2022.9 国家重点研发计划 “政府间国际科技创新合作“专项项目子任务（主持）

2021.4 同济大学青年百人计划（主持）

2019.07 国家自然科学基金青年基金（主持）

2018.11 第64批国家博士后面上基金（主持）

2018.9 上海市超级博士后激励计划（主持）

2018.5 国家博士后创新人才支持计划（主持）

（一）部分代表性论文：

[1] Gu, Y.; Zheng, J.; Otake, K-i*.;Sakaki S.; Ashitan H.; KubotaY.; Kawaguchi S.; Yao, M.; Wang P.; Wang Y.; Li, F*; Kitagawa,S*.; Soft Corrugated Channel with Synergistic Exclusive Discrimination Gatingfor CO2 Recognition in Gas Mixture. Nature communications 2023, accpected;

[2] Gu, Y.; Zheng, J.; Otake, K-i.;Shivanna, M.; Sakaki S.; Yoshino H.; Ohba M.; Kawaguchi S.; Wang Y.; Li, F*;Kitagawa, S*.;Host-guest Interaction Modulation in Porous Coordination Polymersfor Inverse Selective CO2/C2H2 separation. Angewandte Chemie International Edition 2021. 60 (21), 11688 –11694; (ESI higly cited paper)

[3] Gu, Y.; Zheng, J.; Otake, K-i.;Sugimoto, K.; Hosono, N.; Sakaki, S.; Li, F*; Kitagawa S*.;Structural-Deformation-Energy-ModulationStrategy in a Soft Porous Coordination Polymer with Interpenetrated Framework. Angewandte Chemie International Edition 2020. 59 (36), 15517 -15521;

[4]Gu, Y.; Wu, Y. N.; Li, L.;Chen, W.; Kitagawa, S. *; Li, F*. Controllable modular growth of hierarchicalMOF-on-MOF architectures. AngewandteChemie International Edition 2017.56 (49), 15658-15662;

[5] Wang,L. Y.; Huang, H. C.; Zhang, X. Y.; Zhao H.S.; Li,F.*; Gu, Y*. Designedmetal-organic frameworks with potential for multi-component hydrocarbonseparation. Coordination Chemistry Reviews 2023, 484, 215111.

[6]Gu, Y., Wang, H., Xu, J., Wang, Y., Wang, X.*, Robinson, Z. P.*,Li, F.*,... & Zhi, X. Quantification of interlinked environmentalfootprints on a sustainable university campus: A nexus analysis perspective. AppliedEnergy 2019, 246, 65-76;

[7]Gu, Y., Li, Y., Li, X., Luo,P., Wang, H.*, Robinson, Z. P., Wang X., Wu j.*, Li, F., The feasibility andchallenges of energy self-sufficient wastewater treatment plants. Applied Energy 2017, 204.1463-1475 (ESI higlycited paper);

[8]Gu, Y.; Xu, J.; Wang, H*.;Li, F., Industrial water footprint assessment: methodologies in need ofimprovement. Environmental Science &Technology 2014, 48 (12), 6531-6532;

[9]Gu, Y.; Cheng, K.; Wu, Y. *;Wang, Y. *; Morlay, C.; Li, F., Metal-organic framework-templated synthesis ofbifunctional N-doped TiO2–carbon nanotablets via solid-state thermolysis. ACS Sustainable Chemistry & Engineering2016, 8; 6744–6753;

[10]Gu, Y.; Xu, J.; Keller, A.A.; Yuan, D.; Li, Y.; Zhang, B.; Weng, Q.; Zhang, X.; Deng, P.; Wang, H. *,Calculation of water footprint of the iron and steel industry: a case study inEastern China. Journal of CleanerProduction 2015, 92, 274–281;

[11]Gu, Y.; Wu, Y. N. ; Shen, J.; Li, Z.; Chen,S.; Lu, H.; Li, F. *, Turning Redundant Ligands into Treasure: A New Strategyfor Constructing MIL-53(Al)@Nanoscale TiO2 Layers. Chemistry - A European Journal 2015,21 (48), 17485-17490;

[12]Gu, Y. ; Dong, Y.N.; Wang, H.; Keller, A.; Xu, J.; Chiramba, T.; Li, F.*, Quantification of thewater, energy and carbon footprints of wastewater treatment plants in Chinaconsidering a water–energy nexus perspective. Ecological Indicators 2016,60, 402-409;

[13] Gu,Y.; Li, Y.; Wang, H. *; Li, F., Gray Water Footprint: Taking Quality,Quantity, and Time Effect into Consideration. Water Resources Management 2014,28 (11), 3871-3874.

[14]Zhuang, Y.; Shen C.; Gu,Y.; Chen, R.; Shi, B.*;Effect oftrichloroacetic acid on iron oxidation: Implications on the control of DBPs anddeposits in drinking water. Water Research. 2021, 189, 116632;

[15]Liu, C.; Wu, Y. *; Morlay, C. *; Gu,Y.; Gebremariam, B.; Yuan, X.; Li, F., General Deposition ofMetal–Organic Frameworks on Highly Adaptive Organic–Inorganic HybridElectrospun Fibrous Substrates. AcsApplied Materials & Interfaces 2016,8 (4); 2552−2561;

[16]Chen, S.; Lu, H.; Wu, Y. N. *; Gu, Y.;Li, F.; Morlay, C. *, Preparation of alumina–hercynite nano-spinel via one-stepthermal conversion of Fe-doped metal–organic framework MIL-53(Al). Journal of Nanoparticle Research 2016, 18 (9); 255;

[17]Luo, P., Yang, Y. *, Wang, H. *, Gu,Y., Xu, J., Li, Y.; Water footprint and scenario analysis in thetransformation of Chongming into an international eco-island. Resources, Conservation and Recycling,2017; 132, 276-385;

[18]Liu, M., Xu, J., Yang, F., Gu, Y.,Chen., H, Wang. Y. *, Li, F.; Sensitive electrochemical detection of DNA damagebased on in situ double strand growth via hybridization chain reaction. Analytical and Bioanalytical Chemistry, 2017;409 (29), 6821-6829;

[19]Liu, J.*; Yang, F.; Zhang, Q.; Chen, W. *, Gu,Y., Chen, Q., Construction of Hierarchical Fe3O4@HKUST-1/MIL-100(Fe)Microparticles with Large Surface Area through Layer-by-Layer Deposition ndEpitaxial Growth Methods, Inorganic chemistry, 2019, 58,3564-3568;

[20] Yao, M.; Wang, P.; Gu, Y.; Koganezawa, T.; Ashitani,H.; Kubota, Y.; Wang, Z.; Fan, Z.; Otake, K.; Kitagawa, S*. A comparative studyof honeycomb-like 2D π-conjugated metal–organic framework chemiresistors:conductivity and channels, Dalton Transactions 2021. 50(38), 13236-13245.

[21] Zhuang Y.; Shen C.;Gu Y.; Chen Ruya.; Shi B*.; Effect of trichloroacetic acid oniron oxidation: Implications on the control of DBPs and deposits in drinkingwater., Water Research, 2020, 189: 0-116632

[22]Tao J.; Gu Y.;Wu J.; Li F.*; Copper selenide sensitized low-cost porous coordination polymerstowards efficient capture trace gaseous elemental mercury, ChemicalEngineering Journal, 2023, 457: 141288

（二）授权发明专利、软件著作权及参与国家标准制定

[1]一种用于吸附分离乙炔/乙烯混合气体的金属有机框架材料及其制备方法, 李风亭;顾逸凡;黄恒聪;王颖; 申请号：CN202210649033.3(已授权)

[2]一种用于CO₂光催化还原的多孔配位聚合物及其制备方法，李风亭;贾焘;顾逸凡;吴江；申请号：CN202210628980.4(已授权)

[3]一种用于CO₂吸附捕获的超微孔多孔配位聚合物的制备方法，李风亭;顾逸凡;黄恒聪;王颖；申请号：CN202210517035.7

(已授权)

[4] 一种金属有机骨架材料MIL-53(Al)的合成方法，吴一楠; 李风亭; 张冰如; 卢慧宫; 顾逸凡; 李杰; 申请号：201510672632.7(已授权)

[5] 一种处理低温低浊水的复合多元混凝剂及其制备方法, 李风亭; 李杰; 王洪涛; 王颖; 顾逸凡; 申请号：CN202010218029.2(已授权)

[6] 企业水足迹计算软件V1.0，王洪涛；顾逸凡；徐晋；黄炜晨；登记号：2016SR323215 (已授权)

[7] 区域水足迹计算软件V1.0，王洪涛；顾逸凡；徐晋；黄炜晨；登记号：2016SR323220(已授权)

[8]中华人民共和国国家标准，实验室废弃物存储装置技术规范，GB/T 41962-2022

（三）学术奖励情况：

2019.01 上海市科学技术奖一等奖（排名第七）

2020.10 中国环境科学学会优秀博士学位论文（全国共十一篇）