Dengbing Li
Contact Info
Publications
selected publications
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Article (Web of Science)
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2022Improving CdSeTe Devices With a Back Buffer Layer of CuxAlOy. IEEE JOURNAL OF PHOTOVOLTAICS. 12:16-21.Full Text via DOI: 10.1109/jphotov.2021.3120506
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2022Understanding the Interplay Between CdSe Thickness and Cu Doping Temperature in CdSe/CdTe Devices. IEEE JOURNAL OF PHOTOVOLTAICS. 12:11-15.Full Text via DOI: 10.1109/jphotov.2021.3110338
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2021Templated Growth and Passivation of Vertically Oriented Antimony Selenide Thin Films for High-Efficiency Solar Cells in Substrate Configuration. ADVANCED FUNCTIONAL MATERIALS.Full Text via DOI: 10.1002/adfm.202110032
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2021Effects of Cu Precursor on the Performance of Efficient CdTe Solar Cells. ACS APPLIED MATERIALS & INTERFACES. 13:38432-38440.Full Text via DOI: 10.1021/acsami.1c11784 PMID: 34347421
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2021Low-temperature and effective ex situ group V doping for efficient polycrystalline CdSeTe solar cells. NATURE ENERGY.Full Text via DOI: 10.1038/s41560-021-00848-z
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2021Influence of Post-selenization Temperature on the Performance of Substrate-Type Sb2Se3 Solar Cells. ACS APPLIED ENERGY MATERIALS. 4:4313-4318.Full Text via DOI: 10.1021/acsaem.1c00657
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2021Enabling bifacial thin film devices by developing a back surface field using CuxAlOy. NANO ENERGY. 83.Full Text via DOI: 10.1016/j.nanoen.2021.105827
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2020Back-Surface Passivation of CdTe Solar Cells Using Solution-Processed Oxidized Aluminum. ACS APPLIED MATERIALS & INTERFACES. 12:51337-51343.Full Text via DOI: 10.1021/acsami.0c12800 PMID: 33146989
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2020Effects of post-deposition CdCl2 annealing on electronic properties of CdTe solar cells. SOLAR ENERGY. 211:938-948.Full Text via DOI: 10.1016/j.solener.2020.10.015
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2020Maximize CdTe solar cell performance through copper activation engineering. NANO ENERGY. 73.Full Text via DOI: 10.1016/j.nanoen.2020.104835
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2020CuSCN as the Back Contact for Efficient ZMO/CdTe Solar Cells. MATERIALS. 13.Full Text via DOI: 10.3390/ma13081991 PMID: 32344645
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2019Influences of buffer material and fabrication atmosphere on the electrical properties of CdTe solar cells. PROGRESS IN PHOTOVOLTAICS. 27:1115-1123.Full Text via DOI: 10.1002/pip.3192
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2019Buffer/absorber interface recombination reduction and improvement of back-contact barrier height in CdTe solar cells. THIN SOLID FILMS. 685:385-392.Full Text via DOI: 10.1016/j.tsf.2019.06.058
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2019Improving Performance and Stability of Planar Perovskite Solar Cells through Grain Boundary Passivation with Block Copolymers. SOLAR RRL. 3.Full Text via DOI: 10.1002/solr.201900078
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2019Measurement of band offsets and shunt resistance in CdTe solar cells through temperature and intensity dependence of open circuit voltage and photoluminescence. SOLAR ENERGY. 189:389-397.Full Text via DOI: 10.1016/j.solener.2019.07.057
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2019Eliminating S-Kink To Maximize the Performance of MgZnO/CdTe Solar Cells. ACS APPLIED ENERGY MATERIALS. 2:2896-2903.Full Text via DOI: 10.1021/acsaem.9b00233
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2019The Effects of Hydrogen Iodide Back Surface Treatment on CdTe Solar Cells. SOLAR RRL. 3.Full Text via DOI: 10.1002/solr.201800304
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2019Lead Selenide (PbSe) Colloidal Quantum Dot Solar Cells with >10% Efficiency. ADVANCED MATERIALS. 31:1900593.Full Text via DOI: 10.1002/adma.201900593
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2018Stable and efficient CdS/Sb2Se3 solar cells prepared by scalable close space sublimation. NANO ENERGY. 49:346-353.Full Text via DOI: 10.1016/j.nanoen.2018.04.044
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2018Achieving high-performance PbS quantum dot solar cells by improving hole extraction through Ag doping. NANO ENERGY. 46:212-219.Full Text via DOI: 10.1016/j.nanoen.2018.01.047
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2018All‐Inorganic Bismuth‐Based Perovskite Quantum Dots with Bright Blue Photoluminescence and Excellent Stability. ADVANCED FUNCTIONAL MATERIALS. 28:1704446.Full Text via DOI: 10.1002/adfm.201704446
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2018Efficiency Improvement of Sb2Se3 Solar Cells via Grain Boundary Inversion. ACS ENERGY LETTERS. 3:2335-2341.Full Text via DOI: 10.1021/acsenergylett.8b01456
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2018Enhanced optoelectronic performance in AgBiS2 nanocrystals obtained via an improved amine-based synthesis route. JOURNAL OF MATERIALS CHEMISTRY C. 6:731-737.Full Text via DOI: 10.1039/c7tc05366e
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2018Improved efficiency by insertion of Zn1−xMgxO through sol-gel method in ZnO/Sb2Se3 solar cell. SOLAR ENERGY. 167:10-17.Full Text via DOI: 10.1016/j.solener.2018.03.081
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2018Sb2 Se3 Thin-Film Photovoltaics Using Aqueous Solution Sprayed SnO2 as the Buffer Layer. ADVANCED ELECTRONIC MATERIALS. 4:1700329.Full Text via DOI: 10.1002/aelm.201700329
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2018Surface Passivation of Bismuth-Based Perovskite Variant Quantum Dots To Achieve Efficient Blue Emission. NANO LETTERS. 18:6076-6083.Full Text via DOI: 10.1021/acs.nanolett.8b03090
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20176.5% Certified Efficiency Sb2Se3 Solar Cells Using PbS Colloidal Quantum Dot Film as Hole-Transporting Layer. ACS ENERGY LETTERS. 2:2125-2132.Full Text via DOI: 10.1021/acsenergylett.7b00648
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2017Accelerated Optimization of TiO2 /Sb2 Se3 Thin Film Solar Cells by High-Throughput Combinatorial Approach. ADVANCED ENERGY MATERIALS. 7:1700866.Full Text via DOI: 10.1002/aenm.201700866
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2017Buried homojunction in CdS/Sb2Se3 thin film photovoltaics generated by interfacial diffusion. APPLIED PHYSICS LETTERS. 111:013901.Full Text via DOI: 10.1063/1.4991539
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2017Enhanced Sb2Se3solar cell performance through theory-guided defect control. PROGRESS IN PHOTOVOLTAICS. 25:861-870.Full Text via DOI: 10.1002/pip.2900
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2017Improving the Performance of PbS Quantum Dot Solar Cells by Optimizing ZnO Window Layer. Nano-Micro Letters. 9:24.Full Text via DOI: 10.1007/s40820-016-0124-2
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2017Low-temperature-processed SnO2–Cl for efficient PbS quantum-dot solar cells via defect passivation. JOURNAL OF MATERIALS CHEMISTRY A. 5:17240-17247.Full Text via DOI: 10.1039/c7ta05366e
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2017Magnetron sputtered ZnO buffer layer for Sb2Se3 thin film solar cells. SOLAR ENERGY MATERIALS AND SOLAR CELLS. 172:74-81.Full Text via DOI: 10.1016/j.solmat.2017.07.014
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2016Graphene Doping Improved Device Performance of ZnMgO/PbS Colloidal Quantum Dot Photovoltaics. ADVANCED FUNCTIONAL MATERIALS. 26:1899-1907.Full Text via DOI: 10.1002/adfm.201505043
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2016Low-Temperature-Processed Amorphous Bi2S3 Film as an Inorganic Electron Transport Layer for Perovskite Solar Cells. ACS PHOTONICS. 3:2122-2128.Full Text via DOI: 10.1021/acsphotonics.6b00582
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2016Rapid thermal evaporation of Bi2S3 layer for thin film photovoltaics. SOLAR ENERGY MATERIALS AND SOLAR CELLS. 146:1-7.Full Text via DOI: 10.1016/j.solmat.2015.11.019
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2015Improving the performance of Sb2 Se3 thin film solar cells over 4% by controlled addition of oxygen during film deposition. PROGRESS IN PHOTOVOLTAICS. 23:1828-1836.Full Text via DOI: 10.1002/pip.2627
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2015Investigation of the Interaction between Perovskite Films with Moisture via in Situ Electrical Resistance Measurement. ACS APPLIED MATERIALS & INTERFACES. 7:25113-25120.Full Text via DOI: 10.1021/acsami.5b06268
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2014Defect-mediated phase transition temperature of VO2 (M) nanoparticles with excellent thermochromic performance and low threshold voltage. JOURNAL OF MATERIALS CHEMISTRY A. 2:4520.Full Text via DOI: 10.1039/c3ta14822j
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2014Hydrothermal Synthesis of Mo-Doped VO2/TiO2 Composite Nanocrystals with Enhanced Thermochromic Performance. ACS APPLIED MATERIALS & INTERFACES. 6:6555-6561.Full Text via DOI: 10.1021/am500135d
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2014In Situ Triggering and Dynamically Tracking the Phase Transition in Vanadium Dioxide. JOURNAL OF PHYSICAL CHEMISTRY C. 118:16279-16283.Full Text via DOI: 10.1021/jp504815w
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2013Selective Synthesis of Vanadium Oxides and Investigation of the Thermochromic Properties of VO 2 by Infrared Spectroscopy. EUROPEAN JOURNAL OF INORGANIC CHEMISTRY. 2013:1207-1212.Full Text via DOI: 10.1002/ejic.201201118
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2013Thermal Oxidation of V<SUB>2</SUB>O<SUB>3</SUB> Nanocrystals: A Template Method for the Fabrication of Monoclinic Phase VO<SUB>2</SUB> Nanocrystals. Journal of Nanoscience and Nanotechnology. 13:5469-5473.Full Text via DOI: 10.1166/jnn.2013.7493
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2012Synthesis and characterization of V2O3 nanocrystals by plasma hydrogen reduction. JOURNAL OF CRYSTAL GROWTH. 346:22-26.Full Text via DOI: 10.1016/j.jcrysgro.2012.02.039
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Proceedings Paper (Web of Science)
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2021Fabricating Efficient CdTe Solar Cells: The Effect of Cu PrecursorFull Text via DOI: 10.1109/pvsc43889.2021.9519007
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2013W-Doped VO<sub>2 </sub>(M) with Tunable Phase Transition Temperature. Applied Mechanics and Materials. 483-487.Full Text via DOI: 10.4028/www.scientific.net/amm.320.483
Contact
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- Dengbing Li
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Cumulative publications in Scholars@UToledo