| 期刊論文1. | Chen, L.、Wang, K.、Xie, X.、Xie, J.(2006)。Enhanced electrochemical properties of arrayed CNxnanotubes directly grown on Tibuffered silicon substrates。Electrochemical and Solid State Lett,9,A175-A178。 | 2. | Chen, L.、Wang, K.、Xie, X.、Xie, J.(2007)。Effect of vinylene carbonate (VC) as electrolyte additive on electrochemical performance of Si film anode for lithium ion batteries。Journal of Power Sources,174,538-543。 | 3. | Chevrier, V. L.、Liu, L.、Wohl, R.、Chandrasoma, A.、Vega, J. A.、Eberman, K. W.、Stegmaier, P.、Figgemeier, E.(2018)。Design and testing of prelithiated full cells with high silicon content。Journal of the Electrochemical Society,165,A1129-A1136。 | 4. | Choi, N. S.、Yew, K. H.、Lee, K. Y.、Sung, M.、Kim, H.、Kim, S. S.(2006)。Effect of fluoroethylene carbonate additive on interfacial properties of silicon thin-film electrode。Journal of Power Sources,161,1254-1259。 | 5. | Du. F. H.、Wang, K. X.、Chen, J. S.(2016)。Strategies to succeed in improving the lithium-ion storage properties of silicon nanomaterials。Journal of Materials Chemistry A,4(1),32-50。 | 6. | Eshetu, G. G.、Figgemeier, E.(2019)。Confronting the challenges of next-generation silicon anode-based lithium-ion batteries: role of designer electrolyte additives and polymeric binders。ChemSusChem,12(12),2515-2539。 | 7. | Etacheri, V.、Haik, O.、Goffer, Y.、Roberts, G. A.、Stefan, I. C.、Fasching, R.、Aurbach, D.(2012)。Effect of fluoroethylene carbonate (FEC) on the performance and surface chemistry of Sinanowire Li-ion battery anodes。Langmuir,28,965-976。 | 8. | Han, G. B.、Ryou, M. H.、Cho, K. Y.、Yong, M. L.、Park, J. K.(2010)。Effect of succinic anhydride as an electrolyte additive on electrochemical characteristics of silicon thinfilm electrode。Journal of Power Sources,195,3709-3714。 | 9. | Jiang, S.、Hu, B.、Sahore, R.、Zhang, L.、Liu, H.、Zhang, L.、Lu, W.、Zhao, B.、Zhang, Z.(2018)。Surface-functionalized silicon nanoparticles as anode material for lithium-ion battery。ACS Applied Materials & Interfaces,10(51),44924-44931。 | 10. | Jin, Y.、Zhu, B.、Lu, Z.、Liu, N.、Zhu, J.(2017)。Challenges and recent progress in the development of Si anodes for lithium-ion battery。Advanced Energy Materials,7。 | 11. | Kim, M. K.、Shin, W. H.、Jeong, H. M.(2019)。Protective carbon-coated silicon nanoparticles with graphene buffer layers for high performance anodes in lithiumion batteries。Applied Surface Science,467/468,926-931。 | 12. | Lee, P. K.、Tahmasebi, M. H.、Ran, S.、Boles, S. T.、Yu, D. Y. W.(2018)。Leveraging titanium to enable silicon anodes in lithium-ion batteries。Small,14(41),1802051-1802059。 | 13. | Li, P.、Zhao, G.、Zheng, X.、Xu, X.、Yao, C.、Sun, W.、Dou, S. X.(2018)。Recent progress on silicon-based anode materials for practical lithium-ion battery applications。Energy Storage Materials,15,422-446。 | 14. | Li, Y.、Xu, G.、Yao, Y.、Xue, L.、Zhang, S.、Lu, Y.、Toprakci, O.、Zhang, X.(2013)。Improvement of cyclability of silicon-containing carbon nanofiber anodes for lithium-ion batteries by employing succinic anhydride as an electrolyte additive。Journal of Solid State Electrochemistry,17(5),1393-1399。 | 15. | Liu, L.、Lyu, J.、Li, T.、Zhao, T.(2016)。Wellconstructed silicon-based materials as highperformance lithium-ion battery anodes。Nanoscale,8,701-722。 | 16. | Liu, N.、Wu, H.、McDowell, M. T.、Yao, Y.、Wang, C.、Cui, Y.(2012)。A yolk-shell design for stabilized and scalable Li-ion battery alloy anodes。Nano Letters,12(6),3315-3321。 | 17. | Liu, X. H.、Zhang, L. Q.、Zhong, L.、Liu, Y.、Zheng, H.、Wang, J. W.、Cho, J. H.、Dayeh, S. A.、Picraux, S. T.、Sullivan, J. P.、Mao, S. X.、Ye, Z. Z.、Huang, J. Y.(2011)。Ultrafast electrochemical lithiation of individual Si nanowire anodes。Nano Letter,11(6),2251-2258。 | 18. | Liu, Y.、Qin, L.、Liu, F.、Fan, Y.、Ruan, J.、Zhang, S.(2018)。Interpenetrated 3D porous silicon as high stable anode material for Li-Ion battery。Journal of Power Sources,406,167-175。 | 19. | Liu, Y.、Wen, Z. Y.、Wang, X. Y.、Hirano, A.、Imanishi, N.、Takeda, Y.(2009)。Electrochemical behaviors of Si/C composite synthesized from F-containing precursors。Journal of Power Sources,189(1),733-737。 | 20. | Magasinski, A.、Zdyrko, B.、Kovalenko, I.、Hertzberg, B.、Burtovyy, R.、Huebner, C. F.、Fuller, T. F.、Luzinov, I.、Yushin, G.(2010)。Toward Efficient Binders for Li-Ion Battery Si-Based Anodes: Polyacrylic Acid。ACS Applied Materials & Interfaces,2(11),3004-3010。 | 21. | Maranchi, J. P.、Hepp, A. F.、Evans, A. G.、Nuhfer, N. T.、Kumta, P. N.(2006)。Interfacial Properties of the a-Si/Cu :Active-Inactive Thin-Film Anode System for Lithium-Ion Batteries。Journal of the Electrochemical Society,153(6),A1246-A1253。 | 22. | Mu, T.、Zuo, P.、Lou, S.、Pan, Q.、Li, Q.、Du, C.、Gao, Y.、Cheng, X.、Ma, Y.、Yin, G.(2018)。A two-dimensional nitrogen-rich carbon/silicon composite as high performance anode material for lithium ion batteries。Chemical Engineering Journal,341,37-46。 | 23. | Persson, K.、Sethuraman, V. A.、Hardwick, L. J.、Hinuma, Y.、Meng, Y. S.、Ven, A.、Srinivasan, V.、Kostecki, R.、Ceder, G.(2010)。Lithium Diffusion in Graphitic Carbon。Journal of Physical Chemistry Letters,1(8),1176-1180。 | 24. | Ree, T.(2020)。Electrolyte additives for improved lithium-ion battery performance and overcharge protection。Current Opinion in Electrochemistry,21,22-30。 | 25. | Schmuch, R.、Wagner, R.、Hörpel, G.、Placke, T.、Winter, M.(2018)。Performance and cost of materials for lithium-based rechargeable automotive batteries。Nature Energy,3(4),267-278。 | 26. | Shang, H.、Zuo, Z.、Yu, L.、Wang, F.、He, F.、Li, Y.(2018)。Low-Temperature Growth of All-Carbon Graphdiyne on a Silicon Anode for High-Performance Lithium-Ion Batteries。Advanced Materials,30(27)。 | 27. | Shao, D.、Zhong, H.、Zhang, L.(2014)。Water-Soluble Conductive Composite Binder Containing PEDOT: PSS as Conduction Promoting Agent for Si Anode of Lithium-Ion Batteries。ChemElectroChem,1,1679-1687。 | 28. | Shen, X.、Tian, Z.、Fan, R.、Shao, L.、Zhang, D.、Cao, G.、Kou, L.、Bai, Y.(2018)。Research progress on silicon/carbon composite anode materials for lithium-ion battery。Journal of Energy Chemistry,27(4),1067-1090。 | 29. | Su, X.、Wu, Q.、Li, J.、Xiao, X.、Lott, A.、Lu, W.、Sheldon, B. W.、Wu, J.(2013)。Silicon-based nanomaterials for lithium-ion batteries: A review。Advanced Energy Materials,4(1),375-379。 | 30. | Thackeray, M. M.、Wolverton, C.、Isaacs, E. D.(2012)。Electrical energy storage for transportation--approaching the limits of, and going beyond, lithium-ion batteries。Energy & Environmental Science,5(7),7854-7863。 | 31. | Tiana, H.、Tana, X.、Xina, F.、Wang, C.、Han, W.(2015)。Micro-sized nano-porous Si/C anodes for lithium ion batteries。Nano Energy,11,490-499。 | 32. | Wu, H.、Cui, Y.(2012)。Designing nanostructured Si anodes for high energy lithium ion batteries。Nano Today,7(5),414-429。 | 33. | Xie, J.、Tong, L.、Su, L.、Xus, Y.、Wang, L.、Wang, Y.(2017)。Core-shell yolk-shell Si@C@Void@C nanohybrids as advanced lithium ion battery anodes with good electronic conductivity and corrosion resistance。Journal of Power Sources,342,529-536。 | 34. | Xu, C.、Lindgren, F.、Philippe, B.、Gorgoi, M.、Björefors, F.、Edström, K.、Gustafsson, Torbjörn(2015)。Improved Performance of the Silicon Anode for Li-Ion Batteries: Understanding the Surface Modification Mechanism of Fluoroethylene Carbonate as an Effective Electrolyte Additive。Chemistry of Materials,27(7),2591-2599。 | 35. | Zhang, L.、Zhang, L.、Chai, L.、Xue, P.、Hao, W.、Zheng, H.(2014)。A coordinatively cross-linked polymeric network as a functional binder for high-performance silicon submicro-particle anodes in lithium-ion batteries。Journal of Materials Chemistry A,2(44),19036-19045。 | 36. | Zhang, Z.、Wang, Y.、Ren, W.、Tan, Q.、Chen, Y.、Li, H.、Zhong, Z.、SÙ, F.(2014)。Scalable Synthesis of Interconnected Porous Silicon/Carbon Composites by the Rochow Reaction as High‐Performance Anodes of Lithium Ion Batteries。Angewandte Chemie International Edition,53(20),5165-5169。 | 37. | Zhou, R.、Guo, H.、Yang, Y.、Wang, Z.、Li, X.、Zhou, Y.(2016)。N-doped carbon layer derived from polydopamine to improve the electrochemical performance of spray-dried Si/graphite composite anode material for lithium ion batteries。Journal of Alloys and Compounds,689,130-137。 | 圖書1. | 經濟部技術處(2019)。2019/2020產業技術白皮書。臺灣經濟研究院。 延伸查詢 | 2. | Department of Energy's Vehicle Technologies Office(2015)。Energy Storage, Annual Report。 | 3. | Pierson, H. O.(1993)。Handbook of Carbon, Graphite, Diamond and Fullerenes: Properties, Processing and Applications。William Andrew。 | 其他1. | Office of Energy Efficiency & Renewable Energy(2019)。Batteries and electrification R&D。 | |