Zhidong Lin scite author profile

The typical conductive polymer of PEDOT:PSS has recently attracted intensive attention in thermoelectric conversion because of its low cost and low thermal conductivity as well as high electrical conductivity. However, compared to inorganic counterparts, the relatively poor thermoelectric performance of PEDOT:PSS has greatly limited its development and high-tech applications. Here, we report a dramatic enhancement in the thermoelectric performance of PEDOT:PSS by constructing unique composite films with graphene quantum dots (GQDs). At room temperature, the electrical conductivity and Seebeck coefficient of PEDOT:PSS/GQDs reached to 7172 S/m and 14.6 μV/K, respectively, which are 30.99% and 113.2% higher than those of pristine PEDOT:PSS. As a result, the power factor of the optimized PEDOT:PSS/GQDs composite is 550% higher than that of pristine PEDOT:PSS. These significant improvements are attributed to the ordered alignment of PEDOT chains on the surface of GQDs, originated from the strong interfacial interaction between PEDOT:PSS and GQDs and the separation of PEDOT and PSS phases. This study evidently provides a promising route for PEDOT:PSS applied in high-efficiency thermoelectric conversion.

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Recent progress of two-dimensional MXenes in photocatalytic applications: a review

Hong

Guo

Yuan

et al. 2020

Materials Today Energy

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A review of metal oxide-based Z-scheme heterojunction photocatalysts: actualities and developments

Yuan

Guo

Hong

et al. 2021

Materials Today Energy

142

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Highly selective n-butanol gas sensor based on mesoporous SnO2 prepared with hydrothermal treatment

Wang

Chen

et al. 2014

Sensors and Actuators B: Chemical

147

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Recent Progress of Transition Metal Phosphides for Photocatalytic Hydrogen Evolution

et al. 2020

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Photocatalytic hydrogen evolution can effectively alleviate the troublesome global energy crisis by converting solar energy into the chemical energy of hydrogen. In order to realize efficient hydrogen generation, a variety of semiconductor materials have been extensively investigated, including TiO2, CdS, g‐C3N4, metal‐organic frameworks (MOFs), and others. In recent years, to achieve higher photocatalytic performance and reach the level of large‐scale industrial applications, photocatalysts decorated with transition metal phosphides (TMPs) have shone brightly because of their low cost, stable physical and chemical properties, and substitution for precious metals of TMPs. This Review highlights the preparation methods and properties associated with photocatalysis of TMPs. Moreover, the H2 generation efficiency of photocatalysts loaded with TMPs and the roles of TMPs in catalytic systems are also studied systematically. Apart from being co‐catalysts, several TMPs can also serve as host catalysts to boost the activity of photocatalytic composites. Finally, the development prospects and challenges of TMPs are put forward, which is valuable for future researchers to expand the application of TMPs in photocatalytic directions and to develop more active photocatalytic systems.

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Zhidong Lin

PEDOT:PSS/graphene quantum dots films with enhanced thermoelectric properties via strong interfacial interaction and phase separation

Recent progress of two-dimensional MXenes in photocatalytic applications: a review

A review of metal oxide-based Z-scheme heterojunction photocatalysts: actualities and developments

Highly selective n-butanol gas sensor based on mesoporous SnO2 prepared with hydrothermal treatment

Recent Progress of Transition Metal Phosphides for Photocatalytic Hydrogen Evolution

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