Atomically dispersed low-valent Au boosts photocatalytic hydroxyl radical production

IF 19.2 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Nature chemistry Pub Date : 2024-06-25 DOI:10.1038/s41557-024-01553-6
Zhenyuan Teng, Hongbin Yang, Qitao Zhang, Wenan Cai, Ying-Rui Lu, Kosaku Kato, Zhenzong Zhang, Jie Ding, Han Sun, Sixiao Liu, Chengyin Wang, Peng Chen, Akira Yamakata, Ting-Shan Chan, Chenliang Su, Teruhisa Ohno, Bin Liu
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Abstract

Providing affordable, safe drinking water and universal sanitation poses a grand societal challenge. Here we developed atomically dispersed Au on potassium-incorporated polymeric carbon nitride material that could simultaneously boost photocatalytic generation of ·OH and H2O2 with an apparent quantum efficiency over 85% at 420 nm. Potassium introduction into the poly(heptazine imide) matrix formed strong K–N bonds and rendered Au with an oxidation number close to 0. Extensive experimental characterization and computational simulations revealed that the low-valent Au altered the materials’ band structure to trap highly localized holes produced under photoexcitation. These highly localized holes could boost the 1e− water oxidation reaction to form highly oxidative ·OH and simultaneously dissociate the hydrogen atom in H2O, which greatly promoted the reduction of oxygen to H2O2. The photogenerated ·OH led to an efficiency enhancement for visible-light-response superhydrophilicity. Furthermore, photo-illumination in an onsite fixed-bed reactor could disinfect water at a rate of 66 L H2O m−2 per day. Hydroxyl radicals are reactive species capable of water purification and disinfection, although their generation, particularly through renewable approaches, is challenging. Now, low-valent Au on potassium-incorporated carbon nitride has been shown to produce hydroxyl radicals upon solar illumination and to provide high water disinfection rates.

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原子分散的低价金促进光催化羟基自由基的产生
提供负担得起的安全饮用水和普及卫生设施是一项巨大的社会挑战。在此,我们开发了原子分散金,并将其置于钾离子导入的聚合氮化碳材料上,这种材料可同时促进-OH 和 H2O2 的光催化生成,在 420 纳米波长下的表观量子效率超过 85%。广泛的实验表征和计算模拟显示,低价金改变了材料的带状结构,从而捕获了光激发下产生的高度局域化空穴。这些高度局域化的空穴可以促进1e-水氧化反应,形成高度氧化性的-OH,同时离解H2O中的氢原子,从而极大地促进氧气还原成H2O2。光生成的 -OH 提高了可见光响应超亲水性的效率。此外,在现场固定床反应器中进行光照,可以每天 66 L H2O m-2 的速度对水进行消毒。
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来源期刊
Nature chemistry
Nature chemistry 化学-化学综合
CiteScore
29.60
自引率
1.40%
发文量
226
审稿时长
1.7 months
期刊介绍: Nature Chemistry is a monthly journal that publishes groundbreaking and significant research in all areas of chemistry. It covers traditional subjects such as analytical, inorganic, organic, and physical chemistry, as well as a wide range of other topics including catalysis, computational and theoretical chemistry, and environmental chemistry. The journal also features interdisciplinary research at the interface of chemistry with biology, materials science, nanotechnology, and physics. Manuscripts detailing such multidisciplinary work are encouraged, as long as the central theme pertains to chemistry. Aside from primary research, Nature Chemistry publishes review articles, news and views, research highlights from other journals, commentaries, book reviews, correspondence, and analysis of the broader chemical landscape. It also addresses crucial issues related to education, funding, policy, intellectual property, and the societal impact of chemistry. Nature Chemistry is dedicated to ensuring the highest standards of original research through a fair and rigorous review process. It offers authors maximum visibility for their papers, access to a broad readership, exceptional copy editing and production standards, rapid publication, and independence from academic societies and other vested interests. Overall, Nature Chemistry aims to be the authoritative voice of the global chemical community.
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