Visible-Light-Activated Bactericidal Functions of Carbon “Quantum” Dots

Citations Over TimeTop 1% of 2016 papers

Abstract

Carbon dots, generally defined as small carbon nanoparticles with various surface passivation schemes, have emerged as a new class of quantum-dot-like nanomaterials, with their optical properties and photocatalytic functions resembling those typically found in conventional nanoscale semiconductors. In this work, carbon dots were evaluated for their photoinduced bactericidal functions, with the results suggesting that the dots were highly effective in bacteria-killing with visible-light illumination. In fact, the inhibition effect could be observed even simply under ambient room lighting conditions. Mechanistic implications of the results are discussed and so are opportunities in the further development of carbon dots into a new class of effective visible/natural light-responsible bactericidal agents for a variety of bacteria control applications.

Related Papers

• → Passivation and Surface Film Formation(1996)7 cited
• → Elimination of parasitic effects in floating junction rear surface passivation for solar cells(1996)17 cited
• → Sulfur passivation of 3C-SiC thin film(2018)4 cited
• Development of High Performance Chromium-Free Passivation Agent Suitable for Coating of Aluminum Alloy and Optimization of Passivation Technology(2012)
• Passivation method of 317L stainless steel used in medicine(2002)