%0 Journal Article
%T BiOBr基光催化剂的制备与应用<br> Preparation and Application of BiOBr Based Photocatalyst
%A 张涵
%A 孟凡明
%J Hans Journal of Nanotechnology
%P 71-87
%@ 2161-0878
%D 2022
%I Hans Publishing
%R 10.12677/NAT.2022.122010
%X <div style=\"text-align:justify;\">
	<span style=\"font-size:14px;\">通过光催化来高效利用太阳能是解决环境问题和可持续发展未来的理想选择。BiOBr的半导体因其独特的窄带隙和层状结构，且具有优异的可见光吸收能力、低毒性和高光催化活性等优点，被广泛用作环境修复的光催化剂。正因为BiOBr的应用广泛且前景广阔，所以人们专注于对BiOBr的深入研究。本文综述了BiOBr基光催化剂在环境修复方面的最新发展及其制备与应用。重点介绍了控制产物形貌的合成策略，以及提高光催化活性的有效改性策略。其包括通过电荷分离增强本体相，增强空间电荷分离。本文还从污染物净化和二氧化碳减排两个方面综述了BiOBr基光催化剂在环境方面的应用。最后，讨论了BiOBr基材料在未来光催化研究中的挑战和机遇。<br />
The efficient utilization of solar
energy through photocatalysis is an ideal choice for solving environmental
problems and sustainable development in the future. BioBr semiconductors are
widely used as photocatalysts for environmental remediation because of their
unique narrow band gap and layered structure, excellent visible light
absorption ability, low toxicity and high photocatalytic activity. Because of
the wide application and broad prospect of BioBr, people focus on the in-depth
study of BioBr. This paper reviews the latest development, preparation and
application of BioBr based photocatalysts in environmental remediation. The
synthesis strategies to control the morphology of the products and the
effective modification strategies to improve the photocatalytic activity were
introduced. It includes enhancing the bulk phase and space charge separation
through charge separation. This paper also summarizes the application of BioBr
based photocatalyst in environment from two aspects: pollutant purification and
carbon dioxide emission reduction. Finally, the challenges and opportunities of
BioBr based materials in future photocatalytic research are discussed.</span><span style=\"font-size:14px;\"></span> 
</div>
%K BiOBr，复合材料，半导体，可见光催化，环境修复<br> BiOBr
%K Compound Material
%K Semiconductor
%K Visible Photocatalysis
%K Environmental Remediation
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=52053