Conductance Photoswitching of Diarylethene−Gold Nanoparticle Network Induced by Photochromic Reaction

Citations Over TimeTop 10% of 2008 papers

Abstract

The relationship between molecular conductance and molecular structure is an important issue in molecular electronics. Photochromic molecules can interconvert their molecular structures by light, so that the molecular conductance should be photocontrolled. According to this strategy the networks composed of photochromic diarylethene dithiols and gold nanoparticles were prepared, and the photochemical reactivity and photoswitching of the conductance were studied. The networks showed a completely reversible photoswitching of the conductance according to the photochromic reactions of the diarylethene units. The switching behavior is attributed to the change of the π-conjugation length of the molecule. Because of the high switching ratio and good reversibility this switching system opens up the possibility of sophisticated molecular electric circuits.

Related Papers

• → Nanohybrid material of bilateral switch based on diarylethene(2007)10 cited
• → Photochromism and Optical Recording of a Novel Photochromic Diarylethene Material Bearing a Phenanthrenyl Unit(2013)2 cited
• → Synthesis and Fluorescence Switching of a New Photochromic Diarylethene(2011)2 cited
• → The allomorphism of a photochromic diarylethene(2003)33 cited
• → Study on Photochromic Materials with Photochromic and Optical Storage Composite Properties of a Novel Diarylethene(2013)