研究專長 ISI statistics: Till date 446 ISI papers, Total citations ~ 19,359, Average citations per item ~ 43.42, and H-index = 71 (till 10/05/2022)
林麗瓊
Li-Chyong Chen
臺大新穎材料原子級科學研究中心主任 / 物理系教授
電話:(02)3366-5249
傳真:(02)2365-5404
E-MAIL:chenlc@ntu.edu.tw
網站:尖端材料實驗室
材料科學
學歷
美國哈佛大學應用物理學博士 (1983-1989)
國立台灣大學物理系學士 (1977-1981)
現職與經歷
臺大物理系教授 (2023-present)
臺大凝態科學研究中心合聘研究員 (2023-present)
臺大新穎材料原子級科學研究中心主任 (2018-present)
臺大物理系合聘教授 (2021-2023)
臺大凝態科學研究中心主任 (2012-2018)
臺大凝態科學研究中心研究員 (2000-2023)
臺大凝態科學研究中心副研究員 (1994-2000)
美國奇異公司研發中心材料科學研究員 (1989-1994)
美國哈佛大學研究生兼任助理 (1983-1989)
臺大物理系專任助教 (1981-1983)
榮譽
世界科學院物理學門院士(2024)
中央研究院第33屆數理科學組院士(2022)
徐有庠先生紀念基金會「有庠科技講座_奈米科技類」(2020)
教育部學術獎 (2018)
臺灣真空學會會士 (2018)
臺灣傑出女科學家獎 (2017)
亞太材料科學院院士 (2015)
阿查亞維諾瓦國際材料科學與技術獎, 印度 (2013)
侯金堆傑出榮譽獎_材料組 (2012)
臺大特聘研究員 (校級, 2011- present)
傑出人才發展基金會傑出人才講座 (2010-2015)
國科會傑出獎 (2010-2013)
美國材料學會會士, 美國 (2010)
國際花喇子模獎, 伊朗 (2009)
國際發明家協會女士獎 (2009)
國科會傑出學者研究計畫 (2008-2011)
英國皇家工程學院傑出訪問學者, 英國 (2008)
臺大特聘研究員 (院級, 2007-2011)
瑞典林雪平大學榮譽博士, 瑞典 (2007)
國科會傑出獎 (2007)
中華民國物理學會會士 (2006)
臺大研究成就獎 (2004)
中研院年輕學者研究著作獎 (2000)
Renhold Rudenberg Memorial Prize for Graduate Student, Harvard, USA (1989)
IBM Predoctoral Fellowship, USA (1986-1988)
主要研究領域
主要研究領域在半導體、光電與能源材料,並著重於利用先進薄膜技術來合成低維度奈米材料,探討其成長機制、微結構與各種物理及化學性質的關係,從而開發其應用潛能。 本實驗室著重於碳基奈米材料(包括奈米碳管與石墨烯)、矽與三-五族氮化物、金屬氧化物、環大錯合物等材料系統與其低維度複合結構之開發;已建置相當多元之化學與物理氣相沈積設施,例如:磁控濺鍍、分子束磊晶、原子層沈積、微波與電子迴旋共振電漿化學氣相沈積等等。展望未來,於節能光電與永續能源領域之基礎與應用研究上,無論是燃料電池、超級電容、光催化、太陽能電池或熱電,本實驗室將致力於開發基於物產資源較豐富元素之新穎材料,並著重於建置綠色與環保之製程。
專業任命與學術社群服務
1. Member of the Board of Trustees:
National Synchrotron Radiation Research Center, Taiwan (2018-present)
2. Member of the Commission on Structure and Dynamics of Condensed Matter (C.10):
International Union of Pure and Applied Physics (IUPAP) (2018-2020)
3. Member of the Board of Directors:
Materials Research Society (MRS), USA (2017-2019)
4. Series Editor, Member of the Series Board:
World Scientific Publishing Company (WSPC) Series in Nanoscience and Nanotechnology (2015-present)
5. Advisory Editor:
Book Series on Energy and Sustainability, Cambridge University Press and the Materials Research Society (2013-present)
6. Editorial Advisory Board:
Critical Reviews in Solid State and Materials Sciences, Taylor and Francis (2004-present)
7. Editorial Board:
Advanced Mater. Lett., VBRI Press (2010-present); Intl. J. of Molecular Engineering, Inderscience Publishers (2007-present); Nanosci. Nanotech. Lett., American Scientific Publishers (2010-2012); Open Phys. Chem. Journal and Open Appl. Phys. Journal, Bentham Science Publishers (2007-2013)
8. Associate Editor:
Journal of Vacuum Science and Technology B-Microelectronics and Nanometer Structures (2004-2006)
9. Meeting Co-Chair:
TACT International Conference on Thin Films (Tainan, 2015; Taipei, 2013; Kenting 2011)
10. Meeting Co-Chair:
MRS Fall Meeting, Boston, MA, USA (2009)
11. Meeting Chair:
AVS-International Conference on One-dimensional Nanomaterials, Taipei, Taiwan (2005)
12. Symposium Chair:
MRS Spring Meeting, San Francisco, CA, USA (2008); IMRC/China-MRS, Chongqing, China (2008); 214th ECS & Pacific Rim Meeting on Electrochemistry & Solid-State Science (PRiME), Honolulu, HI, USA (2008); 213th ECS, Phoenix, AZ, USA (2008); International Conference on Metallurgical Coatings and Thin Films (ICMCTF), San Diego, CA, USA (2004-2007)
13. International Advisory Committee:
European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and SiC (Riva Del Garda, Italy, 2013; Granada, Spain, 2012; Garmisch-Partenkirchen, Bavaria, Germany 2011; Budapest, Hungary, 2010; Athens, Greece, 2009; Sitges, Spain, 2008; Berlin, Germany, 2007; Estoril, Portugal, 2006; Toulouse, France, 2005; Riva Del Garda, Italy, 2004)
14. International Advisory or Program Committee:
8th Forum on New Materials (CIMTEC), 2018; 6th Intl. Conf. on Novel Functional Carbon Nanomaterials, 2018, Perugia, Italy; International Conference on New Diamond and Nano Carbons (NDNC), 2018, Flagstaff, AZ, USA; Advanced Materials World Congress (AMWC), Stockholm, Sweden, 2015; 6th Forum on New Materials (CIMTEC), on Novel Functional Carbon Nanomaterials, Montecatini Terme, Tuscany, Italy, 2014; Intl. Conf. on Nanosystems and Applications, Coimbatore, India, 2012; Intl. Conf. on Nanomater. & Nanotech. (ICNANO), Delhi, India, 2011; SPIE Photonics West, San Francisco, USA, 2011; NANOCarbon-IVESC, Nanjing, China, 2010; 6th Intl. Workshop on Nitride Semiconductors (IWN), Tampa, Florida, USA, 2010; IEEE Nano, Seoul, Korea, 2010; 2nd Intl. Conf. on Surface, Coatings and Nanostructured Mater. (NanoSMAT), Algarve, Portugal, 2007; Thin Films, Singapore, 2006; 11th Intl. Ceramics Congress and 4th Forum on New Materials (CIMTEC), on Diamond and Other New Carbon Materials, Sicily, Italy, 2006; 6th Intl. Symposium on Blue Laser and Light Emitting Diodes (ISBLLED), Montpellier, France, 2006
15. Guest Editor:
Diamond and Related Materials Vol. 18, Issues 2-3_Proceedings of the International Conference on New Diamond and Nano Carbons 2008, ed. I. N. Lin, K. H. Chen, L. Chang, L. C. Chen, and Y. H. Tzeng, Elsevier B. V. (2009)
16. Proceeding Editor:
Carbon Nanotubes and Related Low-Dimensional Materials, ed. L. C. Chen, D. B. Geohegan, J. Robertson, and Z. L. Wang, MRS Symp. Proc. Vol. 1081E, Warrendale, PA (2008)
17. Proceeding Editor:
State-of-the-Art Program on Compound Semiconductors 48: ZnO, InZnO and InGaO Related Mater. & Devices for Electronic and Photonic Applications, ed. M. E. Overberg, F. Ren, B. Gila, P. S. Nam, H. Ouyang, L. C. Chen, Y. Heo, J. Kim, J. LaRoche, P. Shen, and K. Shiojima, ECS, Pennington, NJ, Vol. 1, No.2. (2008)
18. Faculty Advisor :
MRS University Chapters-National Taiwan University (2015-present)
19. Chair:
Pacific Rim Subcommittee of MRS, USA (2010-2011)
20. Founding President:
Taiwan Chapter of AVS (2006-2008)
21. Councilor:
Taiwan Association of Coating Technology (2003-2007, 2010-2021)
22. Member of the Board of Supervisor:
Taiwan Electrochemical Society, Taiwan (2021-present)
23. Supervisor:
Society of Taiwan Women in Science and Technology (2011-2013)
24. Supervisor:
Taiwan Vacuum Society, Taiwan (2009-2012)
25. Vice President:
Physical Society of the Republic of China, Taiwan (2006-2007) & Councilor (2003-2009)
代表著作
Representative papers published before 2018: [IF: 5-yr average, ▲: citations till 10/05/2022]
1. ‘Photosensitive Gold Nanoparticle-embedded Dielectric Nanowires’, M. S. Hu, H. L. Chen, C. H. Shen, et al., K. H. Chen and L. C. Chen, Nature Mater. 5, 102-106 (2006). [IF=49.937 (4/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 241] {highly cited}
2. ‘Improved Broadband and Quasi-omni-directional Anti-reflection Properties with Biomimetic Si Nanostructure’, Y. F. Huang, S. Chattopadhyay, Y. J. Jen, et al., K. H. Chen and L. C. Chen, Nature Nanotech. 2, 770-774 (2007). [IF=42.23 (6/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 848] {highly cited}
3. ‘Polymer Structure and Solvent Effects on the Selective Dispersion of Single-wall Carbon Nanotubes’, J. Y. Hwang, A. Nish, J. Doig, et al., L. C. Chen and R. J. Nicholas, J. Am. Chem. Soc. 130, 3543-3553 (2008). [IF=16.289 (16/179, CHEMISTRY, MULTIDISCIPLINARY), ▲: 258] {highly cited}
4. ‘Anti-reflecting and Photonic Nanostructures’, S. Chattopadhyay, Y. F. Huang, Y. J. Jen, A. Ganguly, K. H. Chen and L. C. Chen, an invited review article in A. G. Cullis and S. S. Lau, Eds. Mater. Sci. Eng. R. Rep. 69, pp. 1-35 (2010). [IF=33.474 (7/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 473] {Cover} {highly cited}
5. ‘Flexible Supercapacitor Based on Polyaniline Nanowires/Carbon Cloth with both High Gravimetric and Area-normalized Capacitance’, Y. Y. Horng, Y. C. Lu, Y. K. Hsu, C. C. Chen, L. C. Chen and K. H. Chen, J. Power Sources 195, 4418-4422 (2010). [IF=9.306 (4/30, ELECTROCHEMISTRY), ▲: 273] {highly cited}
6. ‘Vitalizing Fuel Cells with Vitamins: Pyrolyzed Vitamin B12 as a Non-precious Catalyst for Enhanced Oxygen Reduction Reaction of Polymer Electrolyte Fuel Cells’, S. T. Chang, C. H. Wang, H. Y. Du, et al., L. C. Chen, M. C. Lin and K. H. Chen, Energy Environ. Sci. 5, 5305-5314 (2012). [IF=39.151 (1/279, ENVIRONMENTAL SCIENCES), ▲: 102]
7. ‘Plasmonic Ag@Ag3(PO4)1−x Nanoparticle Photosensitized ZnO Nanorod-array Photoanodes for Water Oxidation’, Y. G. Lin, Y. K. Hsu, Y. C. Chen, et al., L. C. Chen and K. H. Chen, Energy Environ. Sci. 5, 8917-8922 (2012). [IF=39.151 (1/279, ENVIRONMENTAL SCIENCES),▲: 96]
8. ‘Effect of Chemical Doping of Boron and Nitrogen on the Optical and Electrochemical Properties of Carbon Nanotubes’, D. Jana, C. L. Sun, L. C. Chen and K. H. Chen, Prog. Mater. Sci. 58, 565-635 (2013). [IF=46 (3/345, MATERIALS SCIENCE, MULTIDISCIPLINARY),▲: 230]
9. ‘Band Gap Engineering of Chemical Vapor Deposited Graphene by in-situ BN Doping’, C. K. Chang, S. Kataria, C. C. Kuo, et al., L. C. Chen and K. H. Chen, ACS Nano 7, 1333-1341 (2013). [IF=18.022 (20/345, MATERIALS SCIENCE, MULTIDISCIPLINARY),▲: 226]
10. ‘Graphene Oxide as a Promising Photocatalyst for CO2 to Methanol Conversion’, H. C. Hsu, I. Shown, H. Y. Wei, et al., L. C. Chen, Y. C. Lin and K. H. Chen, Nanoscale 5, 262-268 (2013). [IF=7.891 (23/161, PHYSICS, APPLIED), ▲: 327] {highly cited}
11. ‘Highly Efficient Visible Light Photocatalytic Reduction of CO2 to Hydrocarbon Fuels by Cu-NPs Decorated Graphene Oxide’, I. Shown, H. C. Hsu, Y. C. Chang, C. H. Lin, P. Roy, A. Ganguly, C. H. Wang, J. K. Chang, C. I. Wu, L. C. Chen and K. H. Chen, Nano Lett. 14, 6097-6103 (2014). [IF=12.709 (13/161, PHYSICS, APPLIED), ▲: 241]
12. ‘Novel Iron Oxyhydroxide Lepidocrocite Nanosheet as Ultrahigh Power Density Anode Material for Asymmetric Supercapacitors’, Y. C. Chen, Y. G. Lin, Y. K. Hsu, et al., L. C. Chen, Small 10, 3803-3810 (2014). [IF=14.257 (11/161, PHYSICS, APPLIED), ▲: 123]
13. ‘Conducting Polymer-based Flexible Supercapacitors’, I. Shown, A. Ganguly, L. C. Chen and K. H. Chen, Energy Sci. Eng. 3, 2-26 (2015). [IF=4.155 (74/119, ENERGY & FUELS), ▲: 337] {highly cited}
14. ‘Beaded−stream−like CoSe2 Nanoneedle Array for Efficient Hydrogen Evolution Electrocatalysis’, C. P. Lee, W. F. Chen, T. Billo, et al., K. H. Chen and L. C. Chen, J. Mater. Chem. A 4, 4553-4561 (2016). [IF=13.375 (26/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 72]
15. ‘Multi-Porous Co3O4 Nanoflakes@Sponge-Like Few-Layer Graphene: Towards Highly Stable Asymmetric Supercapacitor’, M. Qorbani, T. C. Chou, Y. H. Lee, et al., L. C. Chen, K. H. Chen and A. Moshfegh, J. Mater. Chem. A 5, 12569-12577 (2017). [IF=13.375 (26/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 82]
Significant papers published after 2018: [IF: 5-yr average, ▲: citations till 10/05/2022]
1. ‘Ni-Nanocluster Modified Black TiO2 with Dual Active Sites for Selective Photocatalytic CO2 Reduction’, T. Billo, F.-Y. Fu, P. Raghunath, et al., L. C. Chen and K. H. Chen, Small 14, 1702928 (2018). [IF=14.257 (11/161, PHYSICS, APPLIED), ▲: 97]
2. ‘Carbon-doped SnS2 Nanostructure as a High-efficiency Solar Fuel Catalyst under Visible Light’, I. Shown, S. Samireddi, Y.-C. Chang, et al., L. C. Chen and K. H. Chen, Nature Comm. 9, 169 (2018). [IF=17.763 (6/73, MULTIDISCIPLINARY SCIENCES), ▲: 229] {highly cited}
3. ‘A Synergistic “Cascade” Effect in CuZnSnS Nanowalls for Highly Stable and Efficient Lithium-ion Storage’, J.-M. Chiu, T.-C. Chou, D. P. Wong, et al., L. C. Chen and K. H. Chen, Nano Energy 44, 438 (2018). [IF=18.984 (18/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 17]
4. ‘Highly Efficient Nitrogen and Carbon Coordinated N-Co-C Electrocatalyst on Reduced Graphene Oxide Derived from Vitamin-B12 for Hydrogen Evolution Reaction’, P. Sabhapathy, C.-C. Liao, W.-F. Chen, et al., K. H. Chen and L. C. Chen, J. Mater. Chem. A 7, 7179 (2019). [IF=13.375 (26/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 30
5. ‘Integration of (–Cu–S–)n Plane in Metal‒Organic Framework to Achieve High Conductivity’, A. Pathak, J.-W. Shen, M. Usman, et al., M. Hayashi, et al., K. H. Chen, T.-W. Tseng, L. C. Chen, K. L. Lu, Nature Comm. 10, article number 1721 (2019). [IF=17.763 (6/73, MULTIDISCIPLINARY SCIENCES), ▲: 85]
6. ‘KSCN Induced Interfacial Dipole in Black TiO2 for Enhanced Photocatalytic CO2 Reduction’, F.-Y. Fu, I. Shown, C.-H. Li, et al., H. L. Wu, et al., L. C. Chen and K. H. Chen, ACS Appl. Mater. & Inter. 11, 25186 (2019). [IF=10.382 (49/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 45]
7. ‘Interface Engineering of CdS/CZTSSe Heterojunctions for Enhancing the Cu2ZnSn(S,Se)4 Solar Cell Efficiency’, W. C. Chen, C. Y. Chen, Y. R. Lin, et al., K. H. Chen and L. C. Chen, Mater. Today Energy 13, 256 (2019). [IF=8.855 (59/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 12]
8. ‘The Dual-defected SnS2 Monolayers: Promising 2D Photocatalysts for Overall Water Splitting’, B. Sainbileg, Y. R. Lai, L. C. Chen and M. Hayashi, Phys. Chem. Chem. Phys. 21, 26292 (2019). [IF=3.861 (9/36, PHYSICS, ATOMIC, MOLECULAR & CHEMICAL), ▲: 16]
9. ‘Controlling the Oxidation State of the Cu Electrode and Reaction Intermediates for Electrochemical CO2 Reduction to Ethylene’, T.-C. Chou, C.-C. Chang, H.-L. Yu, et al., L. C. Chen, et al., H. L. Wu, J. Am. Chem. Soc. 142, 2857 (2020). [IF=16.289 (16/179, CHEMISTRY, MULTIDISCIPLINARY), ▲: 151] {highly cited}
10. ‘A Mechanistic Study of Molecular CO2 Interaction and Adsorption on Carbon Implanted SnS2 Thin Film for Photocatalytic CO2 Reduction Activity’, T. Billo, I. Shown, A. K. Anbalagan, et al., K. H. Chen and L. C. Chen, Nano Energy 72, 104717 (2020). [IF=18.984 (18/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 32]
11. ‘Fast Growth of Large-grain and Continuous MoS2 Films Through a Self-Capping Vapor-Liquid-Solid Method’, M.-C. Chang, P.-H. Ho, M.-F. Tseng, et al., K. H. Chen, P. W. Chiu, L. C. Chen, Nature Comm. 11, article number 3682 (2020). [IF=17.763 (6/73, MULTIDISCIPLINARY SCIENCES), ▲: 39]
12. ‘Probing the Active Site in Single-atom Oxygen Reduction Catalysts via Operando X-Ray and Electrochemical Spectroscopy’, H.-T. Lien, S.-T. Chang, P.-T. Chen, et al., K. H. Chen and L. C. Chen, Nature Comm. 11, article number 4233 (2020). [IF=17.763 (6/73, MULTIDISCIPLINARY SCIENCES), ▲: 33]
13. ‘Integrated Nano-architectured Photocatalysts for Photochemical CO2 Reduction’, S. C. Shit, I. Shown, R. Paul, K. H. Chen, J. Mondal and L. C. Chen, Nanoscale 12, 23301 (2020). [IF=7.891 (23/161, PHYSICS, APPLIED), ▲: 32] {Inside Back Cover, Invited Review Article, Nanoscale Most Popular 2020 Articles}
14. ‘Superior Lithium-ion Storage Performance of Hierarchical Tin Disulfide and Carbon Nanotube- Carbon Cloth Composites’, Z. Syum, B. V. Gopal, A. Sabbah, et al., H. L. Wu, L. C. Chen and K. H. Chen, J. Power Sources 482, 228923 (2021). [IF=9.306 (4/30, ELECTROCHEMISTRY), ▲: 10]
15. ‘Electronic Structure Modulation of Isolated Co-N4 Electrocatalyst by Sulfur: Improved pH-universal Hydrogen Evolution Reaction’, P. Sabhapathy, I. Shown, A. Sabbah, et al., K. H. Chen and L. C. Chen, Nano Energy 80, 105544 (2021). [IF=18.984 (18/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 15]
16. ‘Surface Electron Accumulation and Enhanced Hydrogen Evolution Reaction in MoSe2 Basal Planes’, Y.-S. Chang, C. Y. Chen, C. J. Ho, et al., L. C. Chen, K. H. Chen, Y. W. Chu and R. S. Chen, Nano Energy 84, 105922 (2021). [IF=18.984 (18/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 16]
17. ‘Nanoscale Redox Mapping at the MoS2-liquid Interface’, H.-Y. Du, Y.-F. Huang, D. Wong, et al., K. H. Chen and L. C. Chen, Nature Comm. 12, article number 1321 (2021). [IF=17.763 (6/73, MULTIDISCIPLINARY SCIENCES), ▲: 4]
18. ‘High-Efficiency Photocatalytic Degradation of Commercial Drugs for Pharmaceutical Wastewater Treatment Prospects: A Case of Ag/g-C3N4/ZnO Nanocomposite Materials’, N. Q. Thang, A. Sabbah, L. C. Chen, K. H. Chen, C. M. Thi and P. V. Viet, Chemosphere 281, 130971 (2021). [IF=8.52 (33/279, ENVIRONMENTAL SCIENCES), ▲: 16]
19. ‘Copper Zinc Tin Sulfide Anode Materials for Lithium-ion Batteries at Low Temperature’, Z. Syum, T. Billo, A. Sabbah, et al., H. L. Wu, L. C. Chen and K. H. Chen, ACS Sustainable Chem. Eng. 9, 27, 8970 (2021). [IF=9.458 (13/142, ENGINEERING, CHEMICAL), ▲: 6]]
20. ‘Impact of Cation Substitution in (AgxCu1−x)2ZnSnSe4 Absorber-based Solar Cells towards above 10% Efficiency: Experimental and Theoretical Analyses’, S. Quadir, M. Qorbani, Y. R. Lai, et al., M. Hayashi, C. Y. Chen, K. H. Chen and L. C. Chen, Solar RRL 5(10), 2100441 (2021). [IF=8.973 (61/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 3] {Featured in Hot Topic: Solar Cells} {Back Cover}
21. ‘Synergistic Dual Single-atom Catalyst Derived from Low-temperature Pyrolyzed Hetero-bimetallic Macrocycle-N4 Corrole-complex for Oxygen Reduction’, S. Samireddi, V. Aishwarya, I. Shown, et al., K. H. Chen and L. C. Chen, Small 17, 2103823 (2021) [IF=14.257 (11/161, PHYSICS, APPLIED), ▲: 1] {Inside Back Cover}
22. ‘Metal-free Four-in-one Modification of g-C3N4 for Superior Photocatalytic CO2 Reduction and H2 Evolution’, M. K. Hussien, A. Sabbah, M. Qorbani, et al., H. L. Wu, et al., L. C. Chen, K. H. Chen, Chem. Eng. J. 430, 132853 (2022). [IF=14.61 (4/142, ENGINEERING, CHEMICAL), ▲: 12]
23. ‘Boosting Photocatalytic CO2 Reduction in a ZnS/ZnIn2S4 Heterostructure through Strain-induced Direct Z-scheme and Mechanistic Study of Molecular CO2 Interaction’, A. Sabbah, I. Shown, F.-Y. Fu, et al., H. L. Wu, et al., K. H. Chen and L. C. Chen, Nano Energy 93, 106809 (2022). [IF=18.984 (18/345, MATERIALS SCIENCE, MULTIDISCIPLINARY), ▲: 14]
24. ‘Bandgap Shrinkage and Charge Transfer in 2D Layered SnS2 Doped with V for Photocatalytic Efficiency Improvement’, A. R. Shelke, H. T. Wang, J. W. Chiou, et al., K. H. Chen, L. C. Chen, W. F. Pong, Small 18, 05076 (2022). [IF=14.257 (11/161, PHYSICS, APPLIED), ▲: 1]
25. ‘Co3V2O8 Hollow Spheres with Mesoporous Walls as High–capacitance Electrode for Hybrid Supercapacitor Device’, Z. Fahimi, O. Moradlou, A. Sabbah, K. H. Chen, L. C. Chen and M. Qorbani, Chem. Eng. J. 436, 135225 (2022). [IF=14.61 (4/142, ENGINEERING, CHEMICAL), ▲: 5]
26. ‘Atomistic Insights into Highly Active Reconstructed Edges of Monolayer 2H-WSe2 Photocatalyst’, M. Qorbani, A. Sabbah, Y.-R. Lai, et al., M. Hayashi, K. H. Chen and L. C. Chen, Nature Comm. 13, article number 1256 (2022). [IF=17.763 (6/73, MULTIDISCIPLINARY SCIENCES), ▲: 6]
Research projects executed in recent years:
1. ‘Probing the Photocatalytic CO2 Reduction Activity and Interface Carrier Transport of Direct Z-scheme Heterostructure Based on in-situ Spectroscopy’ (January 2022 – December 2024), Bilateral Add-on International Joint Program, MoST
2. ‘Two-dimensional Nanomaterials as Photocatalysts and their Interface Physics and Chemistry’ (August 2019 – July 2023), Science Vanguard Research Program, MoST
3. ‘Center of Atomic Initiative for New Materials’ (January 2018 – December 2022), the Featured Areas Research Center Program within the framework of the Higher Education Sprout Project by the Ministry of Education (MOE)
4. ‘Hybrid of Carbon-based Nano-materials and Macrocyclic Supramolecules: from Molecular Design to Interface Physics and Chemistry for Energy Applications’ (August 2014 – July 2019), Academic Summit Program, MOST