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Metal nitrides exhibit excellent electrical conductivity and catalytic activity, making them promising for (photo)electrochemical reactions. This review explores their electronic structure, surface chemistry, and synthesis strategies, emphasizing morphology and phase control. Detailed discussions on catalyst designs for hydrogen/oxygen evolution, oxygen/nitrogen/carbon dioxide reduction, and biomass valorization reactions provide significant insights for optimizing performance. Abstract: Metal nitrides …

Metal Nitride Catalysts for Photoelectrochemical and Electrochemical Catalysis Read More »

This review highlights crucial design strategies for zinc anodes and significant electrolyte modifications to address key challenges in zinc-air battery development. The article is intended to serve as a valuable resource for a broad audience, from novice researchers to industry professionals, guiding the development of Zn-air batteries. Abstract: The modern technical era demands sustainable and …

Understanding the Engineering Tactics to Achieve the Stabilized Anode in Next-Generation Zn-Air Batteries Read More »

This review discusses design principles, preparaThis review explores the fabrication of perovskite solar cells (PSCs) in ambient air, highlighting strategies to enhance their stability and performance. It discusses challenges such as degradation under environmental conditions and outlines methods for large-scale manufacturing, offering insights into the commercialization and future development of PSC technology for sustainable energy …

Recent Advancements in Ambient-Air Fabrication of Perovskite Solar Cells Read More »

Inorganic protein hybrid materials (IPHMs) due to editable structure present unrivalled potential at the intersection of synthetic biology and materials science. The synthesis of IPHMs with a high degree of biosafety from bioactive units represents a shift in material design and synthesis. This paper focuses on a review of the structural basis and design principles …

Design Principles Of Inorganic-Protein Hybrid Materials for Biomedicine Read More »

Auditory brain-computer interface connects the brain with external devices and decodes neural signals related to auditory perception. Time-domain and frequency-domain analyses are commonly used to identify biomarkers associated with auditory rehabilitation, such as cortical auditory evoked potentials and mismatch negativity. Additionally, source and functional connectivity analyses are employed to elucidate the process of auditory function …

Applications and Challenges of Auditory Brain-Computer Interfaces in Objective Auditory Assessments for Pediatric Cochlear Implants Read More »

Considering the rapid progression of cancer in most cases, any delay in evaluating therapy outcomes poses a significant threat to patients’ lives. Consequently, it is imperative to implement stratification and conduct timely evaluations of therapeutic effects either before or during the early stages of cancer treatment. This article provides a comprehensive review of early stratification …

Harnessing Biomarker Activatable Probes for Early Stratification and Timely Assessment of Therapeutic Efficacy in Cancer Read More »