科研情況: ? 主要研究方向: 1、生物質資源高值化利用(儲能器件、電磁波屏蔽與吸收、可穿戴柔性器件); 2、電極材料(超級電容器、鋰離子電池)的微結構及界面設計; 3、光催化材料的制備及工業化應用; ? 近5年科研項目: 1、國家自然科學基金青年科學基金項目(22408023),基于共價修飾策略的木質素基衍生炭電化學性能促進機制研究,執行時間:2025.01-2027.12;在研,主持。 2、湖南省自然科學基金青年科學基金項目(2024JJ06),木質素分子空間結構的調控及對其衍生炭儲能性質促進機制的研究,執行時間:2024.01-2026.12;在研,主持。 3、湖南省教育廳優秀青年項目(22B0304),木質素基碳納米纖維中共價鍵連接對其電化學性能調控機制的研究,執行時間:2022.10-2025.12;在研,主持。 4、電力與交通材料保護湖南省重點實驗室開放基金(2022CL03),分子作用力對生物質碳儲能性能應答機制的研究,2023.1-2024.12;在研,主持。 5、長沙理工大學科研啟動項目,生物質基碳納米材料中化學鍵連接對其元素組成、形貌及儲能性能調控機制的研究,執行時間:2022.09-2025.09;在研,主持。 ? 近5年科研論文: 1.Dai Z, Zhang Y. Z , Ma Y, et al. Nickel-cobalt-TiO2 co-doped lignin based carbon nanofibers: Versatile integrated material for supercapacitor and microwave absorption. Diamond and Related Materials, 2023, 139, 120330. (二區, IF 4.1) 2.Dai Z, Ren P , Guo Z , et al. Silver nanoparticles as a conductive bridge for high‐performance flexible all‐solid‐state asymmetric supercapacitor[J]. International Journal of Energy Research, 2022, 46(2):1813-1825. (二區, IF 4.8) 3.Dai Z, Ren P G, Guo Z Z, et al. Three-dimensional porous carbon materials derived from locust for efficient N-O-S co-doped supercapacitors by facile self-template and in-situ doping method. Fuel Processing Technology, 2021, 213, 106677. (一區, IF 8.1) 4.Dai Z, Ren P G, Guo Z.Z., et al. Pore and Heteroatom Controlled Super Absorbent Resin-derived Carbon Aerogels for Supercapacitors via Adjusting the Methylene Blue Concentration. Advanced Materials Interfaces 2021, 8(23), 2101266. (二區, IF 6.4) 5.He W W, Ren P G, Dai Z*, et al. Hierarchical Porous Carbon Composite Constructed with 1-D CNT and 2-D GNS Anchored on 3-D Carbon Skeleton from Spent Coffee Grounds for Supercapacitor. Applied Surface Science 2021, 558,149899. (通訊作者, 一區, IF 7.4,) 6.Dai Z, Ren P G, Zhang H, et al. Nitrogen-doped and hierarchically porous carbon derived from spent coffee ground for efficient adsorption of organic dyes. Carbon Letter 2021, 31(6)4 1249-1260. 7.Dai Z, Ren P G, Cao Q. P. , et al. Synthesis of TiO2@lignin based carbon nanofibers composite materials with highly efficient photocatalytic to methylene blue dye[J]. Journal of Polymer Research, 2020, 532, 147482. 8.Gao X, Ren P G, Dai Z*, et al. Fabrication of visible-light responsive TiO2@C photocatalyst with an ultra-thin carbon layer to efficiently degrade organic pollutants. Applied Surface Science, 2020, 532, 147482. (通訊作者, 一區, IF 7.4,) 9.Dai Z, Ren P G , He W W, et al. Boosting the electrochemical performance of nitrogen-oxygen co-doped carbon nanofibers based supercapacitors through esterification of lignin precursor. Renewable Energy, 2020, 162, 613-623. (一區, IF 8.6) 10.Ren P G, He W W, Dai Z.*, et al. One-Step Synthesis of Nitrogen, Sulfur co-doped Interconnected Porous Carbon Derived from Methylene Blue for High-Performance Supercapacitors. Diamond and Related Materials, 2020, 109, 108028. (通訊作者, 二區, IF 4.1) 11.Dai Z, Ren P G , Zhang H, et al. Nitrogen-sulphur Co-doped graphenes modified electrospun lignin/ polyacrylonitrile-based carbon nanofiber as high performance supercapacitor. Journal of Power Sources, 2019, 437:226937. (一區, IF 9.8) 12.Dai Z, Cao Q P, Liu H, et al. Biomimetic Biomass-Based Carbon Fibers: Effect of Covalent-Bond Connection on Performance of Derived Carbon Fibers. ACS Sustainable Chemistry & Engineering, 2019, 7, 16084-16093. (一區, IF 9.2) 13.Dai Z, Shi X , Liu H , et al. High-strength lignin-based carbon fibers via a low-energy method. RSC Advances, 2018, 8, 1218-1224. ? 專利與成果轉化: 1、任鵬剛;戴忠, 一種孔隙可調節的多孔活性碳電極材料的制備方法,CN202110430657.1 |
