冯成启，博士，中国科学院宁波材料技术与工程研究所助理员研究员。2022年6月毕业于广西大学轻工与食品工程学院，并于同年8月进入中国科学院宁波材料技术与工程研究所。主要从事木质生物质组分高效分离提取、固体酸催化木质纤维素/半纤维素的全水相水解、纤维素/半纤维素的连续化水解。迄今以第一作者和通讯作者身份在Energy Environ. Sci.; Chem. Eng. J.; Green Chem. (2篇), ACS Sustainable Chem. Eng.; Int. J. Biol. Macromol. (2篇)， Bioresour. Technol., Ind. Crops Prod. (2篇), Carbon 等期刊发表研究性论文16篇，共同作者论文30余篇。申请发明专利9项。作为项目负责人，主持国家自然科学基金青年科学基金项目、宁波市公益性科技计划项目、宁波市自然科学基金青年博士创新研究项目以及广西清洁化制浆造纸与污染控制重点实验室开放基金项目等纵向项目以及琪业技术开发横向项目；作为主要完成人参与宁波市“科创甬江2035”重点研发计划项目、中国科学院宁波材料所所长基金重点项目、青年博士后合作导师支持计划“强吸附固体酸催化纤维素水解成糖研究”项目基金等。累计主持经费276万元，作为主要完成人参与经费565万元。曾获“小平科技创新团队”、‘创青春’全国大学生创业大赛铜奖等国家级奖项以及获广西大学优秀博士论文等荣誉。

Dr. Feng Chengqi is an Assistant Researcher at the Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences. He graduated from the School of Light Industry and Food Engineering at Guangxi University in June 2022. He joined the Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, in August of the same year. His research focuses on the efficient separation and extraction of lignocellulosic biomass components, the solid-acid-catalyzed aqueous hydrolysis of lignin and hemicellulose, and the continuous hydrolysis of cellulose and hemicellulose. To date, he has published 16 research papers as first or corresponding author in journals such as Energy Environ. Sci.; Chem. Eng. J.; Green Chem. (2 papers), ACS Sustainable Chem. Eng.; Int. J. Biol. Macromol. (2 papers)， Bioresour. Technol., Ind. Crops Prod. (2 papers), Carbon, as well as more than 30 papers as a co-author. Filed 9 patent applications. As a principal investigator, he have led various government-funded projects, including the National Natural Science Foundation of China (NSFC) Young Scientists Fund Project, the Ningbo Municipal Public Welfare Science and Technology Program, the Ningbo Municipal Natural Science Foundation Young Doctoral Innovator Research Project, and the Open Fund Project of the Guangxi Key Laboratory of Clean Pulp and Paper Production and Pollution Control, as well as the Qiye Technology Development industry-sponsored project; As a key contributor, I have participated in the Ningbo “Science and Innovation Yongjiang 2035” Key R&D Program, the Director’s Fund Key Project at the Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, and the Young Postdoctoral Collaborative Mentor Support Program project titled “Research on the Hydrolysis of Cellulose into Sugars Catalyzed by Strongly Adsorbent Solid Acids.” In total, he had secured 2.76 million yuan in funding as principal investigator and contributed to securing 5.65 million yuan as a key contributor. He had received national awards such as the “Deng Xiaoping Science and Technology Innovation Team” and a bronze medal in the “Innovate Youth” National College Student Entrepreneurship Competition, as well as honors including the Guangxi University Outstanding Doctoral Dissertation.

1. 论文

[1] Chenkai Jin, Chengqi Feng*, Yuhua Chen, Ting Zhang, Huiwen He, Haining Na* and Jin Zhu. Fabricating a scattering–fluorescent luminescent solar concentrator synchronously to achieve broad-spectrum solar energy utilization and light pollution inhibition[J]. Energy & Environmental Science, 2024, 17(16): 5931-5940. (SCI，一区TOP，IF=32.4)

[2] Chengqi Feng, Hong Liu, Yan Lei, Chenkai Jin, Jinhang Yang, Yifei Huang, Juncheng Huang, Haining Na* and Jin Zhu*a. Strongly adsorbent rough surface induced rapid hydrolysis of cellulose to sugar in the aqueous phase[J]. Green Chemistry, 2025, 27(3): 815-826. (SCI，一区TOP，IF=9.3)

[3] Chengqi Feng, Yuewen Dai, Chenkai Jin, Juncheng Huang, Jinhang Yang, Yifei Huang, Haining Na*, Jin Zhu*. Strong adsorption enhances mass transfer and promotes efficient hydrolysis of cellulose to sugar by solid acids[J]. International journal of biological macromolecules, 2024, 279: 135060. (SCI，二区TOP，IF=7.7)

[4] Chengqi Feng, Anran Li, Yuxin Zhu, Yan Lei, Chenkai Jin, Juncheng Huang, Haining Na*, Jin Zhu*. Microwave synthesis of CMF@Fe_xO_y-CN: a highly dispersible magnetically recyclable photocatalyst for efficient Rh B degradation[J]. Journal of Environmental Management, 2025, 382: 125416. (SCI，二区TOP，IF=8.0)

[5] Lei Yan†, Feng Chengqi†*, Yang Jinhang, Jin Chenkai, Huang Yifei, Huang Juncheng, Na Haining, Zhu Jin. Dual Capable Solid Acid for Fabricating Refinement-Free Fermentable Sugars in Cellulose Hydrolysis[J]. ACS Sustainable Chemistry & Engineering, 2025, 13(32): 13051-13060. (SCI，一区TOP，IF=7.3)

[6] Yuhong Tao, Chengqi Feng*, Juncheng Huang, Haining Na*, Jin Zhu. Efficient hydrolysis of cellulose into sugars in aqueous systems using fibrous core-shell structure FS@C/HPW[J]. Chemical Engineering Journal, 2024, 489: 151465. (SCI，一区TOP，IF=13.3)

[7] Yuhua Chen, Chengqi Feng*, Chenkai Jin, Yuxin Zhu, Juncheng Huang, Haining Na * and Jin Zhu. In situ bifunctional solid acids bearing B-OH and -COOH groups for efficient hydrolysis of cellulose to sugar in a pure aqueous phase[J]. Green Chemistry, 2024, 26: 948-959. (SCI，一区TOP，IF=9.3)

[8] Xinyue Yao, Yan Xu, Dahua Zhu, Zijun Zhang, Chengqi Feng*, Jin Zhu*, Chao Fang*. Bio-based high-grafting-rate compatibilizer: Dynamic reactive extrusion synthesis of itaconic anhydride-based copolymers with polypropylene grafts and the application in plant fiber composites[J]. Industrial Crops and Products, 2025, 226: 120619. (SCI，一区TOP，IF=5.6)

[9] Yifei Huang, Chengqi Feng*, Chenkai Jin, Juncheng Huang, Haining Na,*, Jin Zhu . Rod-shaped silica promotes cellulose hydrolysis by inducing interior structural breakage via penetrated breaking[J]. International journal of biological macromolecules, 2025, 289: 138838. (SCI，二区TOP，IF=7.7)

[10] Yuewen Dai, Maofu Geng, Yuhong Tao, Zhenyu Zhang, Chengqi Feng*, Juncheng Huang, Fei Liu, Haining Na*, Jin Zhu. Hydrolysis of cellulose to glucose in aqueous phase with phosphate group modified hydroxy-rich carbon-based catalyst[J]. Carbon, 2023, 206: 72-83. (SCI，二区TOP，IF=10.5)

[11] Chengqi Feng, Jiatian Zhu, Yajun Hou, Chengrong Qin, Wangqian Chen, Yuhao Nong, Zhangpeng Liao, Chen Liang, Huiyang Bian, Shuangquan Yao. Effect of temperature on simultaneous separation and extraction of hemicellulose using p-toluenesulfonic acid treatment at atmospheric pressure[J]. Bioresource Technology, 2022, 348: 126793. (SCI，一区TOP，IF=9.7)

[12] Chengqi Feng, Jiatian Zhu, Liming Cao, Li Yan, Chengrong Qin, Chen Liang, Shuangquan Yao. Acidolysis mechanism of lignin from bagasse during p-toluenesulfonic acid treatment[J]. Industrial Crops & Products, 2022, 176: 114374. (SCI，一区TOP，IF=5.6)

[13] Baojuan Deng, Yadan Luo, Meijiao Peng, Tao Li, Jianwei Su, Yang Wang, Xuelian Xia, Chengqi Feng* and Shuangquan Yao. Kinetics of Lignin Separation during the Atmospheric Fractionation of Bagasse with p-Toluenesulfonic Acid[J]. International Journal of Molecular Sciences, 2022, 23(15): 8743. (SCI，三区，IF=4.9)

[14] Chengqi Feng, Juan Du, Shuai Wei, Chengrong Qin, Chen Liang, Shuangquan Yao*. Effect of p-TsOH pretreatment on separation of bagasse components and preparation of nanocellulose filaments[J]. Royal Society Open Science, 2020, 7(9): 200967. (SCI，三区，IF=2.9)

[15] Shuangquan Yao, Chengqi Feng, Cheng Wang, Baojie Liu, Lingzhi Huang, Shuangxi Nie, Tianyi Zhang, and Chengrong Qin. Kinetics of Oxidation of a Hemicellulose Model Compound by Chlorine Dioxide in Bleaching[J]. Bioresources, 2018, 13(3): 5670-5683. (SCI，四区，IF=1.3)

[16] Jiatian Zhu, Zhiwei Zhang, Chengqi Feng*, Yadan Luo, Jiao Li, Baojie Liu, Chengqong Qin, Shuangquan Yao. Effect of p-Toluenesulfonic Acid Pretreatment on Properties of Nanocellulose Film[J]. 中国造纸学报, 2022, 37(4):75-83. (中文核心)

2. 主持及参与项目

[1] 2024.01.01-2026.12.31，国家自然科学基金青年基金项目，硼羟基增强型“类酶”固体酸的设计及全水相体系中纤维素高效成糖的催化研究，52303142，30万，在研，主持；

[2] 2025.09-2027.08，宁波市公益性科技计划项目，空间匹配策略驱动固体酸选择性水解纤维素制备可溶性低聚糖，2025S118，20万，在研，主持；

[3] 2024.06.01-2027.05.31，宁波市自然科学基金青年博士创新研究项目，磷钨酸掺杂纤维状C-SiO₂核/壳结构固体酸在全水相体系中催化纤维素水解成糖研究，2024J437，20万，在研，主持。

[4] 2025.10.01-2028.09.31，基于实心芦苇的纤维素基纳米材料技术开发项目，150万元，在研，主持；

[5] 2023.01.01-2024.12.31，广西清洁化制浆造纸与污染控制重点实验室开放基金项目，利用p-TsOH高效分离和提取蔗渣各组分的机制研究，2023GXZZKF62，6万，结题，主持。

[6] 2025.03.01-2028.02.28，宁波市“科创甬江2035”重点研发计划项目，秸秆三素高值转化利用关键技术开发及示范应用，250万，在研，主要参贡献人；

[7] 2022.08-2025.07，青年博士后合作导师支持计划“强吸附固体酸催化纤维素水解成糖研究”项目基金，15万，结题，主要贡献人；

2023.01.01-2026.12.31，中国科学院宁波材料所所长基金重点项目，纤维素化学法催化水解成糖研究，300万，在研，主要贡献人；