古志远 - 南京师范大学 - 化学与材料科学学院

个人简介

教授、博导，国家自然科学基金优秀青年基金获得者，中国化学会高级会员。2006年和2011年在南开大学获学士、博士学位。2011至2014年在美国德州农工大学进行博士后研究。以通讯作者在Nat. Commun.、J. Am. Chem. Soc.、Angew. Chem. Int. Ed.、ACS Cent. Sci.、Chem. Sci.、Anal. Chem.等化学高水平刊物上发表SCI论文50余篇。论文总引用10385次，h因子37。主持各类科研项目累计800余万元。2014年入选江苏特聘教授，2015年入选中国科协青年人才托举工程，2019年入选国家优青、江苏省优青。2020-2023年连续四年入选“全球前2%科学家终身影响力排行榜”。曾获2013年度教育部自然科学奖一等奖（排名第三）、江苏省化学化工学会戴安邦青年创新奖（2019）。担任Chinese Chemical Letters、Journal of Analysis and Testing、The Innovation、《色谱》青年编委；《分析测试学报》、Frontiers in Environmental Chemistry编委；Advances in Sample Preparation顾问编委；Analytical and Bioanalytical Chemistry客座编辑等。任中国化学会色谱专业委员会委员、中国分析测试协会青年学术委员会委员、江苏省化学化工学会理事、江苏省化学化工学会青年工作委员会委员、江苏省化学化工学会质谱专业委员会委员、江苏省分析测试协会色谱质谱专业委员会委员。为Nat. Commun.; J. Am. Chem. Soc.; Angew. Chem. Int. Ed.; Anal. Chem.等期刊审稿300余次。

研究领域

Metal-Organic Frameworks 2-D MOF Nanosheets Chromatography Nanopore CO2 Reduction In-situ Characterization

近期论文

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Yang, H.†; Liu, J.-J.(equal contribution); Tang, W.-Q.; Meng, S.-S.; Gao, Y.-X.; Li, W.; Zhang, H.; Xu, M.*; Gu, Z.-Y.*, Increasing Mass Transfer Resistance of MOFs as a Reverse Tuning Strategy to Achieve High-Resolution Gas Chromatographic Separation, Anal. Chem. 2023. Tang, W.-Q.†; Yi, X.-N.†(equal contribution); Guan, H.-X.†(equal contribution); Wang, X.-W.; Gu, Y.-W.; Zhao, Y.-J.; Fu, J.; Li, W.; Cheng, Y.; Meng, S.-S.; Xu, M.; Zhang, Q.-H.; Gu, L.; Kong, X.-Q.; Liu, D.-H.; Wang, W.; Gu, Z.-Y.*, Bipolar Molecular Torque Wrench Modulates the Stacking of Two-Dimensional Metal–Organic Framework Nanosheets, J. Am. Chem. Soc. 2023. Yang, L.†; Yin, Y.-D.†(equal contribution); Chen, F.-F.; Song, X.-T.; Li, M.-C.; Xu, M.*; Gu, Z.-Y.*, Recognition of Oligonucleotide C by Polydopamine-Coated Solid-State Nanopores, Anal. Chem. 2023. 95, 17347–17353. Yin, Y.-D.; Chen, F.-F.; Hu, J.; Yang, L.; Song, X.-T.; Wu, G.-R.; Xu, M.; Gu, Z.-Y.*, Solid-State Nanopore Distinguishes Ferritin and Apo-Ferritin with Identical Exteriors through Amplified Flexibility at Single-Molecule Level, Anal. Chem. 2023, 95, 16496–16504. 杨涵；汤雯淇；曾楚；孟莎莎；徐铭*；高效金属有机骨架气相色谱固定相的理性设计, 色谱, 2023, 41, 853. Meng, S.-S.†; Xu, M.†(equal contribution); Guan, H.-X.†(equal contribution); Chen, C.-L.; Cai, P.-Y.; Dong, B.; Tan, W.-S.; Gu, Y.-H.; Tang, W.-Q.; Xie, L.-G.; Yuan, S.; Han, Y.; Kong, X.-Q.; Gu, Z.-Y.*, Anisotropic flexibility and rigidification in a TPE-based Zr-MOFs with scu topology, Nat. Commun. 2023, 14, 5347. Austin Chipojola Mtukula†; Zhang, X.-D.†(equal contribution); Hou, S.-Z.; Huang, J.-M.; Xu, M.*; Gu, Z.-Y.*, Metal-Organic Frameworks for Efficient Electrochemical Reduction of Carbon Dioxide, Eur. J. Inorg. Chem. 2023, 26, e202300170. Huang, J.-M.; Zhang, X.-D.; Huang, J.-Y.; Zheng, D.-S.; Xu, M.*; Gu, Z.-Y.*, MOF-based materials for electrochemical reduction of carbon dioxide, Coord. Chem. Rev. 2023, 494, 215333. Song, X.-T.; Yin, Y.-D.; Wu, G.-R.; Xu, M.*; Gu, Z.-Y.*, Nanopore-based metal ion detection and metal ion-mediated nanopore sensing, Chinese J. Chem. 2023. Hu, R.*, Zhu, R., Wei, G., Wang, Z., Gu Z.-Y., Wanunu, M., Zhao, Q.*, Solid-State Quad-Nanopore Array for High-resolution Single-Molecule Analysis and Discrimination, Adv. Mater. 2023, 2211399. Zhang, X. -D.†; Liu, T. -Y†(equal contribution); Liu, C.; Zheng, D. -S.; Huang, J.-M.; Liu, Q. -W.; Yuan, W. -W.; Yin, Y.; Huang, L. -R.; Xu, M.; Li, Y. -F; Gu Z.-Y.*, Asymmetric Low-Frequency Pulsed Strategy Enables Ultra-Long CO2 Reduction Stability and Controllable Product Selectivity, J. Am. Chem. Soc. 2023, 145, 2195-2206. Zhao, Y.-J., Tang, W.-Q., Wang, X.-W., Zhao, H.-F., Gu Z.-Y., Yang, Q.-Y., Liu, D.-H.*, Isomer recognition by dynamic guest-adaptive ligand rotation in a metal-organic framework with local flexibility, Chem. Sci. 2022, 13, 11896-11903. Liu C.†, Zhang X.-D.†(equal contribution), Huang J.-M., Guan M.-X., Xu M., Gu Z.-Y.*, In Situ Reconstruction of Cu–N Coordinated MOFs to Generate Dispersive Cu/Cu2O Nanoclusters for Selective Electroreduction of CO2 to C2H4, ACS Catal. 2022, 12, 15230–15240 Wang Z., Hu R.*, Zhu R., Lu W.-L., Wei G.-H., Zhao J., Gu Z.-Y.*, Zhao Q.*, Metal–Organic Cage as Single-Molecule Carrier for Solid-State Nanopore Analysis, Small Methods 2022, 6, 2200743 Meng S.-S.†, Han T.†(equal contribution), Gu Y.-H., Zeng C., Tang W.-Q., Xu M.*, Gu Z.-Y., Enhancing Separation Abilities of “Low-Performance” Metal-Organic Framework Stationary Phases through Size Control, Anal. Chem. 2022, 94, 41, 14251–14256 Yang L., Hu J., Li M.-C., Xu M., Gu Z.-Y.*,Solid-state nanopore: chemical modifications, interactions, and functionalities, Chem-Asian J. 2022, e202200775 Xu M†., Cai P.-Y.†(equal contribution), Meng S.-S., Yang Y.-H., Zheng D.-S., Zhang Q.-H., Gu L., Zhou H.-C.*, Gu Z.-Y.*,Linker Scissoring Strategy Enables Precise Shaping of Metal-Organic Frameworks for Chromatographic Separation, Angew. Chem. Int. Ed. 2022, 61, e202207786 Xu M†., Meng S.-S.†(equal contribution), Cai P.-Y.†(equal contribution), Gu Y.-H., Yan T.-A., Yan T.-H., Zhang Q.-H., Gu L., Liu D.-H., Zhou H.-C.*, Gu Z.-Y.*, Homogeneously Mixing Different Metal–Organic Framework Structures in Single Nanocrystals through Forming Solid Solutions, ACS Cent. Sci. 2022, 8, 2, 184–191 Cai P.-Y.†, Xu M.†(equal contribution), Meng S.-S., Lin Z.-F., Yan T.-H., Hannah F Drake, Zhang P., Pang J.-D.*, Gu Z.-Y.*, Zhou H.-C.* Precise Spatial Designed Metal-Organic Framework Nanosheets for Efficient Energy Transfer and Photocatalysis, Angew. Chem. Int. Ed. 2021, 60, 27258-27263. Wang, Z.; Lv, T.-Y.; Shi, Z.-B.; Yang, S.-S.; Gu, Z.-Y.*, Two-dimensional materials as solid-state nanopores for chemical sensing, Dalton Trans. 2021, 50, 13608-13619. Gu, Z.-Y.*; Yang, S.-S.; Xu, M.; Zhang, X.-D.; Fan, C.*; Li, J.*, Research frontiers of chemical detection and measurements. Pure Appl. Chem., 2021, 93, 1453-1461. u, J.-X.; Zhu, X.-R.; Liang, T.; Zhang, X.-D.; Hou, S.-Z.; Xu, M.; Li, Y.-F.*; Gu, Z.-Y.*,Sn(101) Derived from Metal–Organic Frameworks for Efficient Electrocatalytic Reduction of CO2. Inorg. Chem.,2021, 60, 9653–9659 Xu, M.; Liang, H.; Meng, S.-S.; Gu, Z.-Y.*, Enhancing the enzymatic inhibition performance of Cu-based metal–organic frameworks by shortening the organic ligands. Analyst, 2021, 146, 4235-4241 Zhang, X.-D.; Huang, L.-R.; Wu, J.-X.; Gu, Z.-Y.*, Enhancing Selectivity through Decrypting the Uncoordinated Zirconium Sites in MOF Electrocatalysts. Chem Commun, 2021, 57, 5191 – 5194 Meng, S.-S.†; Xu, M.†;(equal contribution), Han, T.; Gu, Y.-H.; Gu, Z.-Y.*, Regulating Metal-Organic Frameworks as Stationary Phases and Absorbents for Analytical Separations, Anal. Methods, 2021, 13, 1318-1331 Xu, M.†, Meng, S.-S.†(equal contribution), Cai, P.; Tang, W.-Q.; Yin, Y.-D.; Powell, J.; Zhou, H.-C.*; Gu, Z.-Y.*, Modulating Stacking Modes of Nanosized Metal-Organic Frameworks by Morphology Engineering for Isomer Separation, Chem. Sci., 2021,12, 4104-4110 Tang, W.-Q; Zhao, Y.-J.; Xu, M.; Xu, J.-Y.; Meng, S.-S.;Yin, Y.-D.; Zhang, Q.-H.; Gu, L.; Liu, D.-H.*; Gu, Z.-Y.*, Controlling the Stacking Modes of Metal‐Organic Framework Nanosheets through Host‐Guest Noncovalent Interactions, Angew. Chem. Int. Ed., 2021, 60, 6920-6925. 汤雯淇；孟莎莎；徐铭；古志远*, 基于金属有机骨架材料固定相的气相色谱分离应用, 色谱, 2021, 39, 57. Xiao, J.†; Yang, S.-S.† (equal contribution); Wu, J.-X.; Wu, N.; Yu, X.-Z.; Shang, W.-B.; Gu, Z.-Y.*, Sn-based Metal-Organic Framework for Highly Selective Capture of Monophosphopeptides, Talanta, 2021, 224, 121812. Yuan, W.-W.; Wu, J.-X.; Zhang, X.-D.; Hou, S.-Z.; Xu, M.; Gu, Z.-Y.*, In-situ transformation of bismuth metal-organic frameworks for efficiently selective electroreduction of CO2 to formate, J. Mater. Chem. A., 2020, 8, 24486-24492. Yin, Y.-D.†; Zhang, L.† (equal contribution); Leng, X.-Z.; Gu, Z.-Y.*, Harnessing Biological Nanopore Technology to Track Chemical Changes, Trends Anal. Chem., 2020, 133, 116091. Meng, S.-S.†; Tao, Z.-R.† (equal contribution); Tang, W.-Q.; Han, T.; Du, Y.; Gu, Z.-Y.*, Ultramicroporous metal-organic frameworks for capillary gas chromatographic separation, J. Chromatogr. A., 2020, 1632, 461604. Xu, M.†; Meng, S.-S.† (equal contribution); Liang, H.; Gu, Z.-Y.*, A Metal-Organic Framework with Tunable Exposed Facets as a High-affinity Artificial Receptor for Enzyme Inhibition, Inorg. Chem. Front., 2020, 7, 3687-3694. Zhang, Q.; Cao, P.-S.; Cheng, Y.; Yang, S.-S.; Yin, Y.-D.; Lv, T.-Y.; Gu, Z.-Y.*, Nonlinear Ion Transport through Ultrathin Metal–Organic Framework Nanosheet, Adv. Funct. Mater., 2020, 30, 2004854. Hou, S.-Z.; Zhang, X.-D.; Yuan, W.-W.; Li, Y.-X.; Gu, Z.-Y.*, Indium-Based Metal–Organic Framework for High-Performance Electroreduction of CO2 to Formate, Inorg. Chem., 2020, 59, 11298-11304. Yang, S.-S.†; Wang, C.† (equal contribution); Xiao, J.; Yu, X.-Z.; Shang, W.-B.; Chen, D.*; Gu, Z.-Y.*, Highly efficient enrichment of N-glycopeptides by two-dimensional Hf-based metal–organic framework nanosheets, Analyst, 2020,145, 4432-4435. Yang, S.-S.; Wang, C.; Yu, X.-Z.; Shang, W.-B.; Chen, D.*; Gu, Z.-Y.*, A Hydrophilic Two-Dimensional Titanium-Based Metal-Organic Framework Nanosheets for Specific Enrichment of Glycopeptides, Anal. Chim. Acta., 2020, 1119, 60-67. Zhang, X.-D.†; Hou, S.-Z.† (equal contribution); Wu, J.-X.; Gu, Z.-Y.*, Two-Dimensional Metal-Organic Framework Nanosheets with Cobalt-Porphyrins for High-Performance CO2 Electroreduction, Chem. Eur. J., 2020, 26, 1604-1611.