代表性8项：

1.       主持：国家自然科学基金面上项目，“高分散负载型催化剂设计及其催化纤维素/半纤维素产甲酸”  (60万，2024-2028年)

2.       主持：国家自然科学基金青年基金，“温敏性多功能杂多酸的制备及其催化纤维素转化为甲酸”(23万，2018-2020年)

3.       主持：国家重点研发计划青年科学家项目，“典型流域面源污染物智能监测和风险识别及调控技术”，(400万，2021-2025年)

4.       主持：天津市自然科学基金重点项目，“高熵氧化物催化秸秆转化为甲酸的绿色过程”，（20万，2023-2026年）

5.       主持：天津市自然科学青年基金，“多功能固体催化剂转化木质纤维素为5-羟甲基糠醛”(6万，2016-2019年)

6.       主持：中国农业科学院青年创新专项，“基于锰氧化物催化剂的秸秆制甲酸过程及机制”，(150万，2022-2025年)

7.       主持：国家重点研发项目（子课题），“土壤中氮磷固持的新型材料及氮磷流失靶向控制技术”(130万，2017-2020年)

8.       主持：中央级公益性科研院所基本科研业务费，“秸秆化学转化产有机酸的过程及机制”(15万，2021年)

获奖情况：

中国农学会青年科技奖(个人奖，2020年度)

神农中华农业科技奖（参加）

人才称号：

天津市首批青年科技优秀人才(2023年)

天津市创新人才推进计划青年科技优秀人才(2020年)

中国农业科学院-大北农青年人才 （2021年）

代表性第1或通讯作者论文：

1)     Feng Shen, Richard LeeSmith Jr.,* Jialu Li, Xiao Zhang, Haixin Guo, XinhuaQi.* Critical assessment of reaction pathways for conversion of agriculturalwaste biomass into formic acid. Green Chemistry 2021,23,1536-1561 (IF 10.1, 中科院1区)

2)  Jialu Li, Richard Lee Smith, Jr.,  Siyu Xu, De Li, Jirui Yang, Keqiang Zhang *，Feng Shen*.  Manganese oxide as an alternative to vanadium-based catalysts for effective conversion of glucose to formic acid in water. Green Chemistry 2022,24,315-324 (IF 10.1, 中科院1区)

3)     Feng Shen, Xinni Xiong, Junyan Fu, Jirui Yang, Mo Qiu,Xinhua Qi*, Daniel C. W. Tsang*. Recent advances in mechanochemical productionof chemicals and carbon materials from sustainable biomass resources. Renewableand Sustainable Energy Reviews 2020, 130, 109944  (IF 14.9, 中科院1区)

4)     Feng Shen, Junyan Fu, Xiao Zhang, Xinhua Qi*，Crab shell-derivedlotus rootlike porous carbon for high efficiency isomerization of glucose to fructoseunder mild conditions. ACS SustainableChemistry & Engineering, 2019, 7, 4466−4472  (IF 8.1, 中科院1区)

5)     Feng Shen, Richard L. Smith, Jr., Luyang Li, Lulu Yan, andXinhua Qi*, Eco-friendly method for efficient conversion of cellulose into levulinicacid in pure water with cellulase-mimetic solid acid catalyst, ACS Sustainable Chemistry &Engineering, 2017, 5, 2421-2427. (IF 8.1, 中科院1区)

6)     Shuang Sun, Lijie Zhao, Jirui Yang, XiaoqiWang, Xiaoya Qin, Xinhua Qi,* and Feng Shen*(通讯作者), Eco-friendly synthesis of SO3H-containingsolid acid via mechanochemistry for the conversion of carbohydrates to5-hydroxymethylfurfural. ACS Sustainable Chemistry & Engineering 2020, 8, 7059-7067  (IF 8.1, 中科院1区)

7)     Siyu Xu, Haixin Guo, De Li, Hejuan Wu, Mo Qiu, Jirui Yang, Feng Shen*(通讯作者), Ball billing induced highly dispersed nano-MgO in biochar for glucose isomerization at low temperatures. Bioresouce Technology, 2024, 406, 131071 (中科院1区)

8)     Haiqing Zhang, Richard Lee Smith, Jr, Feng Shen*, Xinhua Qi*, ZnFe layered double hydroxide wrapped metal-organic framework derivedcobalt-nitrogen-doped carbon material as peroxymonosulfate activator forciprofloxacin degradation，Chemical Engineering Journal 496 (2024) 154191 (中科院1区)

9)     Feng Shen, Tianmeng Guo, Chenxi Bai, XinhuaQi*, Hydrolysis of cellulose with one-pot synthesized sulfonatedcarbonaceous solid acid. Fuel Processing Technology 2018, 169,244-247. (IF 7.0, 中科院1区)

10)  Feng Shen#1,Ye Li #1, Xiaoya Qin, Haixin Guo, *, Jialu Li , Jirui Yang, Yongzhen Ding*.Renewable Energy, 2022, 185, 139-146 (IF8.0, 中科院1区)

11)  Recycling andreuse of waste agricultural plastics with hydrothermal pretreatment andlow-temperature pyrolysis method, Chemosphere, 2024, 362: 142769. JCR影响因子：8.10.

12)  Investigation ofthe Mechanism for Removal of Typical Pathogenic Bacteria from Three-CompartmentSeptic Tanks under Low Temperature Conditions, Processes, 2024, 12(1): 87.  JCR影响因子：3.4

13)  Inorganicsiloxane-modified nanosheet-assembled MnOx hollow sphere catalyst for VOCremoval from coal-fired flue gas: Enhanced water resistance and Activity,Chemical Engineering Journal, 2024, 484: 149638.  JCR影响因子：13.3.

14)  Efficient one-potconversion of corncob to formic acid using bi-functional MnCeOx/Nb2O5 catalyst,Biomass and Bioenergy, 2024, 187: 107297. JCR影响因子：5.8. 

15)  Ball billinginduced highly dispersed nano-MgO in biochar for glucose isomerization at lowtemperatures, Bioresource Technology, 2024, 406: 131071.  JCR影响因子：9.7. 

16)  ZnFe layereddouble hydroxide wrapped metal-organic framework derived cobalt-nitrogen-dopedcarbon material as peroxymonosulfate activator for ciprofloxacin degradation,Chemical Engineering Journal, 2024, 496: 154191.  JCR影响因子：13.3. 

17)  HydrothermalValorization of Biosugars with Heterogeneous Catalysts: Advances, Catalyst Deactivation, Mitigation Strategies and Perspectives, ChemSusChem, e202401405.  JCR影响因子：7.5.

18)  Sustainablecatalytic pathways for biofuel precursors: quantitative conversion of glucoseto gluconic acid using Pt-Zn biochar catalyst, Biofuel Research Journal, 2024,11(3): 2168-2180.  JCR影响因子：14.4. 

19)  Anion substitutionstrategy for constructing abundant oxygen vacancies in perovskites enablesefficient nitrate electroreduction, Separation and Purification Technology,2025, 357: 129997.  （JCR影响因子：8.1）

20) Preparation andperformance characterization of Lyocell grade dissolving pulp composites fromthe lignocellulosic materials, Advanced Composites and Hybrid Materials, 2024,7(6): 1-14.  JCR影响因子：23.0 

21) Structure-OrientedElectrochemical Synthesis of Layered Double Hydroxide ElectrocatalyticMaterials for 5-Hydroxymethylfurfural Oxidation, ACS Sustainable Chemistry& Engineering, 2024.  JCR影响因子：7.10

22) Response of soilmicrobial community structure and function to the sewage leakage: A case studyof a 25-year-old cesspool，Chemosphere，2024, 36:142753. （JCR分区：1区，IF=8.1）

23)  Precision-Engineered Construction ofProton-Conducting Metal-Organic Frameworks, Nano-Micro Letters, 2024 (Accepted)IF= 31.6

24)Preparation and performance characterization of Lyocell grade dissolving pulp composites from the lignocellulosic materials,Advanced Composites and Hybrid Materials, 2025, 8,111