姓名:劉書德
職稱:特聘研究員(博士生導師)
辦公電話:021-67792186
通訊地址:上海市松江區人民北路2999号
電子郵箱:sdliu@dhu.edu.cn
教育背景
2016.09—2020.02 延世大學 博士
工作經曆
2023.03—至今 402永利 特聘研究員
2023.01—2023.03 日本國立物質材料研究所 MANA博士後
2021.01—2023.01 日本國立物質材料研究所 JSPS特别研究員
2020.03—2021.01 延世大學 博士後
研究方向
1. 柔性納米纖維材料的制備科學及應用
2. 無機納米材料的合成及改性
3. 缺陷工程、應變調控及空間限域設計
4. 電極材料的表界面科學
5. 柔性電極材料及電化學儲能系統
6. 可穿戴智能紡織品
科研項目
402永利高層次人才項目專項資金 主持
國家自然科學基金青年基金 主持
402永利勵志計劃專項資金 主持
日本學術振興會特别研究員(JSPS)研究基金 主持
國家公派留學基金 主持
BK21領導者博士後研究員支持項目 主持
代表論文
研究集中于電極材料晶體結構、缺陷化學和結構限域對界面化學的影響,及其在柔性儲能等相關應用領域的研究。迄今共發表SCI期刊論文69篇,其中以第一作者或通訊作者在Adv. Mater.、J. Am. Chem. Soc.、ACS Energy Lett.(2篇)、Adv. Energy Mater.(3篇)、ACS Nano(2篇)、Adv. Funct. Mater.(2篇)、Energy Storage Mater.(3篇)Adv. Sci.、Appl. Catal. B、Chem. Sci.、Small(8篇)和J. Mater. Chem. A(8篇)等國際學術期刊上發表SCI論文51篇(入選ESI高被引論文9篇),論文累計總被引4900餘次,H-index=34(谷歌學術)。受Wiley出版社邀請共同撰寫英文專著章節1部。每年拟招收博士研究生和碩士研究生若幹,非常歡迎熱愛科研、陽光樂觀、勤奮刻苦、基礎紮實的同學報考。
代表作 (時間倒序排列)
1. Yan, Y.#,Lin, J.#, Huang, K., Zheng, X., Qiao, L.,Liu, S.*, Cao, J., Jun, S. C., Yamauchi, Y.* Qi, J.* Tensile strain mediated spinel ferrites enabling superior oxygen evolution activity. Journal of the American Chemical Society,https://doi.org/10.1021/jacs.3c08598(2023).
2. Wang, T., Wang, P., Pan, L., He, Z. *, Dai, L., Wang, L., Liu, S. *, Jun, S.C., Lu, B., Liang, S. and Zhou, J*. Stabling zinc metal anode with polydopamine regulation through dual effects of fast desolvation and ion confinement. Advanced Energy Materials, 13, 2203523 (2023).
3. Cao, H., Zhang, X., Xie, B., Huang, X., Xie, F., Huo, Y.,Liu, S.*, Lin, D*. Unraveling the solvation structure and electrolyte interface through carbonyl chemistry for durable and dendrite-free Zn anode.Advanced Functional Materials, adfm.202305683 (2023).
4. Pan, F. #, Jia J.#, Gong F., Liu Y., Liu, S.*, Jun, S.C., Lin D., Guo. Y.,* Yusuke Yamauchi,*Yu Huo*Lattice Matched Heterometallic Electrocatalysts Derived from High-Nuclearity Metal Clusters for Efficient Overall Water Splitting, ACS Nano, doi.org/10.1002/nn-2023-09162(2023).
5. Li, B.#, Liu, S.#, Geng Y., Mao, C., Dai, L., Wang, L., Jun, S. C., Lu, B., He, Z.*, Zhou, J*. Achieving stable zinc metal anode via polyaniline interface regulation of Zn ion flux and desolvation.Advanced Functional Materials,DOI: 10.1002/adfm.202305683(2023).
6. Tian, Y.*, Guo, L., Qiao, C., Sun, Z.*, Yamauchi, Y., Liu, S.* Dynamics-driven tailoring of sub-nanometric Pt-Ni bimetals confined in hierarchical zeolite for catalytic hydrodeoxygenation. Applied Catalysis B: Environmental, 336, 122945 (2023).
7. Peng, Z., Li, Y., Ruan, P., He, Z.*, Dai, L., Liu, S.*, Wang, L., Jun, S. C., Lu, B., Zhou, J*. Metal-organic frameworks and beyond: The road toward zinc-based batteries. Coordination Chemistry Reviews, 488, 215190 (2023).
8. Guo, N., Peng, Z., Huo, W., Li, Y., Liu, S.*, Kang, L., He, Z*.Stabilizing Zn Metal Anode Through Regulation of Zn Ion Transfer and Interfacial Behavior with a Fast Ion Conductor Protective Layer. Small, doi.org/10.1002/smll.202303963 (2023).
9. He, Q., Bai, J., Wang, H., Liu, S.*, Jun, S. C., Yamauchi, Y.*, Chen, L*. (2023). Emerging Pristine MOF‐Based Heterostructured Nanoarchitectures: Advances in Structure Evolution, Controlled Synthesis, and Future Perspectives. Small, doi.org/10.1002/smll.202303884(2023).
10. Chen, J., Liu, B., Cai, H., Liu, S.*, Yamauchi, Y., Jun, S.C*. Covalently Interlayer-Confined Organic-Inorganic Heterostructures for Aqueous Potassium Ion Supercapacitors. Small, 19, 2204275(2023).
11. Patil, R., Dey, T., Kang, L., Liu, S.*, Jun, S. C.*, Dutta, S*. Electronic and Structural Engineering of Atomically Dispersed Isolated Single‐Atom and Alloy Architectures. Small, 19, 2301675 (2023).
12. Liu, S., Kang, L., Zhang, J., Jun, S. C.*, Yamauchi, Y*. Sodium pre-intercalation induced oxygen-deficient hydrated potassium manganese oxide for high-energy flexible Mg-ion supercapacitor.NPG Asia Materials, 9, 15 (2023).
13. Yan, Y., Lin, J., Xu, T., Liu, B., Huang, K., Qiao, L., Liu, S.*, Cao, J., Jun, S.C., Yamauchi, Y.* and Qi, J.* Atomic-level platinum filling into Ni-vacancies of dual-deficient NiO for boosting electrocatalytic hydrogen evolution.Advanced Energy Materials, 12, 2200434 (2022).
14. Sun, Z., Sun, L., Koh, S. W., Ge, J., Fei, J., Yao, M., Liu, S.*,Yamauchi, Y* Li, H*. (2022). Photovoltaic‐powered supercapacitors for driving overall water splitting: A dual-modulated 3D architecture. Carbon Energy, 4, 1262-1273.
15. Liu, S., Kang*, L., Henzie, J., Zhang*, J., Ha, J., Amin, M. A., Yamauchi*, Y. Realizing superior redox kinetics of hollow bimetallic sulfide nanoarchitectures by defect-induced manipulation toward flexible solid-state supercapacitors. Small. 8, 2104507 (2022).
16. Patil, R., Liu, S.*, Yadav, A., Khaorapapong, N., Yamauchi, Y.*, Dutta, S*. Superstructures of Zeolitic Imidazolate Frameworks to Single- and Multiatom Sites for Electrochemical Energy Conversion. Small, 18, 2203147(2022).
17. Zhan, F., Wang, H., He, Q., Xu, W., Chen, J., Ren, X.,Liu, S.*, Yamauchi, Y.* Chen, L*. Metal–organic frameworks and their derivatives for metal-ion (Li, Na, K and Zn) hybrid capacitors. Chemical Science,13, 11981-12015 (2022).
18. Liu, S.; Kang, Jun, S. C*. Challenges and strategies towards cathode materials for rechargeable potassium-ion batteries. Advanced Materials, 33, 2004689 (2021).
19. Liu, S.; Kang*, L.; Hu, J; Jeol, E; Zhang, J.; Jun, S. C*; Yamauchi, Y*. Unlocking the potential of oxygen-deficient copper-doped Co3O4 nanocrystals confined in carbon as an advanced electrode for flexible solid-state supercapacitors. ACS Energy Letters, 6, 3011-3019 (2021).
20. Liu, S., Kang, L., Henzie, J., Zhang, J., Ha, J., Amin, M. A., Jun, S. C*, Yamauchi, Y*. (2021). Recent advances and perspectives of battery-type anode materials for potassium ion storage. ACS Nano, 15, 18931-18973(2021).
21. Liu, S.; Kang, L.; Zhang, J.; Jun, S. C*; Yamauchi, Y*. Carbonaceous anode materials for nonaqueous sodium- and potassium-ion hybrid capacitors.ACS Energy Letters,6, 4127–4154 (2021).
22. Liu, S.; Kang, L.; Kim, J. M.; Chun, Y. T.; Zhang, J.; Jun, S. C*. Recent advances in vanadium-based aqueous rechargeable zinc-ion batteries. Advanced Energy Materials, 10, 2000477 (2020).
23. Liu, S., Kang, L., Zhang, J., Jung, E., Lee, S., Jun, S. C. Structural engineering and surface modification of MOF-derived cobalt-based hybrid nanosheets for flexible solid-state supercapacitors. Energy Storage Materials, 32, 167-177 (2020).
24. Liu, S., Yin, Y., Shen, Y., Hui, K. S., Hui, K. N.*, Zhang, L.P*, Jun, S. C*. Phosphorus regulated cobalt oxide@nitrogen-doped carbon nanowires for flexible quasi-solid-state supercapacitors. Small, 16, 1906458 (2020).
25. Liu, S., Yin, Y., Hui, K. S., Hui, K. N.*, Lee, S. C., Jun, S. C.*, Phosphorous-containing oxygen-deficient cobalt molybdate as an advanced electrode material for supercapacitors. Energy Storage Materials, 19, 186-196 (2019).
26. Liu, S., Ni, D., Li, H. F., Hui, K. N.*, Ouyang, C. Y.*, Jun, S. C*. New insight into the effect of fluorine doping and oxygen vacancies on electrochemical performance of Co2MnO4 for flexible quasi-solid-state asymmetric supercapacitors. Energy Storage Materials, 22, 384-396 (2019).
27. Liu, S., Yin, Y., Ni, D., San Hui, K., Hui, K. N.*, Lee, S. Jun, S. C*. Phosphorus-mediated MoS2 nanowires as a high-performance electrode material for quasi-solid-state sodium-ion intercalation supercapacitors. Small, 4, 1803984 (2019).
28. Liu, S., Gao. Da., Yin, Y., Hui, K. S., Hui, K. N.*, Jun, S. C.*. Phosphorus dual-site driven CoS2@S, N co-doped porous carbon nanosheets for flexible quasi-solid-state supercapacitors. Journal of Materials Chemistry A, 7, 26618-26630 (2019).
29. Liu, S.; Lee, S. C.; Patil, U. M.; Ray, C.; Sankar, K. V.; Zhang, K.; Kundu, A.; Park, J. H.; Jun, S. C.*. High-performance flexible quasi-solid-state supercapacitors realized by molybdenum dioxide@nitrogen-doped carbon and copper-cobalt sulfide tubular nanostructures. Advanced Science, 5, 1800733 (2018).
30. Liu, S., Ni, D., Li, H. F., Hui, K. N.*, Ouyang, C. Y.*, Jun, S. C.*. Effect of cation substitution on the pseudocapacitive performance of spinel cobaltite MCo2O4 (M= Mn, Ni, Cu, and Co). Journal of Materials Chemistry A, 6, 10674 (2018).
獲獎榮譽
上海市海外高層次人才 (2023年)
全球前2%頂尖科學家榜單 (2023年)
日本學術振興會(JSPS)學者 (2021年)
皇家化學學會在韓5%高被引作者 (2022年)
韓國電力研究院貢獻獎 (2020年)
在韓優秀國家公派留學人員 (2019年)
社會任職
專刊編輯: Transactions of Tianjin University
專刊編輯: Frontiers In Chemistry
專刊編輯: Nanomaterials
專刊編輯: Frontiers In Materials
青年編委: Environmental Science & Ecotechnology
青年編委: Nano Materials Science
青年編委: Rare Metals
青年編委: Journal of Central South University
青年編委: Tungsten
青年編委: Results in Engineering