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陳隆建

教授

研究室:億光大樓1131室
電話:(02) 2771-2171  分機 4634
傳真:(02) 8773-3216
個人網頁: 

 

簡介

Prof. Lung-Chien Chen received his Ph. D degree in the electrical engineering from the National Tsing Hua University, Hsinchu, Taiwan, in 1999. He has a professional career in industrial institution: Manager and Vice Assistance President in Formosa Epitaxy Photonic Incorporation (1999–2002). In 2002, he joined National Taipei University of Technology (Taipei Tech), Taiwan, as a faculty member of Department of Electro-Optical Engineering. In 2017-2023, he was the chairman of Department of Electro-Optical Engineering. Currently, he is a Distinguished Professor of Taipei Tech and his main research interests include compound semiconductor growth (GaSb, AlInGaP, III-nitrides, zinc oxide, and perovskites), material analysis, and device fabrication technology, light-emitting diodes (LEDs), photodetectors, and solar cells. He has authored or co-authored more than 200 journal papers and 5 books or book chapters. He is the holder of more than 21 patents in his fields of expertise. Prof. Chen is the Optica (former of Optical Society of American (OSA)) Senior member and the IEEE Senior member. He was elected as the fellow of Royal Society of Chemistry (RSC) in 2019. Since 2021, Prof. Chen is on the Elsevier global top 2% of scientists list. In 2023, he was selected as the Director at Large of Taiwan Photonics Society (TPS, Taiwan). In 2023, he was selected as the fellow of IET (UK) and IAAM (Sweden).

 

I, Prof. Lung-Chien Chen, received my Ph. D degree in the electrical engineering from the National Tsing Hua University, Hsinchu, Taiwan, in 1999. I had a professional career in industrial institution: Manager and Vice Assistance President in Formosa Epitaxy Photonic Incorporation (1999–2002). In 2002, I joined National Taipei University of Technology (Taipei Tech), Taiwan, as a faculty member of Department of Electro-Optical Engineering. In 2017-2023, I was the chairman of Department of Electro-Optical Engineering. Currently, I am a Distinguished Professor of Taipei Tech and my main research interests include compound semiconductor growth (GaSb, AlInGaP, III-nitrides, zinc oxide, and perovskites), material analysis, and device fabrication technology, light-emitting diodes (LEDs), photodetectors, and solar cells. I had authored or co-authored more than 160 journal papers and 5 books or book chapters. Also, I am the holder of more than 21 patents in his fields of expertise.

In 2008 and 2019, I am the Optica (former of Optical Society of American (OSA)) Senior member and the IEEE Senior member, respectively. I was elected as the fellow of Royal Society of Chemistry (RSC) in 2019. In 2021 and2022, I am on the Elsevier global top 2% of scientists list. In 2022, I was selected as the Director at Large of Taiwan Photonics Society (TPS). Besides, I was selected as the fellow of International Association of Advanced Materials (IAAM) and International Engineering and Technology (IET) in 2023.

 

學歷

 

Degree

Institution

Year

Bachelor

National Taiwan University of Science and Technology

Department of Electronic Engineering

1991/09~1993/06

MS

National Tsing Hua University

Department of Electrical Engineering

1993/09~1994/06

PhD

National Tsing Hua University

Department of Electrical Engineering

1994/09~1999/06

 

現職及經驗

 

  • 國立台北科技大學 光電工程系 特聘教授 2023年 ~ 
  • 國立台北科技大學 光電工程系 教授兼系主任 2017年 ~ 2023年
  • 國立台北科技大學 光電工程系 特聘教授 2015年 ~ 2017年
  • 國立台北科技大學 光電工程系 教授 2010年02月 ~ 2015年
  • 國立台北科技大學 光電工程系 副教授 2006年10月 ~ 2010年01月
  • 國立台北科技大學 光電工程系 助理教授 2002年08月 ~ 2006年09月
 

 

研究領域

  1. Epitaxial Technology: MOCVD, LPE, and spray method
  2. III-V Compound Semiconductors, Fabrication and analysis
  3. Light-emitting diodes, Mini/Micro LED, Solar cells, Photocatalysis, and Sensors
  4. Nanotechnology
  5. Perovskite quantum dots and optoelectronic devices (QLED, LED, solar cells, and sensors)

研究計畫

  1. Perovskite quantum dots and their optoelectronic devices 2018/08/01~2019/07/31
  2. Study on CsPbI3 perovskite solar cells with high stability 2018/01/01~2018/12/31
  3. Development of Graphene-based Perovskite Electroluminescence Device 2017/08/01~2018/07/31
  4. Novel, flexible and large-area ZnO based perovskite light emitting diodes using semi-transparent graphene electrodes for flat panel solid-state lighting 2016/08/01~2017/07/31
  5. Characteristics of vibrating laser cutting technology for the LED 2016/06/01~2017/05/31 
  6. Research on optical-optical upconverters based on narrow-gap quantum dots (2nd year) 2016/01/01~2016/12/31
  7. Development of white light quantum dot light-emitting diode 2015/08/01~2016/07/31
  8. Development of flip-chip GaN light-emitting diodes using laser lift-off technology 2015/08/01~2016/07/31
  9. Research on optical-optical upconverters based on narrow-gap quantum dots (1st year) 2015/01/01~2015/12/31
  10. The process and properties of white light-emitting diodes with tapered hexagonal and flexible fluorescent substrate made by PDMS 2014/08/01~2016/07/31
  11. Study of the Graphene/Ni/Ag nanoparticles ohmic contact to GaN light-emitting diodes 2013/11/01~2014/10/31
  12. Study on developing of GaN-based light-emitting diodes on flexible substrate 2012/08/01~2013/07/31

國內外學術期刊、服務、活動、擔任重要職務

Fellowship

  • Asia Pacific Society for Materials Research (2017)

 

Senior

  • IET Fellowship (2023)
  • IAAM Fellowship (FIAAM) (2023)
  • RSC Fellowship (FRSC) (2019)
  • Asia Pacific Society for Materials Research (APSMR) Fellow (2017)
  • IEEE Senior Member (2021)
  • OSA Senior Member (2014)
  • SPIE Member (2003)
  • Member of Taiwan Photonics Society (2023)

 

Editor and Editorial member

  • Materials Science in Semiconductor Processing (SCI) - Editorial Member (2011-present)
  • Scientific Reports (SCI) – Editorial Member (2023/24)
  • Advances in Nano Research - Editorial member (2013-present)
  • Discover Nano - Guest Editor (2023/24)
  • Material (SCI) - Guest Editor (2021)
  • Nanomaterials(SCI) - Guest Editor (2019/2020)
  • Applied Sciences (SCI) - Guest Editor (2019/2020)
  • Journal of Mechatronics - Editorial member (2015-2017)

 

Editorial member

  • Materials Science in Semiconductor Processing (SCI) - Editorial Member (2011-)
  • Advanced Nano Research - Editorial member (2013-)
  • Journal of Mechatronics - Editorial member (2013-)

 

Reviewer

  • Superlattices and Microstructures (SCI) 
  • Applied Surface Science (SCI) 
  • Materials Science in Semiconductor Processing (SCI) 
  • Physical Chemistry Chemical Physics review (SCI) 
  • Materials Science and Engineering B (SCI) 
  • Journal of Nanomaterials (SCI) 
  • Nanoscale (SCI) 
  • Journal of Materials Chemistry A (SCI) 
  • Journal of Materials Chemistry C (SCI)
  • Nanotechnology (SCI) 
  • Luminescence (SCI) 
  • Semiconductor Science and Technology (SCI)
  • ACS Applied Materials and Interfaces (SCI) 
  • Insight Medical Publishing Journals 
  • Journal of Physics D: Applied Physics (SCI)
  • International Journal of Hydrogen Energy (SCI) 
  • Materials Technology (SCI) 
  • Materials (SCI) 
  • Journal of the Chinese Institute of Engineers (SCI) 
  • Sensors (SCI) 
  • Journal of Nanoscience with Advanced Technology 
  • Vacuum (SCI))
  • IEEE Photonics Journal (SCI)

發表論文

 

2025

  1. C. H. Tien, J. Y. Fang, L. C. Chen*, Hybrid spin coating and evaporation techniques for fabricating double-layer stacked dual-color perovskite LEDs, Sci. Rep. 2025, 15, 1215.
  2. L. C. Chen, S. A. Chen, K. Y. Ke, Li-Wei Liu, Y. H. Chen, Z. L. Tseng, A novel approach utilizing magnesium acetate as the Mg2⁺ doping source for enhanced stability and efficiency in FAPbI₃ perovskite quantum dot LEDs, Mater. Sci. Semicond. Proc. 2025, 189, 109277.
  3. M. Zhang, B. Wang, Y. Zhao, Z. Jiang, L. Lu, Y. Yan, L. C. Chen, M. Wong, H. S. Kwok, Low Frequency Noise of Elevated-Metal Metal Oxide Thin-Film Transistor, IEEE Electron Device Lett. 2025, 46, 432-435.
  4. K. Embrose, M. H. Prakash, T. Vasudevan, L. C. Chen*, Enhancing Efficiency and Stability of Perovskite Solar Cells via Mixed Cation Passivation with GAI/BDAI on the 3D Perovskite Layer, ACS Appl. Energy Mater. 2025, 8, 4, 2011–2021.
  5. A. K. Ramasamy, G. Rajamanickam, C. A. Kumar, L. C. Chen*, Constructing a hydrophobic coating on MAPbI3 perovskite using organic molecule based phosphonium iodide for stable and efficient perovskite solar cells, J. Mater. Sci.: Mater. Electron. 2025, 36, 198.
  6. L. C. Chen*, Q. Zhao, Enhanced Performance of Perovskite Solar Cells Through the Application of Pure Natural Centella asiatica Extract Additives, Prog. Photovoltaics Res. Appl. 2025.
  7. W. K. Hung, K. Uma, S. M. Yang, L. C. Chen, Y. C. Lin, Z. L. Tseng, High detectivity and linear dynamic range in green light perovskite quantum dot photodetectors via surface passivation, Results Eng. 2025, 6, 104693.

2024

  1. Y. T. Chang, L. Zhang, M. J. Lai, P. A. Liu, L. C. Chen*, Quasi-two-dimensional Cs0.9Rb0.1PbBr2.1Cl0.9:PEABr sky-blue light-emitting diodes by potassium bromide doping engineering and interface modification in nickel oxide, Mater. Sci. Semicond. Proc. 2024, 171, 08030.
  2. H. Chang, T. Vasudevan, K. Embrose, L. C. Chen*, Improved efficiency and durability of perovskite solar cells through ionic liquid-[EMIM]PF6 interface modification, Results in Physics 2024, 57, 107359.
  3. L. C. Chen, S. A. Chen, K. Uma, C. H. Chiang, J. X. Xie, Z. L. Tseng*, S. W. Liu*, High-Leakage-Resistance and Low-Turn-On-Voltage Upconversion Devices Based on Perovskite Quantum Dots, Adv. Funct. Mater. 2024, 34, 2309589.
  4. C. H. Tien, Y. C. Liu, T. Vasudevan, L. C. Chen*, Improved stability and efficiency of inverted triple-cation mixed-halide perovskite solar cells with CsI-modified NiOx hole transporting layer, Heliyon 2024, 10, e25352.
  5. J. F. Tang, Y. L. Yang, L. C. Chen, C. F. Kang, C. L. Hsu*, Gas-sensing properties of p-type of nitrogen-doped ZnO nanorods prepared by deep cryogenic treatment, Appl. Sur. Sci. 2024, 658, 159871.
  6. K. Embrose, T. Vasudevan, L. C. Chen*, Improving perovskite solar cell efficiency and prolonging durability via interface modification with guanidinium iodide by post treatment method, Mater. Sci. Semicond. Proc. 2024, 179, 108525.
  7. C. H. Tien, W. S. Lai, L. C. Chen*, Buried Interface Passivation Using Organic Ammonium Salts for Efficient Inverted CsMAFA Perovskite Solar Cell Performance, ACS Omega 2024, 9, 23033−23039.
  8. T. C. Liang, H. Y. Su, K. Uma, S. A. Chen, Z. C. Deng, T. T. Kao, C. C. Lin,* L. C. Chen*, Stable Near-Infrared Photoluminescence of Hexagonal-Shaped PbS Nanoparticles with 1-Dodecanethiol Ligands, Materials 2024, 17, 2380.
  9. C. H. Tien, J. Q. Liu, L. C. Chen*, Post-hot-cast annealing deposition of perovskite films with infused multifunctional organic molecules to enhance the performance of large area light-emitting devices, RSC Adv. 2024,14,18567.
  10. T. L. Chen, T. Vasudevan, L. C. Chen*, Elevating standard-red perovskite LED performance: unleashing optimal potential with complex HTL and insert modification layer, Phys. Scr. 2024, 99, 085903.
  11. Y. H. Lin, J. S. Ni, L. C. Chen*, Structure and Optoelectronic Properties of Perovskite-like (PEA)2PbBr3Cl on AlN/sapphire Substrate Heterostructure, Appl. Sci. 2024, 14, 6096.

2023

  1. C. H. Tien, Y. T. Chen, L. C. Chen*, Dual-functionalized poly(ethylene oxide) for interface modification and addition of rubidium-doped CsPbBr3 perovskite composite emission layer to enhance brightness of perovskite light-emitting diodes, Results in Physics 2023, 53, 106982.
  2. L. C. Chen*, H. Chang, T. Vasudevan, Surface modification of perovskite with guanidine hydro-chloride to improve the stability and efficiency of Cs0.2FA0.8PbI2.8Cl0.2 perovskite solar cells, Optical Materials 2023, 143, 114258. MATERIALS SCIENCE, MULTIDISCIPLINARY – SCIE, IF 3.9, Rank = 114/420.
  3. L. C. Chen*, Y. S. Wei, M. Z. Double buffer of MAPbBr3 QDs using a bulk crystal source by the LARP method and MABr modifier for CsPbBr3 perovskite light-emitting diodes, J. Phys. D: Appl. Phys. 2023, 56, 465102.
  4. M. Zhang, Z. Jiang, S. Deng, Z. Chen, X. Ma, C. H. Tien, L. C. Chen, M. Wong, Hoi-Sing Kwok, Hot Carrier Degradation Accompanied by Recovery in InSnZnO Thin-Film Transistors, IEEE ELECTRON DEVICE LETT. 2023, 44, 1124.
  5. C. T. Li, K. L. Lee, S. F. Wang, L. C. Chen*, Low turn-on voltage CsPbBr3 perovskite light-emitting diodes with regrowth crystal MAPbBr3 hole transport layer, J. Mat. Res. Tech. 22, 2023, 375-381.
  6. L. C. Chen*, A. N. Sung, K. Y. Lee, A Study of High‐Sensitivity Electro‐Resistance Type Pre‐Annealing ZnO‐Doped CsPbBr3 Perovskite Acetone Sensors, Sensors, 2023, 23, 2164.
  7. C. M. Hun, L. C. Chen*, Properties and alcohol sensing applications of quasi‑2D (PEA)2(MA)3Sb2Br9 thin films, Discover Nano, 2023, 18, 19.
  8. C. H. Tien, H. Y. Lai, L. C. Chen*, Methylammonium halide salt interfacial modification of perovskite quantum dots/ triple‑cation perovskites enable efficient solar cells, Sci. Rep. 2023, 13, 5387.
  9. L. C. Chen, M. C. Li, K. R. Chen, Y. J. Cheng, X. Y. Wu, S. A. Chen, M. J. Youh, C. C. Kuo, Y. X. Lin, C. Y. Lin, C. F. Wang, C. F. Huang, S. Y. Lin, W. H. Wang, Y. H. Chen, M. L. Yu, A. Thitithanyanont, S. F. Wang*, L. C. Su*, Facile and Unplugged Surface Plasmon Resonance Biosensor with NIR-Emitting Perovskite Nanocomposites for Fast Detection of SARS-CoV‑2, Anal. Chem. 2023, 95, 7186–7194.

2022

  1. T. C. Liang, H. Y. Su, S. A. Chen, Y. J. Chen, C. Y. Chiang, C. H. Chiang, T. T. Kao, L. C. Chen*, C. C. Lin*, Planar Perovskite Solar Cells Using Perovskite CsPbI3 Quantum Dots as Efficient Hole Transporting Layers, Materials, 2022, 15(24), pp8902.
  2. L. C. Chen*, C. H. Kao, “Improved extraction efficiency of CsPbBr3 perovskite light-emitting diodes due to anodic aluminum oxide nanopore structure,” Scientific Reports, 2022, 12, pp 14750.
  3. C. H. Tien, K. L. Lee, C. C. Tao, Z. Q. Lin, Z. H. Lin, L. C. Chen*, “Two-Dimensional (PEA)2PbBr4 Perovskites Sensors for Highly Sensitive Ethanol Vapor Detection,” Sensors, 2022, 22(21), pp8155.
  4. C. H. Tien, W. C. Lin, L. C. Chen*, “Efficient Perovskite Solar Cells via Phenethylamine Iodide Cation-Modified Hole Transport Layer/Perovskite Interface,” ACS Omega, 2022, 7(42), pp 37359–37368.
  5. Y. T. Chang, L. Zhang, M. J. Lai, W. C. Chiang, L. C. Chen*, High-Performance Quasi-Two-Dimensional CsPbBr2.1Cl0.9:PEABr Perovskite Sky-Blue LEDs with an Interface Modification Layer, Nanoscale Research Letters 2022, 17, 66.            
  6. C. H. Tien, H. H. Tsai, L. C. Chen*, Double-stranded ligand modification of plasmonic nano-Au: CsPbBr3 perovskite nanocomposite for reinforced light-emitting performance, J. Mater. Res. Technol. 2022, 19, 3842-3851.
  7. J. F. Tang, Y. D. Sie, Z. L. Tseng, J. H. Lin, L. C. Chen, C. L. Hsu*, “Perovskite Quantum Dot–ZnO Nanowire Composites for Ultraviolet–Visible Photodetectors,” ACS Applied Nano Materials, Apr. 2022.
  8. L. C. Chen*, C. H. Tien, K. Y. Lee, Z. C. Zhan, “Enhancing device performance of CsPbBr3 perovskite light-emitting diodes with Cs2CO3 modification layer and dual additives” Materials Science in Semiconductor Processing, Vol. 148, pp106815, Sep. 2022.
  9. Z. L. Tseng*, L. C. Chen, L. W. Chao, M. J. Tasi, D. Luo, N. R. A. Amin, S. W. Liu*, K. T. Wong*, “Aggregation Control, Surface Passivation, and Optimization of Device Structure Toward Near-Infrared Perovskite Quantum-Dot Light-Emitting Diodes with an EQE up to 15.4%,” Advanced Materials, 2022, pp 2109785.
  10. L. C. Chen*, Y. H. Tien, J. J. Tian*, “Influence of surface passivation on perovskite CsPbBr1.2I1.8 quantum dots and application of high purity red light-emitting diodes,” J. Alloys Compd. 2022, 892, pp162140.
  11. C. T. Li, K. L. Lee, S. F. Wang*, L. C. Chen*, “Effect of a Rubidium Chloride Carrier Confinement Layer on the Characteristics of CsPbBr3 Perovskite Light-Emitting Diodes,” Nanoscale Research Letters, Vol. 17, pp.2, Jan. 2022.

2021

  1. L. W. Chao, J. F. Tang, S. H. Lin, Y. T. Lee, Y. L. Chen, C. H. Hsieh, L. C. Chen*, Z. L. Tseng*, “Facile room-temperature synthesis of highly air‐stable and moisture-resistant CsPbX3/SiO2 nanocomposites for tunable white light-emitting diodes,” Materials Science in Semiconductor Processing, Vol. 136, pp106158, Dec., 2021.
  2. C. H. Tien, T. L. Hsieh, L. C. Chen*, “Pure natural aloe vera plant mixed ligands modified cesium lead bromide quantum dots for improved light-emitting performance and stability,” Journal of Materials Research and Technology, Vol. 15, pp151-162, Nov.-Dec., 2021.
  3. C. H. Tien, N. P. Yeh, K. L. Lee, L. C. Chen*, “Achieving matrix quantum dot light-emitting display based on all-inorganic CsPbBr3 perovskite nanocrystal composites,” IEEE Access, Vol. 9, pp 128919- 128924, Sep., 2021.
  4. Y. H. Lin+, S. M. Huang+, L. H. Chuang, L. C. Chen*, “Retinal vessel density changes on optical coherence tomography angiography and predictive factors in normal-tension glaucoma treated with topical beta-blocker,” Scientia Pharmaceutica, Vol. 89(3), pp40, Aug. 2021.
  5. Y. H. Lin*, W. W. Su, S. M. Huang, L. H. Chuang, L. C. Chen*, “Optical coherence tomography angiography vessel density changes in normal-tension glaucoma treated with carteolol, brimonidine, or dorzolamide,” Journal of Glaucoma, Vol. 3, pp690, Aug., 2021.
  6. C. H. Tien, L. C. Chen*, K. L. Lee, “Ultra-thin and high transparent Cu2ZnSnSe4/NiOx double-layered inorganic hole-transporting layer for inverted structure CH3NH3PbI3 perovskite solar cells,” Journal of Alloys and Compounds, Vol. 873, pp159804, Aug., 2021.
  7. C. M. Hun+, C. H. Tien+, K. L. Lee, H. Y. Lai, L. C. Chen*, “The effects of temperature on the growth of a lead-free perovskite-like (CH3NH3)3Sb2Br9 single crystal for an MSM photodetector application,” Sensors, 21(13), (2021) 4475.
  8. T. W. Chang, C. C. Tseng, D. W. Chen, G. Wu, C. L. Yang, L. C. Chen, “Preparation and Characterization of Thin-Film Solar Cells with Ag/C60/MAPbI3/CZTSe/Mo/FTO Multilayered Structures,” Molecules, Vol. 26(12), pp3516, Jun., 2021.
  9. Y. T. Chang, C. H. Tien, K. Y. Lee, Y. S. Tung, L. C. Chen*, “Evaporated MAPbI3 perovskite planar solar cells with different annealing temperature,” Energies, Vol. 14(8), pp2145, Apr., 2021.
  10. Z. L. Tseng*, S. H. Lin, J. F. Tang, Y. C. Huang, H. C. Cheng, W. L. Huang, Y. T. Lee, L. C. Chen*, “Polymeric Hole Transport Materials for Red CsPbI3 Perovskite Quantum-Dot Light-Emitting Diodes,” Polymers, Vol. 13(6), pp896, Mar., 2021.
  11. L. C. Chen*, K. L. Lee, C. H. Tien, H. Y. Wei, “FAPbBr3-xIx Perovskite Quantum Dots Red Light-Emitting Diodes with Double Confinement Layer Structure,” Materials Science and Engineering B-Advanced Functional Solid-State Materials, Vol. 264, pp114969, Feb., 2021.

2020

  1. T. Y. Liu+, L. C. Chen+, C. C. Lee, Y. Cheng, C. H. Kuan*, R. M. Lin*, “Modulation and refinement of In–N re-bonding of InGaN through In post-flow during a refined temper fire treatment process,” IEEE Access, Vol. 8, pp 224433-224438, Dec, 2020.
  2. L. C. Chen*, Y. T. Chang+, C. H. Tien+, Y. C. Yeh, Z. L. Tseng, K. L. Lee; H. C. Kuo, “Red light-emitting diodes with all‐inorganic CsPbI3/TOPO composite nanowires color-conversion films,” Nanoscale Research Letters, Vol. 15, pp216, Nov., 2020.
  3. Z. L. Tseng, Y. Su, L. C. Chen, F. H. Chang*, “Development and evaluation of a tablet-based participation measure for older adults in rehabilitation settings,” Disability and Rehabilitation, Vol. 42(23), pp3377-3382, Nov., 2020.
  4. C. C. Lin, W. L. Huang, Y. X. Xu, Y. S. Huang, T. H. Yeh, C. H. Tien, L. C. Chen*, Z. L. Tseng*, “Using thermally crosslinkable hole transporting layer to improve interface characteristics for perovskite CsPbBr3 quantum-dot light-emitting diodes,” Polymers, Vol. 12(10), pp2243, Sep., 2020.
  5. L. C. Chen*, C. H. Tien, P. W. Tseng, Z. L. Tseng*, W. L. Huang, Y. X. Xu, H. C. Kuo, “Effect of washing solvents on the properties of air-synthesized perovskite CsPbBr3 quantum dots for quantum dot-based light-emitting devices,” IEEE Access, Vol. 8, pp159415-159423, Aug., 2020.
  6. L. B. Chang, C. C. Tseng, J. H. Lee, G. M. Wu*, M. J. Jeng, W. S. Feng, D. W. Chen, L. C. Chen, K. L. Lee, E. Popko, L. Jacak, K. Gwozdzc, “Preparation and characterization of MoSe2/CH3NH3PbI3/PMMA perovskite solar cells using polyethylene glycol solution,” Vacuum, Vol. 178, pp109441, Aug., 2020.
  7. C. C. Lin, L. C. Chen*, C. H. Tien, B. Q. Chen, Z. L. Tseng*, “Modified poly(3,4-ethylenedioxythiophene) polystyrene sulfonate as transparent electrodes for ITO-free perovskite solar cells,” Applied Physics Express, Vol. 13, pp085501, Jul., 2020.
  8. C. C. Tseng, L. C. Chen*, L. B. Chang, G. M. Wu, W. S. Feng, M. J. Jeng, D. W. Chen, K. L. Lee, “Cu2O-HTM/SiO2-ETM assisted for synthesis engineering improving efficiency and stability with heterojunction planar perovskite thin-film solar cells,” Solar Energy, Vol. 204, pp270-279, Jul., 2020.
  9. Y. H. Lin, S. M. Huang, W. K. Yap, J. W. Yang, L. Yeung, D. L. Tsan, J. T. C. Chang, L. C. Chen*, “Outcomes in patients with lacrimal gland carcinoma treated with definitive radiotherapy or eye-sparing surgery followed by adjuvant radiotherapy,” Radiation Oncology, Vol. 15, pp156, June, 2020.
  10. L. C. Chen*, C. H. Tien, Y. C. Jhou, W. C. Lin, “Co-solvent controllable engineering of MA0.5FA0.5Pb0.8Sn0.2I3 lead–tin mixed perovskites for inverted perovskite solar cells with improved stability,” Energies, Vol. 13(10), pp2348, May, 2020.
  11. L. C. Chen*, C. H. Tien, K. L. Lee, Y. T. Kao, “Efficiency improvement of MAPbI3 perovskite solar cells based on CsPbBr3 quantum dots/Au nanoparticles composite plasmonic light harvesting layer,” Energies, 13(6), 1471, Mar., 2020.
  12. C. C. Tseng, G. Wu*, L. B. Chang, M. J. Jeng, W. S. Feng, D. W. Chen, L. C. Chen, K. L. Lee, “Effects of Annealing on Characteristics of Cu2ZnSnSe4/CH3NH3PbI3/ZnS/IZO Nanostructures for Enhanced Photovoltaic Solar Cells,” Nanomaterials, Vol. 10(3), pp521, Mar., 2020.
  13. L. C. Chen*, K. L. Lee, K. Y. Lee, Y. W. Huang, R. M. Lin*, “Study of Metal–Semiconductor–Metal CH3NH3PbBr3 Perovskite Photodetectors Prepared by Inverse Temperature Crystallization Method,” Sensors, Vol. 20(1), pp297, Jan., 2020.

 

2019

  1. L. C. Chen*, C. H. Tien, Z. L. Tseng*, J. H. Ruan, “Enhance efficiency of MAPbI3 perovskite solar cells with FAPbX3 perovskite quantum dots,” nanomaterials, Vol. 9(1), pp121, Jan., 2019. (SCI, 2017 JCR Impact Factor =3.504;CiteScore Rank:71/285=24.9%, Material Science: Multidisciplinary)
  2. C. H. Tien, L. C. Chen*, K. Y. Lee, Z. L. Tseng*, Y. S. Dong, Z. J. Lin, “High-quality all-inorganic perovskite CsPbBr3 quantum dots emitter prepared by a simple purified method and applications of light-emitting diodes,” Energies, Vol. 12(18), pp3507, Sep., 2019.
  3. Z. T. Ye, C. L. Chen, L. C. Chen*, C. H. Tien, H. T. Nguyen, H. C. Wang*, “Hollow light guide module involving mini–light-emitting diodes for asymmetric luminous planar illuminators,” Energies, Vol. 12(14), pp2755, Jul., 2019.
  4. Z. T. Ye, Y. M. Pai, C. H. Lin, L. C. Chen*, H. T. Nguyen, H. C. Wang*, “Nanoparticle-Doped Polydimethylsiloxane Fluid Enhances the Optical Performance of AlGaN-Based Deep-Ultraviolet Light-Emitting Diodes,” Nanoscale Research Letters, Vol. 14, pp236, Jul., 2019.
  5. L. C. Chen*, C. H. Tien, D. F. Chen, Z. T. Ye*, H. C. Kuo, “High-uniformity planar mini-chip-scale packaged LEDs with quantum dots converter for white light source,” Nanoscale Research Letters, Vol. 14, pp182, May, 2019.
  6. J. C. Liou*, C. S. A. Gong, L. C. Chen, “The Merging of Multi-Dimensional Data Registration Circuit and Thermal Inkjet Printhead System,Journal of Nanoelectronics and Optoelectronics, Vol. 14, pp680-687, May, 2019.
  7. J. C. Liou*, C. S. A. Gong, L. C. Chen, “Multi-Channel Physiological Monitoring Integrated Artificial Intelligence Prosthetic Arm Assistive Learning System,” Journal of Nanoelectronics and Optoelectronics, Vol. 14, pp688-698, May, 2019.
  8. L. C. Chen, Z. L. Tseng*, C. C. Lin*, “Low-Temperature Sol-Gel Derived ZnO Films as Electron Transporting Layers for Perovskite-Based Solar Cells,” J. Nanoelectron. Optoelectron., Vol. 14, pp723-728, May, 2019.
  9. C. C. Lin*, Z. L. Tseng*, L. C. Chen, “Contour-Mode ZnO-Based Thin-Film Bulk Acoustic-Wave Resonator for Humidity Sensor Applications,” J. Nanoelectron. Optoelectron., Vol. 14, pp729-733, May, 2019.
  10. W. C. Liu, H. Y. Wang, L. C. Chen, S. W. Huang, C. Wu, R. J. Chung*, “Hydroxyapatite/tricalcium silicate composites cement derived from novel two-step sol-gel process with good biocompatibility and applications as bone cement and potential coating materials,” Ceramics International, Vol. 45(5), pp5668-5679, April 2019.
  11. L. C. Chen*, C. H. Tien, Z. L. Tseng, Y. S. Dong, S. Yang*, “Influence of All-Inorganic Halide Perovskite CsPbBr3 Quantum Dots Combined with Polymer Matrix,” Materials, Vol. 12(6), pp985, Mar., 2019.
  12. L. C. Chen*, C. H. Tien, S. L. Ou, K. Y. Lee, J. J. Tian*, Z. L. Tseng, H. T. Chen, H. C. Kuo, A. C. Sun, “Perovskite CsPbBr3 quantum dots prepared using discarded lead-acid battery recycled waste,” Energies, Vol. 12(6), pp1117, Mar., 2019.
  13. Z. T. Ye, Y. M. Pai, C. H. Chen, H. C. Kuo*, L. C. Chen*, “A Light Guide Plate That Uses Asymmetric Intensity Distribution of Mini-LEDs for the Planar Illuminator,” Crystals, Vol. 9(3), pp141, Mar., 2019.
  14. L. B. Chang, C. C. Tseng, G. Wu*, W. S. Feng, M. J. Jeng, L. C. Chen, K. L. Lee, E. Popko, L. Jacak, K. Gwozdz, “Low-Cost CuIn1xGaxSe2 Ultra-Thin Hole-Transporting Material Layer for Perovskite/CIGSe Heterojunction Solar Cells,” Appl. Sci., Vol. 9(4), pp719, Feb., 2019.
  15. L. C. Chen*, C. H. Tien, Z. L. Tseng*, J. H. Ruan, “Enhance efficiency of MAPbI3 perovskite solar cells with FAPbX3 perovskite quantum dots,” Nanomaterials, Vol. 9(1), pp121, Jan., 2019.

2018

  1. W. C. Liu, Y. C. Lin, M. Xu. S. C. Nabilla, Y. L. Lin, L. C. Chen, R. J. Chung*, “Study of collagen/γ-PGA polyelectrolyte multilayers coating on plasma treated 316 L stainless steel substrates,” Surface and Coatings Technology, Vol. 350, pp755-761, Sep., 2018. (SCI, 2017 Scopus Impact Factor =3.08;CiteScore Rank: 37/259=14.3%, Materials Science: Materials Chemistry)
  2. M. Wang, B. Li, P. Siffalovic, L. C. Chen, G. Caoad, J. Tian, “Monolayer-like hybrid halide perovskite films prepared by additive engineering without antisolvents for solar cells,” Journal of Materials Chemistry A, Vol. 6(31), pp15328-15394, Aug.,2018. (SCI, 2017 Scopus Impact Factor =9.61;CiteScore Rank: 12/359=3.3%, Chemistry: General Chemistry)
  3. L. C. Chen*, Z. L. Tseng*, D. W. Lin, Y. S. Lin, S. H. Chen, “Improved performance of perovskite light-emitting diodes by quantum confinement effect in perovskite nanocrystals,” Nanomaterials, Vol. 8(7), pp459, Jul., 2018. (SCI, 2017 JCR Impact Factor =3.504;CiteScore Rank:71/285=24.9%, Material Science: Multidisciplinary)
  4. L. C. Chen*, K. L. Lee, S.E. Lin, “Observation of hybrid MAPBBr3 perovskite bulk crystals grown by repeated crystallizations,” Crystals, Vol. 8(7), pp260, Jul., 2018. (SCI, 2017 Scopus Impact Factor =1.97;CiteScore Rank: 76/272=27.9%, Chemical Engineering: General Chemical Engineering)
  5. Y. B. Chen, Z. L. Tseng, L. C. Chen, C. C. Lin, H. Y. Miao, J. H. Liu, S. H. Lin*, “Crystal structure and microwave dielectric properties of [(Mg0.6Zn0.4)(0.95)Co-0.05](2)TiO4-modified Ca0.6La0.8/3TiO3 cordierite ceramics with a near-zero temperature coefficient,” Journal of Materials Science: Materials in Electronics, Vol. 29(13), pp10709-10714, Jul., 2018. (SCI, 2017 Scopus Impact Factor =2.16;CiteScore Rank:165/644 =25.6%, Engineering: Electrical and Electronic Engineering)
  6. L. C. Chen*, C. C. Chen, S. H. Chang*, K. L. Lee, Z. L. Tseng, S. H. Chen, H. C. Kuo, “Formation and characterization of preferred oriented perovskite thin films on single-crystalline substrates,” Materials Research Express, Vol. 5(6), pp066403, Jun., 2018. (SCI, 2017 Scopus Impact Factor =1.12;CiteScore Rank:48/146 =32.9%, Materials Science: Metals and Alloys)
  7. K. Y. Chiu, Z. L. Tseng, L. C. Chen*, H. Shaw, C. J. Chen, Y. C. Chen, S. H. Yang, W. T. Wu*, Y. O. Su*, “D-π-A type phenothiazine organic dyes for dye-sensitized TiO2 solar cells,” Science of Advanced Materials, Vol. 10(6), pp801-807, Jun., 2018. (SCI, 2017 JCR Impact Factor =1.318;CiteScore Rank:102/146=69.9%, Physics: Applied)
  8. L. C. Chen*, K. L. Lee, W. T. Wu, C. F. Hsu, Z. L. Tseng, X. H. Sun, Y T. Kao, “Effect of different CH3NH3PbI3 morphologies on photovoltaic properties of perovskite solar cells,” Nanoscale Research Letters, Vol. 13, pp140, May, 2018. (SCI, 2017 Scopus Impact Factor =2.67;CiteScore Rank:74/393=18.8%, Physics and Astronomy: Condensed Matter Physics)
  9. L. C. Chen*, K. L. Lee, C. Y. Huang, J. C. Lin, Z. L. Tseng, “Preparation and characteristics of MAPbBr3 perovskite quantum dots on NiOx film and application for high transparent solar cells,” Micromachines, Vol. 9(5), pp205, Apr., 2018. (SCI, 2017 Scopus Impact Factor =2.31;CiteScore Rank:105/554=19.0%, Engineering: Mechanical Engineering)
  10. L. C. Chen*, Z. L. Tseng*, W. W. Chang, Y. W. Lin, “Warm white light-emitting diodes using organic–inorganic halide perovskite materials coated YAG:Ce3+ phosphors,” Ceramics International, Vol. 44(4), pp3868-3872, Mar., 2018. (SCI, 2017 JCR Impact Factor =3.057;CiteScore Rank:2/27=7.4%, Material Science: Ceramis)
  11. Z. L. Tseng*, L. C. Chen*, “Planar perovskite solar cells employing copper(I) thiocyanate/N,N '-di(1-naphthyl)-N,N '-diphenyl-(1,1 '-biphenyl)-4,4 '-diamine bilayer structure as hole transport layers,” Japanese Journal of Applied Physics, Vol. 57(2S2), pp02CE07, Feb., 2018. (SCI, 2017 JCR Impact Factor =1.452;CiteScore Rank:94/146=64.4%, Physics: Applied)
  12. L. C. Chen, C. C. Lin, Z. L. Tseng, “Low-temperature sol-gel derived ZnO films as electron transporting layers for perovskite-based solar cells”, Journal of Nanoelectronics and Optoelectronics. (SCI, 2016 Scopus Impact Factor =0.48;CiteScore Rank:446/642=69.5%, Engineering: Electrical and Electronic Engineering) (accepted)
  13. C. C. Lin, Z. L. Tseng, L. C. Chen, “Contor-mode ZnO-based thin film bluk acoustic-wave resonator for humidity sensor applications”, Journal of Nanoelectronics and Optoelectronics. (SCI, 2016 Scopus Impact Factor =0.48;CiteScore Rank:446/642=69.5%, Engineering: Electrical and Electronic Engineering) (accepted)
  14. J. C. Liou, C. S. Alex Gong, L. C. Chen, T. Y. Su, “Multi-channel physiological monitoring integrated artificial intelligence arm assistive learning system”, Journal of Nanoelectronics and Optoelectronics. (SCI, 2016 Scopus Impact Factor =0.48;CiteScore Rank:446/642=69.5%, Engineering: Electrical and Electronic Engineering) (accepted)
  15. J. C. Liou, C. S. Alex Gong, L. C. Chen, “The mergin of multi-dimensional data registration circuit and thermal inkjet printhead system,” Journal of Nanoelectronics and Optoelectronics. (SCI, 2016 Scopus Impact Factor =0.48;CiteScore Rank:446/642=69.5%, Engineering: Electrical and Electronic Engineering) (accepted)
  16. W. C. Liu, H. Y. Wang, L. C. Chen, S. W. Huang, C. Wu, R. J. Chung*, “Hydroxyapatite/tricalcium silicate composites cement derived from novel two-step sol-gel process with good biocompatibility and applications as bone cement and potential coating materials,” Ceramics International. (SCI, 2017 JCR Impact Factor =3.057;CiteScore Rank: 2/27=7.4%, Material Science: Ceramis) (Available online)

 

2017

  1. L. C. Chen*, Y. S. Lin, P. W. Tang, C. Y. Tai*, Z. L. Tseng*, J. H. Lin, S. H. Chen*, H. C. Kuo, “Unraveling current hysteresis effects in regular-type C60-CH3NH3PbI3 heterojunction solar cells,” Nanoscale, Vol. 9(45), pp 17802-17806, Dec., 2017. (SCI, 2016 Scopus Impact Factor =7.46;CiteScore Rank:19/425=4.47%, Materials Science: General Materials Science)
  2. L. C. Chen*, Z. L. Tseng*, S. Y. Chen, S. Yang, “An ultrasonic synthesis method for high-luminance perovskite quantum dots,” Ceramics International, Vol. 43(17), pp16032-16035, Dec., 2017. (SCI, 2016 JCR Impact Factor =2.986, CiteScore Rank: 2/26=7.7%, Material Science: Ceramis)
  3. K. Y. Lee, L. C. Chen*, Y. J. Wu, “Effect of oblique-angle sputtered ITO electrode in MAPbI3 perovskite solar cell structures”, Nanoscale Research Letters, Vol. 12(1), pp556, Oct, 2017. (SCI, 2016 Scopus Impact Factor =2.15;CiteScore Rank:94/398=23.6%, Physics and Astronomy: Condensed Matter Physics)
  4. S. H. Chang*, C. C. Chen, L. C. Chen, C. L. Tien*, H. M. Cheng, W. C. Huang, H. Y. Lin, S. H. Chen, C. G. Wu*, “Unraveling the multifunctional capabilities of PCBM thin films in inverted-type CH3NH3PbI3 based photovoltaics,” Solar Energy Materials and Solar Cells, Vol. 169, pp40-46, Sep., 2017. (SCI, 2016 Scopus Impact Factor =4.97;CiteScore Rank:5/107=4.7%, Materials Science: Surfaces, Coatings and Films)
  5. L. C. Chen*, K. Y. Cheong, H. C. Kuo, S. Yang, “A special section on flexible solar cells,” Journal of Nanoelectronics and Optoelectronics, Vol. 12(8), pp837-838, Aug., 2017. (SCI, 2016 Scopus Impact Factor =0.48;CiteScore Rank:446/642=69.5%, Engineering: Electrical and Electronic Engineering)
  6. K. Y. Lee, L. C. Chen*, J. K. Huang, Y. J. Wu, “Low temperature processing of study on flexible semitransparent MAPbBr3 perovskite solar cells,” Journal of Nanoelectronics and Optoelectronics, Vol. 12(8), pp844-848, Aug., 2017. (SCI, 2016 Scopus Impact Factor =0.48;CiteScore Rank:446/642=69.5%, Engineering: Electrical and Electronic Engineering)
  7. J. F. Tang, L. C. Chen, Z. L. Tseng*, S. Y. Chu*, “Indium doped ZnO thin films prepared by sol-gel technique for efficient inverted type of polymer solar cells,” Journal of Nanoelectronics and Optoelectronics, Vol. 12(8), pp849-852, Aug., 2017. (SCI, 2016 Scopus Impact Factor =0.48;CiteScore Rank:446/642=69.5%, Engineering: Electrical and Electronic Engineering)
  8. L. C. Chen*, Y. S. Lin, Z. L. Tseng, C. Wu, F. S. Kao, S. H. Chen, “Overcoming the intrinsic difference between hydrophilic CH3NH3PbI3 and hydrophobic C60 thin films to improve the photovoltaic performance,” Nanomaterials, Vol. 7(7), pp166, Jul., 2017. (SCI, 2016 JCR Impact Factor =3.553;CiteScore Rank:59/275=21.5%, Material Science: Multidisciplinary)
  9. Z. L. Tseng*, L. C. Chen, Y. C. Tsai, S. Y. Chu*, “Organic polymer solar cell using low-temperature deposited AZO/Ag/AZO transparent electrodes,” Optoelectronics and Advanced Materials, Rapid Communications, Vol. 11(5-6), pp324-327, May, 2017. (SCI, 2016 Scopus Impact Factor =0.50;CiteScore Rank:434/642=67.6%, Engineering: Electrical and Electronic Engineering)
  10. C. T. Chang*, Y. T. Chang, Y. J. Chih, Y. H. Lee, C. H. Chen, L. C. Chen, J. J. Wu, “Light-emitting illumination and field emission device of potassium hydroxide-doped electrochemically reduced graphene oxide,” IEEE Transactions on Electron Devices, Vol. 64(5), May, 2017. (SCI, 2016 Scopus Impact Factor =2.85;CiteScore Rank:100/642=15.6%, Engineering: Electrical and Electronic Engineering)
  11. K. M. Lee, C. C. Chen, L. C. Chen, S. H. Chang*, K. S. Chen, S. C. Yeh, C. T. Chen, C. G.Wu, “Thickness effects of thermally evaporated C60 thin films on regular-type CH3NH3PbI3 based solar cells,” Solar Energy Materials and Solar Cells, Vol. 164, pp13-18, May, 2017. (SCI, 2016 Scopus Impact Factor =4.97;CiteScore Rank:5/107=4.7%, Materials Science: Surfaces, Coatings and Films)
  12. L. C. Chen*, Z. L. Tseng, T. C. Hsu, S. Y.i Yang, Y. B. Chen, “Mn2-xYx (MoO4)3 phosphor excited by UV GaN-based light-emitting diode for white emission,” Journal of Electronic Materials, Vol. 46(4), pp2501-2505, Apr., 2017. (SCI, 2016 Scopus Impact Factor =2.85;CiteScore Rank:213/642=33.2%, Engineering: Electrical and Electronic Engineering)
  13. Z. L. Tseng*, L. C. Chen, J. F. Tang, M. F. Shih, S. Y. Chu*, “Thickness effect of Nb-doped TiO2 transparent conductive oxide grown on glass substrates fabricated by RF sputtering,” Journal of Electronic Materials, Vol. 46(3), pp1476-1480, Mar., 2017. (SCI, 2016 Scopus Impact Factor =2.85;CiteScore Rank:213/642=33.2%, Engineering: Electrical and Electronic Engineering)
  14. S. H. Chang*, W. N. Chen, C. C. Chen, S. C. Yeh, H. M. Cheng, Z. L. Tseng, L. C. Chen, K. Y. Chiu, W. T. Wu, C. T. Chen, S. H. Chen, C. G. Wu, “Manipulating the molecular structure of PEDOT chains through controlling the viscosity of PEDOT:PSS solutions to improve the photovoltaic performance of CH3NH3PbI3 solar cells,” Solar Energy Materials and Solar Cells, Vol. 161, pp7-13, Mar., 2017. (SCI, 2016 Scopus Impact Factor =4.97;CiteScore Rank:5/107=4.7%, Materials Science: Surfaces, Coatings and Films)
  15. L. C. Chen*, W. W. Lin, T. Y. Liu, “Nanorods on surface of GaN-based thin-film LEDs deposited by post-annealing after photo-assisted chemical etching,” Nanoscale Research Letters, Vol. 12, pp35, Jan., 2017. (SCI, 2016 Scopus Impact Factor =2.15;CiteScore Rank:94/398=23.6%, Physics and Astronomy: Condensed Matter Physics)
  16. C. C. Chen, S. H. Chang*, L. C. Chen, C. L. Tsai*, H. M. Cheng, W. C. Huang, W. N. Chen, Y. C. Lu, Z. L. Tseng, K. Y. Chiu, S. H. Chen, C. G. Wu*, “Interplay between nucleation and crystal growth during the formation of CH3NH3PbI3 thin films and their application in solar cells,” Solar Energy Materials and Solar Cells, Vol. 159, pp583-589, Jan., 2017. (SCI, 2016 Scopus Impact Factor =4.97;CiteScore Rank:5/107=4.7%, Materials Science: Surfaces, Coatings and Films)

 

2016

  1. L. C. Chen*, C. C. Chen, J. C. Chen, C. G. Wu, “Annealing effects on high-performance CH3NH3PbI3 perovskite solar cells prepared by solution-process,” Solar Energy, Vol. 122, 1047-1051. Dec., 2015. (SCI, 2014 Scopus Impact Factor =4.77;CiteScore Rank:29/413=7.0%, Materials Science: General Materials Science)
  2. L. C. Chen*, C. A. Hsieh, “Characterization of CuZnO diodes prepared by ultrasonic spray method,” Journal of Thermal Spray Technology, Vol. 24(8), pp1542-1548, Dec., 2015. (SCI, 2014 Scopus Impact Factor =2.03;CiteScore Rank:19/94=20.2%, Materials Science: Surfaces, Coatings and Films)
  3. L. C. Chen*, C. Y. Weng, “Optoelectronic properties of MAPbI3 perovskite/titanium dioxide heterostructures on porous silicon substrates for cyan sensor applications,” Nanoscale Research Letters, Vol. 10(1), pp404, Oct., 2015. (SCI, 2014 JCR Impact Factor =2.779;CiteScore Rank:26/144=18.1%, Physics: Applied)
  4. T. Y. Lin, Y. T. Hsu, W. H. Lan*, C. J. Huang, L. C. Chen*, Y. H. Huang, J. C. Lin, K. J. Chang, W. J. Lin, K. F. Huang, “Photocatalytic study of Zinc Oxide with bismuth doping prepared by spray pyrolysis,” Advances in Nano Research, Vol. 3(3), pp123-131, Sep., 2015. (SCI, 2017 JCR Impact Factor =2.333;CiteScore Rank:117/285=41.1%, Materials Science: Multidisciplinary)
  5. L. C. Chen*, J. C. Chen, C. C. Chen, C. G. Wu, “Fabrication and properties of high-efficiency perovskite/PCBM organic solar cells,” Nanoscale Research Letters, Vol. 10(1), pp312, Aug., 2015. (SCI, 2014 JCR Impact Factor =2.779;CiteScore Rank:26/144=18.1%, Physics: Applied)
  6. L. C. Chen*, W. W. Lin, J. W. Chen, “Fabrication of GaN-based white light-emitting diodes on yttrium aluminum garnet-polydimethylsiloxane flexible substrates,” Advances in Materials Science and Engineering, Vol. 2015, pp537163, Aug., 2015. (SCI, 2014 Scopus Impact Factor =0.63;CiteScore Rank:108/261=41.4%, Engineering: General Engineering)
  7. L. C. Chen*, Y. H. Chen, “TiO2 dye-sensitized solar cells with perovskite sensitized layer,” Science of Advanced Materials, Vol. 7(8), pp1636-1639, Aug.. 2015. (SCI, 2014 Scopus Impact Factor =2.48;CiteScore Rank:76/413=18.4%, Materials Science: General Materials Science)
  8. L. C. Chen*, C. J. Huang, “Optoelectronic properties of dye-sensitized solar cells with electroplated graphene electron transport layer,” Materials Science in Semiconductor Processing, Vol. 35, pp162-165, Jul., 2015. (SCI, 2014 Scopus Impact Factor =2.08;CiteScore Rank:78/505=15.4%, Engineering: Mechanical Engineering)
  9. L. C. Chen*, W. W. Lin, C. A. Chiou, “Optoelectronic properties of GaN thin-film light-emitting diodes with Ag nanoparticles/multi-layer graphene transparent conductive layer,” Journal of Nanoelectronics and Optoelectronics, Vol. 10(2), pp187-190, Apr., 2015. (SCI, 2014 Scopus Impact Factor =0.50;CiteScore Rank:375/618=59.9%, Engineering: Electrical and Electronic Engineering)
  10. L. C. Chen*, C. A. Hsieh, X. Y. Zhang, “Electrical properties of CZO films prepared by ultrasonic spray pyrolysis,” Materials, Vol. 7(11), pp7304-7313, Nov., 2014. (SCI, 2013 Scopus Impact Factor =3.12;CiteScore Rank:42/404=10.4%, Materials Science: General Materials Science)
  11. C. H. Hsu, J. R. Wu, Y. T. Lu, D. J. Flood, A. R. Barron, L. C. Chen*, “Fabrication and characteristics of black silicon for solar cell applications: An overview,” Materials Science in Semiconductor Processing, Vol. 25, pp2-17, Sep., 2014. (SCI, 2013 Scopus Impact Factor =1.65;CiteScore Rank:103/497=20.7%, Engineering: Mechanical Engineering)
  12. L. C. Chen*, C. H. Hsu, P. S. Chan, X. Y. Zhang and C. J. Huang, “Improving the performance of dye-sensitized solar cells with TiO2/graphene/TiO2 sandwich structure,” Nanoscale Research Letters, Vol. 9(1), pp380, Aug., 2014. (SCI, 2013 Scopus Impact Factor =2.23;CiteScore Rank:77/404=19.1%, Materials Science: General Materials Science)
  13. C. H. Hsu, L. C. Chen*, J. R. Wu, Y. C. Chen, “Preparation and characteristics of IZO/InN/CIGS heterostructure and its solar cell applications,” Journal of Nanoelectronics and Optoelectronics, Vol. 9(3), pp334-337, Jun., 2014. (SCI, 2013 Scopus Impact Factor =0.36;CiteScore Rank:424/602=73.1%, Engineering: Electrical and Electronic Engineering)
  14. L. C. Chen*, W. W. Lin, and C. A. Chiou, “Relaxation of stress in GaN-based light-emitting diodes on stainless steel substrate by plasma etching using a mask of silver nanoparticles,” Science of Advanced Materials, Vol. 6(6), pp1179-1183, Jun., 2014. (SCI, 2013 Scopus Impact Factor =2.61;CiteScore Rank:55/404=13.6%, Materials Science: General Materials Science)
  15. C. H. Hsu, L. C. Chen*, X. Y. Zhang, “Effect of the Cu source on optical properties of CuZnO films deposited by ultrasonic spraying,” Materials, Vol. 7(2), pp1261-1270, Feb., 2014. (SCI, 2013 Scopus Impact Factor =3.12;CiteScore Rank:42/404=10.4%, Materials Science: General Materials Science)
  16. L. C. Chen*, C. H. Hsu, X. Y. Zhang and J. R. Wu, “Low-cost ZnO:YAG-based metal-insulator-semiconductor white light-emitting diodes with various insulators,” International Journal of Photoenergy, Vol. 2014, pp959620, Jul., 2014. (SCI, 2013 Scopus Impact Factor =1.30;CiteScore Rank:144/404=35.6%, Materials Science: General Materials Science)
  17. C. H. Hsu, C. C. Lai, L. C. Chen*, C. P. Shun, “Enhanced performance of dye-sensitized solar cells with graphene/ZnO nanoparticles bilayer structure,” Journal of Nanomaterials, Vol. 2014, pp748319, Jun., 2014. (SCI, 2014 JCR Impact Factor =1.611;CiteScore Rank:104/251=41.4%, Materials Science: Multidisciplinary)
  18. C. H. Hsu, L. C. Chen*, J. R. Wu, “Prepared and characteristics of ZnO:YAG/silicon nanostructure diodes prepared by ultrasonic spraying,” International Journal of Photoenergy, Vol. 2014, pp128235, May, 2014. (SCI, 2013 Scopus Impact Factor =1.30;CiteScore Rank:144/404=35.6%, Materials Science: General Materials Science)
  19. C. H. Hsu, J. R. Wu, L. C. Chen*, P. S. Chan, C. C. Chen, “Enhanced performance of dye-sensitized solar cells with nanostructure graphene electron transfer layer,” Advances in Materials Science and Engineering, Vol. 2014, pp107352, Mar., 2014. (SCI, 2013 Scopus Impact Factor =0.61;CiteScore Rank:105/252=41.7%, Engineering: General Engineering)
  20. L. C. Chen*, M. H. Chiang, “Ag/Ni/Multilayer graphene reflective ohmic contacts with p-type GaN,” Science of Advanced Materials, Vol. 6(1), pp159-163, Jan., 2014. (SCI, 2013 Scopus Impact Factor =2.61;CiteScore Rank:55/404=13.6%, Materials Science: General Materials Science)
  21. W. W. Lin, J. R. Wu, Y. Nakanishi, LC. Chen*, Characteristics of YAG-doped ZnO/ITO deposited by spraying methed, Proc. of SPIE, Vol. 9161, 91611A. (2014) (EI)

 

2015

  1. L. C. Chen*, C. C. Chen, J. C. Chen, C. G. Wu, “Annealing effects on high-performance CH3NH3PbI3 perovskite solar cells prepared by solution-process,” Solar Energy, Vol. 122, 1047-1051. Dec., 2015. (SCI, 2014 Scopus Impact Factor =4.77;CiteScore Rank:29/413=7.0%, Materials Science: General Materials Science)
  2. L. C. Chen*, C. A. Hsieh, “Characterization of CuZnO diodes prepared by ultrasonic spray method,” Journal of Thermal Spray Technology, Vol. 24(8), pp1542-1548, Dec., 2015. (SCI, 2014 Scopus Impact Factor =2.03;CiteScore Rank:19/94=20.2%, Materials Science: Surfaces, Coatings and Films)
  3. L. C. Chen*, C. Y. Weng, “Optoelectronic properties of MAPbI3 perovskite/titanium dioxide heterostructures on porous silicon substrates for cyan sensor applications,” Nanoscale Research Letters, Vol. 10(1), pp404, Oct., 2015. (SCI, 2014 JCR Impact Factor =2.779;CiteScore Rank:26/144=18.1%, Physics: Applied)
  4. T. Y. Lin, Y. T. Hsu, W. H. Lan*, C. J. Huang, L. C. Chen*, Y. H. Huang, J. C. Lin, K. J. Chang, W. J. Lin, K. F. Huang, “Photocatalytic study of Zinc Oxide with bismuth doping prepared by spray pyrolysis,” Advances in Nano Research, Vol. 3(3), pp123-131, Sep., 2015. (SCI, 2017 JCR Impact Factor =2.333;CiteScore Rank:117/285=41.1%, Materials Science: Multidisciplinary)
  5. L. C. Chen*, J. C. Chen, C. C. Chen, C. G. Wu, “Fabrication and properties of high-efficiency perovskite/PCBM organic solar cells,” Nanoscale Research Letters, Vol. 10(1), pp312, Aug., 2015. (SCI, 2014 JCR Impact Factor =2.779;CiteScore Rank:26/144=18.1%, Physics: Applied)
  6. L. C. Chen*, W. W. Lin, J. W. Chen, “Fabrication of GaN-based white light-emitting diodes on yttrium aluminum garnet-polydimethylsiloxane flexible substrates,” Advances in Materials Science and Engineering, Vol. 2015, pp537163, Aug., 2015. (SCI, 2014 Scopus Impact Factor =0.63;CiteScore Rank:108/261=41.4%, Engineering: General Engineering)
  7. L. C. Chen*, Y. H. Chen, “TiO2 dye-sensitized solar cells with perovskite sensitized layer,” Science of Advanced Materials, Vol. 7(8), pp1636-1639, Aug.. 2015. (SCI, 2014 Scopus Impact Factor =2.48;CiteScore Rank:76/413=18.4%, Materials Science: General Materials Science)
  8. L. C. Chen*, C. J. Huang, “Optoelectronic properties of dye-sensitized solar cells with electroplated graphene electron transport layer,” Materials Science in Semiconductor Processing, Vol. 35, pp162-165, Jul., 2015. (SCI, 2014 Scopus Impact Factor =2.08;CiteScore Rank:78/505=15.4%, Engineering: Mechanical Engineering)
  9. L. C. Chen*, W. W. Lin, C. A. Chiou, “Optoelectronic properties of GaN thin-film light-emitting diodes with Ag nanoparticles/multi-layer graphene transparent conductive layer,” Journal of Nanoelectronics and Optoelectronics, Vol. 10(2), pp187-190, Apr., 2015. (SCI, 2014 Scopus Impact Factor =0.50;CiteScore Rank:375/618=59.9%, Engineering: Electrical and Electronic Engineering)

 

2014

  1. L. C. Chen*, C. A. Hsieh, X. Y. Zhang, “Electrical properties of CZO films prepared by ultrasonic spray pyrolysis,” Materials, Vol. 7(11), pp7304-7313, Nov., 2014. (SCI, 2013 Scopus Impact Factor =3.12;CiteScore Rank:42/404=10.4%, Materials Science: General Materials Science)
  2. C. H. Hsu, J. R. Wu, Y. T. Lu, D. J. Flood, A. R. Barron, L. C. Chen*, “Fabrication and characteristics of black silicon for solar cell applications: An overview,” Materials Science in Semiconductor Processing, Vol. 25, pp2-17, Sep., 2014. (SCI, 2013 Scopus Impact Factor =1.65;CiteScore Rank:103/497=20.7%, Engineering: Mechanical Engineering)
  3. L. C. Chen*, C. H. Hsu, P. S. Chan, X. Y. Zhang and C. J. Huang, “Improving the performance of dye-sensitized solar cells with TiO2/graphene/TiO2 sandwich structure,” Nanoscale Research Letters, Vol. 9(1), pp380, Aug., 2014. (SCI, 2013 Scopus Impact Factor =2.23;CiteScore Rank:77/404=19.1%, Materials Science: General Materials Science)
  4. C. H. Hsu, L. C. Chen*, J. R. Wu, Y. C. Chen, “Preparation and characteristics of IZO/InN/CIGS heterostructure and its solar cell applications,” Journal of Nanoelectronics and Optoelectronics, Vol. 9(3), pp334-337, Jun., 2014. (SCI, 2013 Scopus Impact Factor =0.36;CiteScore Rank:424/602=73.1%, Engineering: Electrical and Electronic Engineering)
  5. L. C. Chen*, W. W. Lin, and C. A. Chiou, “Relaxation of stress in GaN-based light-emitting diodes on stainless steel substrate by plasma etching using a mask of silver nanoparticles,” Science of Advanced Materials, Vol. 6(6), pp1179-1183, Jun., 2014. (SCI, 2013 Scopus Impact Factor =2.61;CiteScore Rank:55/404=13.6%, Materials Science: General Materials Science)
  6. C. H. Hsu, L. C. Chen*, X. Y. Zhang, “Effect of the Cu source on optical properties of CuZnO films deposited by ultrasonic spraying,” Materials, Vol. 7(2), pp1261-1270, Feb., 2014. (SCI, 2013 Scopus Impact Factor =3.12;CiteScore Rank:42/404=10.4%, Materials Science: General Materials Science)
  7. L. C. Chen*, C. H. Hsu, X. Y. Zhang and J. R. Wu, “Low-cost ZnO:YAG-based metal-insulator-semiconductor white light-emitting diodes with various insulators,” International Journal of Photoenergy, Vol. 2014, pp959620, Jul., 2014. (SCI, 2013 Scopus Impact Factor =1.30;CiteScore Rank:144/404=35.6%, Materials Science: General Materials Science)
  8. C. H. Hsu, C. C. Lai, L. C. Chen*, C. P. Shun, “Enhanced performance of dye-sensitized solar cells with graphene/ZnO nanoparticles bilayer structure,” Journal of Nanomaterials, Vol. 2014, pp748319, Jun., 2014. (SCI, 2014 JCR Impact Factor =1.611;CiteScore Rank:104/251=41.4%, Materials Science: Multidisciplinary)
  9. C. H. Hsu, L. C. Chen*, J. R. Wu, “Prepared and characteristics of ZnO:YAG/silicon nanostructure diodes prepared by ultrasonic spraying,” International Journal of Photoenergy, Vol. 2014, pp128235, May, 2014. (SCI, 2013 Scopus Impact Factor =1.30;CiteScore Rank:144/404=35.6%, Materials Science: General Materials Science)
  10. C. H. Hsu, J. R. Wu, L. C. Chen*, P. S. Chan, C. C. Chen, “Enhanced performance of dye-sensitized solar cells with nanostructure graphene electron transfer layer,” Advances in Materials Science and Engineering, Vol. 2014, pp107352, Mar., 2014. (SCI, 2013 Scopus Impact Factor =0.61;CiteScore Rank:105/252=41.7%, Engineering: General Engineering)
  11. L. C. Chen*, M. H. Chiang, “Ag/Ni/Multilayer graphene reflective ohmic contacts with p-type GaN,” Science of Advanced Materials, Vol. 6(1), pp159-163, Jan., 2014. (SCI, 2013 Scopus Impact Factor =2.61;CiteScore Rank:55/404=13.6%, Materials Science: General Materials Science)
  12. W. W. Lin, J. R. Wu, Y. Nakanishi, LC. Chen*, Characteristics of YAG-doped ZnO/ITO deposited by spraying methed, Proc. of SPIE, Vol. 9161, 91611A. (2014) (EI)

 

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