Spontaneous Oxygen Vacancy Ionization Enhances Water Oxidation on BiVO₄

“…The cutting-edge photoelectrochemical (PEC) analysis technology stands out with its extraordinary sensitivity and selectivity, operating on the fundamental principle of transforming light energy into electrical energy to enable precise examination of chemical substances in samples through electrochemical reactions. − With its vast potential for revolutionizing portable noninvasive DA monitoring systems, PEC analysis technology encounters challenges due to specific factors like limited photon absorption, restricted carrier directional transfer, and sluggish redox rates at interfaces. − Henceforth, it becomes crucial to engineer highly efficient photoelectronic semiconductor nanomaterials capable of maximizing photon utilization while enhancing photoelectric conversion efficiency …”

Shaping the Future of the Neurotransmitter Sensor: Tailored CdS Nanostructures for State-of-the-Art Self-Powered Photoelectrochemical Devices

“…The cutting-edge photoelectrochemical (PEC) analysis technology stands out with its extraordinary sensitivity and selectivity, operating on the fundamental principle of transforming light energy into electrical energy to enable precise examination of chemical substances in samples through electrochemical reactions. − With its vast potential for revolutionizing portable noninvasive DA monitoring systems, PEC analysis technology encounters challenges due to specific factors like limited photon absorption, restricted carrier directional transfer, and sluggish redox rates at interfaces. − Henceforth, it becomes crucial to engineer highly efficient photoelectronic semiconductor nanomaterials capable of maximizing photon utilization while enhancing photoelectric conversion efficiency …”

Shaping the Future of the Neurotransmitter Sensor: Tailored CdS Nanostructures for State-of-the-Art Self-Powered Photoelectrochemical Devices

Enhancement of BiVO4 photoanode surface oxygen evolution kinetics via Ni-Fe-ZIF derived bimetallic NiFeOx co-catalyst for water oxidation

Enhanced charge carrier separation and stable photoelectrochemical water splitting via a high-performance BiVO4/BiOBr Type-II heterojunction