Enhanced photoelectrochemical water splitting performance of hematite photoanodes via uniform Ti and gradient Ge co-doping

IF 6.1 1区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR

Inorganic Chemistry Frontiers Pub Date : 2025-04-25 DOI:10.1039/d5qi00700c

Chunlian Hu, Junhao Wu, Congzhao Dong, Xiao Fang, Pengfei Feng, Bonan Li, Baochun Ma, Yong Ding

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Abstract

The photoelectrochemical (PEC) water oxidation reaction on hematite (α-Fe2O3) photoanodes has certain limitations, especially poor conductivity and rapid carrier recombination. To address the above issues, uniform Ti doping and gradient Ge doping were used to construct Ti-Ge co-doping hematite (Ti-Ge:Fe2O3). A series of characterization tests showed that uniform Ti doping increased the carrier concentration and conductivity, while gradient Ge doping improved the charge separation efficiency. Meanwhile, Ti-Ge co-doping hematite constructed a gradient energy band structure, which played a contributing role in improving the charge separation efficiency. The co-doping of other metal elements with Ti was carried out, all of which showed significant effects in improving the PEC performance. This suggested that the Ti:M (M=metal elements) co-doping hematite in improving PEC performance was universal. In addition, when the NiFeOOH co-catalyst was loaded on Ti-Ge:Fe2O3, the onset potential shifted negatively 150 mV and photocurrent density significantly improved, which was about 9.7 times higher than that of bare Fe2O3. This work provides a novel strategy of improvement of PEC performance on hematite by co-doping engineering.

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均匀Ti和梯度Ge共掺杂提高赤铁矿光阳极的光电分解水性能

赤铁矿（α-Fe2O3）光阳极上的光电化学（PEC）水氧化反应有一定的局限性，特别是电导率差和载流子复合快。为了解决上述问题，采用均匀Ti掺杂和梯度Ge掺杂的方法构建了Ti-Ge共掺杂赤铁矿（Ti-Ge:Fe2O3）。一系列表征测试表明，均匀Ti掺杂提高了载流子浓度和电导率，梯度Ge掺杂提高了电荷分离效率。同时，Ti-Ge共掺杂赤铁矿构建了梯度能带结构，对提高电荷分离效率起到了促进作用。其他金属元素与Ti共掺杂，均对提高PEC性能有显著效果。说明Ti:M （M=金属元素）共掺杂赤铁矿改善PEC性能具有普遍性。此外，负载NiFeOOH共催化剂后，Ti-Ge:Fe2O3的起始电位负移150 mV，光电流密度显著提高，约为裸Fe2O3的9.7倍。本研究为利用共掺杂技术改善赤铁矿的PEC性能提供了一种新的策略。

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