Publications by Hong Wei Ming

Publications by authors named "Hong Wei Ming"

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Liquid-Phase Manipulation Securing Enhanced Thermoelectric Performance of AgSe.

Di Li Bao Li Zhang Hong Wei Ming Ling Wang Yan Zu

ACS Appl Mater Interfaces

July 2021

Developing n-type materials with high peak and/or average ZT (ZT is the figure of merit) is an urgent need for the lower ZT of the existing n-type BiTeSe materials compared with the p-type BiSbTe materials. Here, we demonstrate that liquid-phase sintering can lead to lowered thermal conductivity and an improved power factor in n-type AgSe, which originates from the greatly lowered electronic thermal conductivity attributed to the decreased mobility and improved Seebeck coefficients because of increased effective mass. Benefiting from this, the maximum ZT (ZT) of ∼1.

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- Hong Wei Ming's research focuses on enhancing the thermoelectric performance of n-type materials, specifically AgSe, to address the shortcomings of existing n-type materials like BiTeSe.
- The study highlights the effectiveness of liquid-phase sintering, which reduces thermal conductivity and enhances the power factor of AgSe due to decreased electronic thermal conductivity and improved Seebeck coefficients.
- The findings indicate that the maximum figure of merit (ZT) achieved for n-type AgSe is approximately 1, showcasing its potential as a competitive thermoelectric material.

Publications by authors named "Hong Wei Ming"

Liquid-Phase Manipulation Securing Enhanced Thermoelectric Performance of AgSe.

Synopsis of recent research by authors named "Hong Wei Ming"