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Kunpeng Zhao
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[1]Kunpeng Zhao. Good stability and high thermoelectric performance of Fe doped Cu1.80S PHYSICAL CHEMISTRY CHEMICAL PHYSICS , 2020,
[2]Kunpeng Zhao. Ternary Compounds Cu3RTe3 (R = Y, Sm, and Dy): A Family of New Thermoelectric Materials with Trigonal Structures ACS APPLIED MATERIALS & INTERFACES , 2020,
[3]Kunpeng Zhao. Crystal Structure and Thermoelectric Properties of Cu2Fe1-xMnxSnSe4 Diamond-like Chalcogenides ACS APPLIED ENERGY MATERIALS , 2020,
[4]Kunpeng Zhao. Number mismatch between cations and anions as an indicator for low lattice thermal conductivity in chalcogenides NPJ COMPUTATIONAL MATERIALS, 2020,
[5]Kunpeng Zhao. Enhanced Thermoelectric Performance and Service Stability of Cu2Se Via Tailoring Chemical Compositions at Multiple Atomic Positions Advanced Functional Materials, 2019,
[6] Are Cu2Te-Based Compounds Excellent Thermoelectric Materials? ADVANCED MATERIALS, 2019,
[7]Kunpeng Zhao. Decoupling Thermoelectric Performance and Stability in Liquid-Like Thermoelectric Materials ADVANCED SCIENCE, 2019,
[8] Recent Advances in Liquid-Like Thermoelectric Materials Advanced Functional Materials, 2019,
[9]Kunpeng Zhao. Aguilarite Ag4SSe Thermoelectric Material: Natural Mineral with Low Lattice Thermal Conductivity Acs Applied Materials & Interfaces, 2019,
[10]Kunpeng Zhao. Enhanced Thermoelectric Performance of Quaternary Cu2-2xAg2xSe1-xSx Liquid-like Chalcogenides Acs Applied Materials & Interfaces, 2019,
[11] Thermoelectric Properties of Cu2Se1-xTex Solid Solutions Journal of Materials Chemistry A, 2018,
[12] Extremely Low Thermal Conductivity and High Thermoelectric Performance in Liquid-like Cu2Se1-xSx Polymorphic Materials Journal of Materials Chemistry A, 2017,
[13]Kunpeng Zhao. Entropy as a Gene‐Like Performance Indicator Promoting Thermoelectric Materials Advanced Materials, 2017,
[14] High Thermoelectric Performance and Low Thermal Conductivity in Cu2-ySe1/3S1/3Te1/3 Solid Solutions with Nanoscale Mosaic Structure Nano energy, 2017,
[15] Enhanced thermoelectric performance through tuning bonding energy in Cu2Se1-xSx liquid-like materials Chemistry of Materials, 2017,
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