夏大学
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家乡:内蒙古呼伦贝尔
本科:天津大学
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家乡:上海
本科:上海科技大学
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家乡:上海
本科:华东理工大学
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家乡:河南焦作
本科:洛阳师范学院
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家乡:辽宁抚顺
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家乡:吉林长春
本科:吉林大学
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家乡:河南洛阳
本科:兰州大学
雪泥鸿爪 |
博 士 后:
朱丽娟(博士:上海交通大学,2015.5-2017.5)
黄晓峰(博士:同济大学,2015.10-2017.9)
周浩龙(博士:中山大学,2017.9-2019.6;博新计划)
师兆麟(博士:中国科学院大学,2020.7-2022.7)
魏 蕾(博士:上海科技大学,2020.8-2022.8)
博士毕业:
2020届:师兆麟(2014.9-2020.6)
2020届:魏 蕾(2015.9-2020.6)
2020届:梁聪聪(2015.9-2020.12)
2022届:贺海龙(2015.9-2022.6)
2023届:陶宇(2017.9-2023.6)
2023届:曾腾武(2018.9-2023.6)
2023届:刘杉(2018.9-2023.6)
硕士毕业:
2017届:袁贝贝(2014.9-2017.6)
2019届:周蓓蓓(2016.9-2019.6)
2020届:谭 静(2017.9-2020.6)
2021届:徐阳阳(2018.9-2021.12)
2023届:查相仪(2020.9-2023.6)
本科论文:
2016届:周蓓蓓(南昌大学)
2017届:谭 静(上海师范大学)
2018届:周丝雨、陈子青、曾腾武(郑州大学)
2019届:陈翌翀、吴壹伟、姜闻涛、周蝴蝶、徐轩浩
2020届:张晗丁、查相仪、厉思珵
2023届:王喆、张蕴川、黄晨
2024届:钱子亮
科研实践:
2014级:周丝雨、陈子青、裘哲豪、朱 靓、乔若频
2015级:吴壹伟、陈翌翀、姜闻涛、周蝴蝶、徐轩浩
2016级:施清源、张晗丁、查相仪、厉思珵
2019级:王喆、张蕴川、黄晨
2020级:钱子亮
访问学者:殷 政(副教授、陕西科技大学)
国内访问生:周蓓蓓(南昌大学)、谭 静(上海师范大学)、曾腾武(郑州大学)、徐彤彤(浙江理工大学)、万晓丽(西北大学)、万 爽(湖北大学)、文 菊(湖北大学)、王俊杰(福建物构所)、陈 艳(福建物构所)、赵少帅(福建物构所)、高翔宇(福建物构所)
境外访问生:Hannah Zinky(美国芝加哥大学)、Abdulhadi Alzahrani(沙特阿拉伯KFPUM)、陈佳瑞(荷兰屯特大学)