由CuO-gCN-TiO-Au（= 1,2）纳米结构促进的高效光催化析氢反应

Efficient photoactivated hydrogen evolution promoted by CuO-gCN-TiO-Au ( = 1,2) nanoarchitectures.

作者信息

Benedet Mattia, Rizzi Gian Andrea, Gasparotto Alberto, Zeng Lunjie, Pagot Gioele, Olsson Eva, Di Noto Vito, Maccato Chiara, Barreca Davide

机构信息

Department of Chemical Sciences, Padova University, INSTM 35131 Padova Italy

CNR-ICMATE, INSTM, Department of Chemical Sciences, Padova University 35131 Padova Italy.

出版信息

RSC Adv. 2024 Feb 28;14(10):7221-7228. doi: 10.1039/d4ra00773e. eCollection 2024 Feb 21.

DOI:10.1039/d4ra00773e

PMID:38419682

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10901216/

Abstract

In this work, we propose an original and potentially scalable synthetic route for the fabrication of CuO-gCN-TiO-Au ( = 1,2) nanoarchitectures, based on Cu foam anodization, graphitic carbon nitride liquid-phase deposition, and TiO/Au sputtering. A thorough chemico-physical characterization by complementary analytical tools revealed the formation of nanoarchitectures featuring an intimate contact between the system components and a high dispersion of gold nanoparticles. Modulation of single component interplay yielded excellent functional performances in photoactivated hydrogen evolution, corresponding to a photocurrent of ≈-5.7 mA cm at 0.0 V the reversible hydrogen electrode (RHE). These features, along with the very good service life, represent a cornerstone for the conversion of natural resources, as water and largely available sunlight, into added-value solar fuels.

摘要

在这项工作中，我们基于泡沫铜阳极氧化、石墨相氮化碳液相沉积以及TiO/Au溅射，提出了一种新颖且具有潜在可扩展性的合成路线，用于制备CuO-gCN-TiO-Au（ = 1,2）纳米结构。通过互补分析工具进行的全面化学物理表征揭示了纳米结构的形成，其特征在于系统组件之间紧密接触以及金纳米颗粒的高度分散。单一组分相互作用的调节在光催化析氢方面产生了优异的功能性能，在相对于可逆氢电极（RHE）为0.0 V时，光电流约为-5.7 mA cm 。这些特性以及非常好的使用寿命，是将水和大量可用阳光等自然资源转化为增值太阳能燃料的基石。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e2e0/10901216/f118d8fd4931/d4ra00773e-f1.jpg

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由CuO-gCN-TiO-Au（= 1,2）纳米结构促进的高效光催化析氢反应

Efficient photoactivated hydrogen evolution promoted by CuO-gCN-TiO-Au ( = 1,2) nanoarchitectures.

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