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View article: Stepwise Vacancy Manipulation for Optimized Carrier Concentration and Blocked Phonon Transport Realizing Record High Figure of Merit <i>zT</i> in CuInTe<sub>2</sub>
Stepwise Vacancy Manipulation for Optimized Carrier Concentration and Blocked Phonon Transport Realizing Record High Figure of Merit <i>zT</i> in CuInTe<sub>2</sub> Open
Great enhancement in the thermoelectric performance of CuInTe 2 is achieved through stepwise regulation of Cu vacancies. Lowering Cu content can effective introduce large number of Cu vacancies, which is substantiated by positron annihilat…
View article: Hierarchically Converged Defect Engineering with 2-Dimensional Black Phosphorus/MXene Sequence for Sensitive Photoelectrochemical-Electrostatic Sensors
Hierarchically Converged Defect Engineering with 2-Dimensional Black Phosphorus/MXene Sequence for Sensitive Photoelectrochemical-Electrostatic Sensors Open
The function-integrated sensors have harvested increasingly vital across diverse applications, especially in the field of smart wearables, yet optimizing the synergy between electrostatic and light signals in photoelectrochemical (PEC) sys…
View article: Unveiling the Impact of Bonding Asymmetry on the Lattice Thermal Conductivity of MnXS2Cl (X=Sb, Bi) for Promising Thermoelectric Applications
Unveiling the Impact of Bonding Asymmetry on the Lattice Thermal Conductivity of MnXS2Cl (X=Sb, Bi) for Promising Thermoelectric Applications Open
View article: First-principles study of bismuthene as a high energy density and excellent rate performance anode material for potassium-ion batteries
First-principles study of bismuthene as a high energy density and excellent rate performance anode material for potassium-ion batteries Open
Potassium-ion batteries (KIBs), with their abundance of resources, lower cost, high ion conductivity, and comparable redox potential, hold potential as an alternative to lithium-ion batteries (LIBs) for large-scale energy storage. Nonethel…
View article: First-Principles Study on Thermoelectric Properties of Bi$$_2$$O$$_2$$Se
First-Principles Study on Thermoelectric Properties of Bi$$_2$$O$$_2$$Se Open
View article: Vacancy Manipulation Induced Optimal Carrier Concentration, Band Convergence and Low Lattice Thermal Conductivity in Nano‐Crystalline SnTe Yielding Superior Thermoelectric Performance
Vacancy Manipulation Induced Optimal Carrier Concentration, Band Convergence and Low Lattice Thermal Conductivity in Nano‐Crystalline SnTe Yielding Superior Thermoelectric Performance Open
Synergetic optimization of electrical and thermal transport properties is achieved for SnTe‐based nano‐crystalline materials. Gd doping is able to suppress the Sn vacancy, which is confirmed by positron annihilation measurements and corres…
View article: First-Principles Study of Silicon–Tin Alloys as a High-Temperature Thermoelectric Material
First-Principles Study of Silicon–Tin Alloys as a High-Temperature Thermoelectric Material Open
Silicon–germanium (SiGe) alloys have sparked a great deal of attention due to their exceptional high-temperature thermoelectric properties. Significant effort has been expended in the quest for high-temperature thermoelectric materials. Co…
View article: Band convergence boosted high thermoelectric performance of Zintl compound Mg3Sb2 achieved by biaxial strains
Band convergence boosted high thermoelectric performance of Zintl compound Mg3Sb2 achieved by biaxial strains Open
Mg3Sb2 as a Zintl compound is a promising thermoelectric material with the intrinsically low lattice thermal conductivity and excellent n-type electrical properties, but its p-type electrical transport properties are poor. Here, the thermo…