Scalability and Investigation of the Geometrical Features and Shapes of a Tandem Photo-Electrolysis Cell Based on Non-Critical Raw Materials

IF 3.8 3区 化学 Q2 CHEMISTRY, PHYSICAL
Catalysts Pub Date : 2024-01-24 DOI:10.3390/catal14020098
C. Lo Vecchio, Giosuè Giacoppo, Orazio Barbera, Alessandra Carbone, V. Baglio, A. Aricò, G. Monforte, S. Trocino
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Abstract

Tandem photoelectrochemical cells (PECs) are devices useful for water splitting (WS) with the production of oxygen at the photoanode (PE) and hydrogen at the photocathode (PC) by adsorbing more than 75% of the solar irradiation; a portion of the UV/Vis direct solar irradiation is captured by the PA and a diffused or transmitted IR/Vis portion by the PC. Herein, Ti-doped hematite (PA) and CuO (PC) were employed as abundant and non-critical raw semiconductors characterised by proper band gap and band edge banding for the photoelectrochemical WS and absorption of sunlight. The investigation of inexpensive PEC was focused on the scalability of an active area from 0.25 cm2 to 40 cm2 with a rectangular or square shape. For the first time, this study introduces the novel concept of a glass electrode membrane assembly (GEMA), which was developed with an ionomeric glue to improve the interfacial contact between the membrane and photoelectrodes. On a large scale, the electron–hole recombination and the non-optimal photoelectrodes/electrolyte interface were optimized by inserting a glass support at the photocathode and drilled fluorine tin oxide (FTO) at the photoanode to ensure the flow of reagents and products. Rectangular 40 cm2 PEC showed a larger maximum enthalpy efficiency of 0.6% compared to the square PEC, which had a value of 0.37% at a low bias-assisted voltage (−0.6 V). Furthermore, throughput efficiency reached a maximum value of 1.2% and 0.8%, demonstrating either an important effect of the PEC geometries or a non-significant variation of the photocurrent within the scalability.
基于非关键原材料的串联光电解电池几何特征和形状的可扩展性与研究
串联光电化学电池(PECs)是一种用于水分离(WS)的装置,通过吸附 75% 以上的太阳辐照,在光阳极(PE)产生氧气,在光阴极(PC)产生氢气;太阳紫外线/可见光直射辐照的一部分被 PA 捕获,扩散或透射的红外线/可见光部分被 PC 捕获。在这里,掺杂钛的赤铁矿(PA)和氧化铜(PC)被用作丰富且非关键的原始半导体,它们具有适当的带隙和带边带,可用于光电化学 WS 和吸收太阳光。廉价 PEC 的研究重点是活性面积从 0.25 平方厘米到 40 平方厘米的长方形或正方形的可扩展性。本研究首次提出了玻璃电极膜组件(GEMA)的新概念,该组件使用离子胶改善膜与光电极之间的界面接触。通过在光阴极插入玻璃支架和在光阳极插入钻孔氟锡氧化物(FTO)以确保试剂和产物的流动,对电子-空穴重组和非最佳光电极/电解质界面进行了大规模优化。在低偏置辅助电压(-0.6 V)下,矩形 40 cm2 PEC 的最大焓效率为 0.6%,高于方形 PEC 的 0.37%。此外,吞吐效率的最大值分别为 1.2% 和 0.8%,这表明 PEC 的几何形状或有重要影响,或光电流在可扩展性范围内变化不大。
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来源期刊
Catalysts
Catalysts CHEMISTRY, PHYSICAL-
CiteScore
6.80
自引率
7.70%
发文量
1330
审稿时长
3 months
期刊介绍: Catalysts (ISSN 2073-4344) is an international open access journal of catalysts and catalyzed reactions. Catalysts publishes reviews, regular research papers (articles) and short communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.
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