A Unique, Porous C3N4 Nanotube for Electrochemiluminescence with High Emission Intensity and Long-Term Stability: The Role of Calcination Atmosphere

Abstract: Developing excellent strategies to optimize the electrochemiluminescence (ECL) performance of C3N4 materials remains a challenge due to the electrode passivation, causing weak and unstable light emission. A strategy of controlling the calcination atmosphere was proposed to improve the ECL performance of C3N4 nanotubes. Interestingly, we found that calcination atmosphere played a key role in specific surface area, pore-size and crystallinity of C3N4 nanotubes. The C3N4 nanotubes prepared in the Air atmosphere (… Show more

“…[14][15][16] Previous studies have shown that calcination in different atmospheres often leads to changes in the structure and properties of metal oxide nanomaterials. [17][18][19] This difference often leads to completely different application values of these nanomaterials in electrochemistry, 20,21 environmental protection, 22,23 catalytic activity, 24,25 etc. However, few people investigated the performance differences of transition metal oxide nanomaterials formed in different calcination atmospheres for biotherapeutic applications.…”

Calcination-controlled performance optimization of iron–vanadium bimetallic oxide nanoparticles for synergistic tumor therapy

“…[14][15][16] Previous studies have shown that calcination in different atmospheres often leads to changes in the structure and properties of metal oxide nanomaterials. [17][18][19] This difference often leads to completely different application values of these nanomaterials in electrochemistry, 20,21 environmental protection, 22,23 catalytic activity, 24,25 etc. However, few people investigated the performance differences of transition metal oxide nanomaterials formed in different calcination atmospheres for biotherapeutic applications.…”

Calcination-controlled performance optimization of iron–vanadium bimetallic oxide nanoparticles for synergistic tumor therapy

Carbon vacancy modified g-C3N4 hollow tubes-iron oxide composite for photocatalytic application

Solvothermal preparation of CuO/g-C ₃ N ₄ and photocatalytic degradation of ciprofloxacin