Add to ORKGSinglet oxygen is notoriously uncontrollable, suffers from poor selectivity, and has fast decomposition rates in biological media. Across the scientific community, there is an enduring effort to refine singlet oxygen interactions to control its chemistry and enhance applications including photodynamic therapy. This body of work outlines the design of photosensitisers that employ interactions between singlet oxygen and aromatic units for therapeutic and oxygen storage applications. We also detail delivery systems that are capable of controlling the site of singlet oxygen generation
Singlet oxygen (O-1(2)) is the excited state of ground, triplet state, molecular oxygen (O-2). Photo...
Singlet oxygen is known to be produced by cells in response to photo-oxidative stresses and wounding...
International audienceThe quest for molecules able to trap, store and release singlet oxygen is of u...
The study of singlet molecular oxygen production and reactivity has emerged as a rich and diverse ar...
Production of singlet molecular oxygen by photosensitisation remains the most common and convenient ...
This Review aims to provide early stage researchers with an updated guide to applications of photoch...
Chemical generation of singlet oxygen under biologically relevant conditions is very important, cons...
Singlet oxygen is the lowest electronically excited state of molecular oxygen. In practice it is use...
Reversible noninvasive control over the generation of singlet oxygen is demonstrated in a bicomponen...
A novel strategy to control the generation of singlet oxygen by a photosensitizer using cucurbit[n]u...
DOI: 10.1039/9781849730860-00307International audienceA variety of photosensitizers has been include...
Photodynamic therapy (PDT) is one of the methods involved in cancer therapy exploiting singlet oxyge...
The aim of this review article is to introduce recent studies on an emergent class of singlet oxygen...
The aim of this review article is to introduce recent studies on an emergent class of singlet oxygen...
Here we show the design, preparation, and characterization of a dormant singlet oxygen (1O2) photose...
Singlet oxygen (O-1(2)) is the excited state of ground, triplet state, molecular oxygen (O-2). Photo...
Singlet oxygen is known to be produced by cells in response to photo-oxidative stresses and wounding...
International audienceThe quest for molecules able to trap, store and release singlet oxygen is of u...
The study of singlet molecular oxygen production and reactivity has emerged as a rich and diverse ar...
Production of singlet molecular oxygen by photosensitisation remains the most common and convenient ...
This Review aims to provide early stage researchers with an updated guide to applications of photoch...
Chemical generation of singlet oxygen under biologically relevant conditions is very important, cons...
Singlet oxygen is the lowest electronically excited state of molecular oxygen. In practice it is use...
Reversible noninvasive control over the generation of singlet oxygen is demonstrated in a bicomponen...
A novel strategy to control the generation of singlet oxygen by a photosensitizer using cucurbit[n]u...
DOI: 10.1039/9781849730860-00307International audienceA variety of photosensitizers has been include...
Photodynamic therapy (PDT) is one of the methods involved in cancer therapy exploiting singlet oxyge...
The aim of this review article is to introduce recent studies on an emergent class of singlet oxygen...
The aim of this review article is to introduce recent studies on an emergent class of singlet oxygen...
Here we show the design, preparation, and characterization of a dormant singlet oxygen (1O2) photose...
Singlet oxygen (O-1(2)) is the excited state of ground, triplet state, molecular oxygen (O-2). Photo...
Singlet oxygen is known to be produced by cells in response to photo-oxidative stresses and wounding...
International audienceThe quest for molecules able to trap, store and release singlet oxygen is of u...