Add to ORKG2 Azobenzenes have the unique ability to undergo reversible isomerization between two geometrical isomers (the straight trans form and the bent cis) when exposed to certain wavelengths of light, which provide energy for the change. Thus, when embedded in liquid crystal matrices, azobenzene derivatives can function as optically triggered switches regulating, for example, membrane permeability to gases. An optimal azobenzene for this application would have an energy barrier low enough to facilitate changes from trans to cis and back again, but high enough so that such changes would remain stable. In order to identify such suitable azobenzenes, a series of azobenzene derivatives were modeled using computer software. The resulting data were com...
Photochromic organic molecules are playing an important role in present-day research on materials sc...
Photochromic organic molecules are playing an important role in present-day research on materials sc...
• Photosensitive azobenzene molecules are potential molecular switches for a nanoscale optoelectroni...
Azobenzenes have been noted for their ability to undergo isomerization between the straight trans is...
Azobenzenes have a unique ability to undergo reversible isomerization between two geometrical isomer...
The present contribution constitutes an extensive density functional theory (DFT) investigation of t...
We present a series of cationic membrane-targeted azobenzene molecules, with the aim to understand h...
We present a series of cationic membrane-targeted azobenzene molecules, with the aim to understand h...
We present a series of cationic membrane-targeted azobenzene molecules, with the aim to understand h...
We present a series of cationic membrane-targeted azobenzene molecules, with the aim to understand h...
We present a series of cationic membrane-targeted azobenzene molecules, with the aim to understand h...
International audienceThe present contribution constitutes an extensive density functional theory (D...
Azobenzene-based molecular photoswitches are becoming increasingly important for the development of ...
Azobenzenes are the most widely studied photoswitches, and have become popular optical probes for bi...
Azobenzene is one of the most investigated photo-responsive liquid crystalline molecules. It can iso...
Photochromic organic molecules are playing an important role in present-day research on materials sc...
Photochromic organic molecules are playing an important role in present-day research on materials sc...
• Photosensitive azobenzene molecules are potential molecular switches for a nanoscale optoelectroni...
Azobenzenes have been noted for their ability to undergo isomerization between the straight trans is...
Azobenzenes have a unique ability to undergo reversible isomerization between two geometrical isomer...
The present contribution constitutes an extensive density functional theory (DFT) investigation of t...
We present a series of cationic membrane-targeted azobenzene molecules, with the aim to understand h...
We present a series of cationic membrane-targeted azobenzene molecules, with the aim to understand h...
We present a series of cationic membrane-targeted azobenzene molecules, with the aim to understand h...
We present a series of cationic membrane-targeted azobenzene molecules, with the aim to understand h...
We present a series of cationic membrane-targeted azobenzene molecules, with the aim to understand h...
International audienceThe present contribution constitutes an extensive density functional theory (D...
Azobenzene-based molecular photoswitches are becoming increasingly important for the development of ...
Azobenzenes are the most widely studied photoswitches, and have become popular optical probes for bi...
Azobenzene is one of the most investigated photo-responsive liquid crystalline molecules. It can iso...
Photochromic organic molecules are playing an important role in present-day research on materials sc...
Photochromic organic molecules are playing an important role in present-day research on materials sc...
• Photosensitive azobenzene molecules are potential molecular switches for a nanoscale optoelectroni...