基本情況

王宇辰,特聘副研究員,主要研究方向為生物質電催化轉化、尿素電催化氧化和超級電容器。主持國家自然科學基金青年、廣東省自然科學基金面上、廣州市青年博士“啟航”、長興恒茗茶廠技術服務等多個項目,并作為項目骨幹參與國家重點研發計劃、國家自然科學基金面上、廣州市重點研發計劃項目。目前發表論文30餘篇,以第一/通訊作者發表論文16篇,其中封面論文3篇,ESI高被引論文1篇,Highlight論文1篇。受邀撰寫有關生物質的英文學術專著一章。

 

教育經曆

2013.08-2017.12 美國邁阿密大學 機械工程 博士

2011.09-2012.12 美國加利福尼亞大學爾灣分校 材料工程 碩士

2007.09-2011.06 大連理工大學 材料成型及控制工程 學士

 

工作經曆

2023.01-至今 太阳集团app首页 太阳集团1088vip 特聘副研究員

2020.01-2022.12 太阳集团app首页 太阳集团1088vip 博士後

2018.02-2019.07 美國邁阿密大學 機械與航天工程系 博士後

 

研究方向

1. 生物質電催化轉化

2. 尿素電催化氧化

3. 超級電容器

 

科研項目

1. 國家自然科學基金委員會, 青年科學基金項目, 22309210, 鎳基水滑石/富氧多孔炭複合材料的綠色制備及其電容性能研究, 2024.01-2026.12, 30萬元, 主持

2. 廣東省基礎與應用基礎研究基金委員會, 廣東省自然科學基金-面上項目, 2022A1515011150, 富含氧空位的鎳基水滑石納米片的綠色構築及其超級電容性能研究, 2022.01-2024.12, 10萬元, 主持

3. 廣州市科學技術局, 青年博士“啟航”項目, 2024A04J4353, 綠色制備鎳基水滑石納米片用于電催化氧化生物質基葡萄糖, 2024.01-2025.12, 5萬元, 主持

4. 長興恒茗茶廠, 技術服務項目, HT99982024-0405, 稭稈基醇類高值化學品綠色合成技術, 2024.06-2025.06, 10萬元, 主持

5. 省部共建煤基能源清潔高效利用國家重點實驗室, 開放基金項目, MJNYSKL202304, 煤液化殘渣基多孔炭的綠色制備及其在超級電容器中的應用, 2023.08-2025.07, 10萬元, 主持

6. 中國科學院可再生能源重點實驗室, 開放基金項目, E229kf1201, 涉重金屬芒萁基多孔薄層炭的可控制備及其電容性能研究, 2022.09-2024.08, 3萬元, 主持

7. 先進能源材料化學教育部重點實驗室, 開放基金項目, 超級電容器用生物質基多孔薄層炭的構築及性能研究, 2023.01-2024.12, 2萬元, 主持

8 太阳集团app首页, 中央高校基本科研業務費青年教師培育項目, 23qnpy85, 生物質固廢基功能多孔炭清潔制備及儲能機制研究, 2023.01-2023.12, 5萬元, 主持

9. 中華人民共和國科學技術部, 國家重點研發計劃項目, 2023YFC3905804, 種養産業集聚區多源種養廢物耦合利用集成技術及示範, 2023.12-2027.11, 350萬元, 課題四聯系人及項目骨幹

10. 國家自然科學基金委員會, 面上項目, 22078374, 綠色合成水滑石納米片用于電催化氧化生物質基糠醛, 2021.01-2024.12, 63萬元, 項目骨幹

11. 廣州市科學技術局, 重點研發計劃項目, 202206010145, 生物質基農林廢棄物制備高附加值化學品的研發及示範, 2022.04-2025.03, 100萬元, 項目骨幹

 

代表性論著

2024

1. Yuchen Wang, Yaoyu Liu, Xiongfei Huang, Guanjie He*, Kai Yan*, Fe nanoclusters anchored in biomass waste-derived porous carbon nanosheets for high-performance supercapacitor, Chinese Chemical Letters (IF = 9.4), 2024, 35, 109301.

2. Xin Li#, Wanrong Bu#, Ke Zhu, Yuwen Chen, Xiaoying Liang, Bin Wang, Yuchen Wang*, Kai Yan*, Fe-nanocluster embedded biomass-derived carbon for efficient photo-Fenton-like activity in water purification, Separation and Purification Technology (IF = 8.1), 2024, 337, 126182.

3. Zhenhao Xu, Yutong Zhang, Ke Li, Ke Zhu, Wanrong Bu, Yuchen Wang*, “Chapter 2 Fabrication of Biomass-Derived Porous Carbon” in “Fabrication and Applications of Biomass-Derived Porous Carbon”, CRC Press, 2024.

 

2023

1. Yuchen Wang#, Yaoyu Liu#, Zhiyue Zhao, Zhikeng Zheng, Alina M. Balu*, Rafael Luque, Kai Yan*, Topological iron silicide with H* intermediate modulated surface for efficient electrocatalytic hydrogenation of nitrobenzene in neutral medium, Materials Today (IF = 21.1), 2023, 66, 84-91. (Highlight論文)

2. Yuchen Wang#, Man Zhang#, Yaoyu Liu, Zhikeng Zheng, Biying Liu, Meng Chen, Guoqing Guan*, Kai Yan*, Recent advances on transition-metal-based layered double hydroxides nanosheets for electrocatalytic energy conversion, Advanced Science (IF = 14.3), 2023, 10, 2207519. (ESI高被引論文)

3. Yaoyu Liu, Yuchen Wang*, Biying Liu, Mahmoud Amer, Kai Yan*, Cobalt-vanadium layered double hydroxides nanosheets as high-performance electrocatalysts for urea oxidation reaction, Acta Physico-Chimica Sinica (IF = 10.8), 2023, 39, 2205028.

4. Yuchen Wang, Yaoyu Liu, Ahsan Ejaz, Kai Yan*, Temperature-controlled fabrication of hydrophilic manganese oxide microspheres as high-performance electrode materials for supercapacitors, Chinese Chemical Letters (IF = 9.4), 2023, 34, 107538-1-107538-5. (正封面)

 

2022

1. Yuchen Wang, Zuo Chen, Man Zhang, Yaoyu Liu, Huixia Luo*, Kai Yan*, Green fabrication of nickel-iron layered double hydroxides nanosheets efficient for the enhanced capacitive performance, Green Energy & Environment (IF = 10.7), 2022, 7, 1053-1061. (正封面, 2022年度最佳封面)

2. Yuchen Wang, Yaoyu Liu, Zuo Chen, Man Zhang, Biying Liu, Zhenhao Xu, Kai Yan*, In situ growth of hydrophilic nickel-cobalt layered double hydroxides nanosheets on biomass waste-derived porous carbon for high-performance hybrid supercapacitors, Green Chemical Engineering (IF = 9.1), 2022, 03, 55-63. (正封面, 最佳論文, 最佳封面)

3. Yuchen Wang, Yaoyu Liu, Man Zhang, Biying Liu, Zhiyue Zhao, Kai Yan*, One-step architecture of bifunctional petal-like oxygen-deficient NiAl-LDHs nanosheets for high-performance hybrid supercapacitors and urea oxidation, Science China Materials (IF = 6.8), 2022, 65, 1805-1813.

 

2021以前

1. Yuchen Wang, Xiaoyao Qiao, Chen Zhang, Xiangyang Zhou*, Self-discharge of a hybrid supercapacitor with incorporated galvanic cell components, Energy (IF = 9.0), 2018, 159, 1035-1045.

2. Yuchen Wang, Xiaoyao Qiao, Chen Zhang, Xiangyang Zhou*, Development of structural supercapacitors with epoxy based adhesive polymer electrolyte, Journal of Energy Storage (IF = 8.9), 2019, 26, 100968.

3. Yuchen Wang, Chen Zhang, Xiaoyao Qiao, Azzam N. Mansour, Xiangyang Zhou*, Three-dimensional modeling of mediator-enhanced solid-state supercapacitors, Journal of Power Sources (IF = 8.1), 2019, 423, 18-25.

4. Yuchen Wang#, Mert Akin#, Xiaoyao Qiao, Zhiwei Yan, Xiangyang Zhou*, Greatly enhanced energy density of all-solid-state rechargeable battery operating in high humidity environments, International Journal of Energy Research (IF = 4.3), 2021, 45, 16794-16805.

5. Jinshu Cai, Yuchen Wang*, Xiaoyao Qiao, Xiangyang Zhou, Azzam N. Mansour, A novel mediator-containing polyvinylidene fluoride/lithium trifluoromethanesulfonate polymer electrolyte membrane for low-temperature solid-state supercapacitors, Materials Letters (IF = 2.7), 2019, 251, 26-29.

6. Yuchen Wang, Xiaoyao Qiao, Chen Zhang, Xiangyang Zhou, Development of all-solid-state structural supercapacitor using an epoxy based adhesive polymer electrolyte, ECS Transactions, 2016, 72, 31-44.

7. Yuchen Wang, Chen Zhang, Xiaoyao Qiao, Xiangyang Zhou, A realistic 3D model of mediator supercapacitors in micrometer level, ECS Transactions, 2016, 72, 15-30.