Zishou Zhang scite author profile

This work reports a facile method for preparing the new photoactive In2O3 films as well as their implementation in photoelectrochemical (PEC) application. We firstly investigated the relationship between oxygen vacancies (VO) and PEC performance and revealed a rule between them. We found that the optimized In2O3−n sample yielded a photocurrent density up to 3.83 mA/cm2 in 1 M Na2SO4 solution under the solar illumination. It also gave efficiency as high as 75% over 400 nm in the incident-photon-to-current-conversion efficiency (IPCE) spectrum, which is the best value for an In2O3 photoanode reported. Moreover, the PEC performance of these films is enhanced as the VO increased and then decreased with further increasing VO. This two-side effect means VO can favor the photoelectron activation, or act as recombination centers to prohibit the generation of photocurrent. Making highly photoactive In2O3 nanostructures in this work will open up new opportunities in various areas.

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Modulating Electronic Structure of Metal‐Organic Framework for Efficient Electrocatalytic Oxygen Evolution

Xue¹,

Li²,

Zhang³

et al. 2018

Advanced Energy Materials

263

124

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Exploring effective electrocatalysts for oxygen evolution reaction (OER) is a crucial requirement of many energy storage and conversion systems, involving fuel cells, water splitting, and metal–air batteries. Herein, a heterogeneity metal‐organic framework (MOF) is prepared by the assembling of metals, terephthalic (A) and 2‐aminoterephthalic ligands (B), defined as A2.7B‐MOF‐FeCo1.6. More importantly, A2.7B‐MOF‐FeCo1.6 exhibits excellent OER activity with an ultralow overpotential of 288 mV at 10 mA cm−2 and a Tafel slope of 39 mV dec−1. The high electrocatalytic performance for OER is attributed to the optimized electronic structure of the intrinsic catalytic center in MOFs via the engineering of the metal node and linkers. The work offers not only a benchmark for pure MOFs in electrocatalysis but also a new efficient strategy to improve electrocatalytic performance by electronic structure engineering of catalytic active centers in MOFs.

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TiO₂@C core–shell nanowires for high-performance and flexible solid-state supercapacitors

et al. 2013

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Water Surface Assisted Synthesis of Large‐Scale Carbon Nanotube Film for High‐Performance and Stretchable Supercapacitors

et al. 2014

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A kind of multiwalled carbon-nanotube (MWCNT)/polydimethylsiloxane (PDMS) film with excellent conductivity and mechanical properties is developed using a facile and large-scale water surface assisted synthesis method. The film can act as a conductive support for electrochemically active PANI nano fibers. A device based on these PANI/MWCNT/PDMS electrodes shows good and stable capacitive behavior, even under static and dynamic stretching conditions.

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A general polymer-assisted strategy enables unexpected efficient metal-free oxygen-evolution catalysis on pure carbon nanotubes

Zhang

Fan

Jian

et al. 2017

Energy Environ. Sci.

117

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Zishou Zhang

Oxygen vacancies promoting photoelectrochemical performance of In2O3 nanocubes

Modulating Electronic Structure of Metal‐Organic Framework for Efficient Electrocatalytic Oxygen Evolution

TiO₂@C core–shell nanowires for high-performance and flexible solid-state supercapacitors

Water Surface Assisted Synthesis of Large‐Scale Carbon Nanotube Film for High‐Performance and Stretchable Supercapacitors

A general polymer-assisted strategy enables unexpected efficient metal-free oxygen-evolution catalysis on pure carbon nanotubes

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Zishou Zhang

Oxygen vacancies promoting photoelectrochemical performance of In2O3 nanocubes

Modulating Electronic Structure of Metal‐Organic Framework for Efficient Electrocatalytic Oxygen Evolution

TiO2@C core–shell nanowires for high-performance and flexible solid-state supercapacitors

Water Surface Assisted Synthesis of Large‐Scale Carbon Nanotube Film for High‐Performance and Stretchable Supercapacitors

A general polymer-assisted strategy enables unexpected efficient metal-free oxygen-evolution catalysis on pure carbon nanotubes

Contact Info

Product

Resources

About

TiO₂@C core–shell nanowires for high-performance and flexible solid-state supercapacitors