Scanning electrochemical probe microscopy: towards the characterization of micro-and nanostructured photocatalytic materials

IF 3.3 3区 化学 Q2 CHEMISTRY, PHYSICAL Faraday Discussions Pub Date : 2024-07-15 DOI:10.1039/d4fd00136b
Giada Caniglia, Sarah Horn, Christine Kranz
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Abstract

Platinum-black (Pt-B) has been demonstrated as an excellent electrocatalytic material for the electrochemical oxidation of hydrogen peroxide (H2O2). As Pt-B films can be deposited electrochemically, micro- and nano-sized conductive transducers can be modified with Pt-B. Here, we present the potential of Pt-B micro- and sub-micro-sized sensors for the detection and quantification of hydrogen (H2) in solution. Using these microsensors, no sampling step for H2 determination is required and e.g., in photocatalysis, the onset of H2 evolution can be monitored in situ. We present Pt-B- based H2 micro- and sub-micro-sized sensors based on different electrochemical transducers such as microelectrodes and atomic force microscopy (AFM)- scanning electrochemical microscopy (SECM) probes, which enable local measurements e.g., at heterogenized photocatalytically active samples. The microsensors are characterized in terms of limits of detection (LOD), which ranges from 4.0 µM to 30 µM depending on the size of the sensors and the experimental conditions such as type of electrolyte and pH. The sensors were tested for the in situ H2 evolution by light-driven water-splitting, i.e., using ascorbic acid or triethanolamine, showing a wide linear concertation range, good reproducibility, and high sensitivity. Proof-of-principle experiments using Pt-B-modified cantilever-based sensors were performed using a model sample like platinum substrate to map the electrochemical H2 evolution along with the topography using AFM-SECM.
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扫描电化学探针显微镜:表征微纳米结构的光催化材料
铂黑(Pt-B)已被证明是过氧化氢(H2O2)电化学氧化的优良电催化材料。由于铂-B 薄膜可以通过电化学方法沉积,因此可以用铂-B 对微型和纳米尺寸的导电传感器进行改性。在此,我们介绍了 Pt-B 微型和亚微型传感器在检测和定量溶液中的氢(H2)方面的潜力。使用这些微型传感器,测定氢气不需要取样步骤,例如,在光催化过程中,可以原位监测氢气进化的开始。我们介绍了基于 Pt-B 的微型和亚微型 H2 传感器,这些传感器基于不同的电化学传感器,例如微电极和原子力显微镜(AFM)- 扫描电化学显微镜(SECM)探针,可对异质化光催化活性样品等进行局部测量。根据传感器的尺寸和实验条件(如电解质类型和 pH 值),微型传感器的检测限(LOD)从 4.0 µM 到 30 µM。该传感器通过光驱动分水(即使用抗坏血酸或三乙醇胺)进行了原位 H2 演化测试,结果显示其线性协调范围宽、重现性好、灵敏度高。使用 Pt-B 改性悬臂式传感器进行了原理验证实验,使用类似铂基底的模型样品,利用原子力显微镜-扫描电子显微镜绘制了电化学 H2 演化和形貌图。
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Faraday Discussions
Faraday Discussions 化学-物理化学
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期刊介绍: Discussion summary and research papers from discussion meetings that focus on rapidly developing areas of physical chemistry and its interfaces
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