He Tian scite author profile

Through molecular engineering, single diarylethenes were covalently sandwiched between graphene electrodes to form stable molecular conduction junctions. Our experimental and theoretical studies of these junctions consistently show and interpret reversible conductance photoswitching at room temperature and stochastic switching between different conductive states at low temperature at a single-molecule level. We demonstrate a fully reversible, two-mode, single-molecule electrical switch with unprecedented levels of accuracy (on/off ratio of ~100), stability (over a year), and reproducibility (46 devices with more than 100 cycles for photoswitching and ~10(5) to 10(6) cycles for stochastic switching).

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Recent progresses on diarylethene based photochromic switches

Tian

2004

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Organic photochromic materials have received considerable attention because of their potential for photonic applications, especially for fast and high density data storage. In 2000, Chemical Reviews published a special issue on photochromic materials including a review about the properties and applications of diarylethene photochromic compounds. Since then much impressive progress has been made in this area. Various new diarylethene derivatives have been prepared and examined. The tutorial review presented herein describes developments in diarylethene-based molecular switches made in the last three years. In addition, the synthetic aspects of diarylethene photochromic compounds, which are important issues and neglected in most previous reviews, have been included.

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Photochromic Materials: More Than Meets The Eye

2012

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Photochromic materials are a family of compounds which can undergo reversible photo-switches between two different states or isomers with remarkably different properties. Inspired by their smart photo-switchable characteristics, a variety of light-driven functional materials have been exploited, such as ultrahigh-density optical data storage, molecular switches, logic gates, molecular wires, optic/electronic devices, sensors, bio-imaging and so on. This review commences with a brief description of exciting progress in this field, from systems in solution to modified functional surfaces. Further development of these photo-switchable systems into practical applications as well as existing challenges are also discussed and put in prospect.

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Recent progress on polymer-based fluorescent and colorimetric chemosensors

et al. 2011

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Photoresponsive Host–Guest Functional Systems

et al. 2015

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Exploring a naturally tailored small molecule for stretchable, self-healing, and adhesive supramolecular polymers

et al. 2018

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Triarylamine: a promising core unit for efficient photovoltaic materials

2009

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Triarylamine has been widely used in opto- and electro-active materials for its good electron donating and transporting capability, as well as its special propeller starburst molecular structure. Recently, organic photovoltaic functional materials with triarylamine as electron donor have aroused great interest and become the focus of intensive research in the field of solar cells. These materials have significantly reinforced the conversion efficiency of next-generation solar cells, especially dye sensitized solar cells. This Feature Article describes new synthetic methods and the application of starburst triarylamines, highlighting the applications in photovoltaic and optoelectrical fields.

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He Tian

Excited-state intramolecular proton-transfer (ESIPT) based fluorescence sensors and imaging agents

Covalently bonded single-molecule junctions with stable and reversible photoswitched conductivity

Recent progresses on diarylethene based photochromic switches

Photochromic Materials: More Than Meets The Eye

Recent progress on polymer-based fluorescent and colorimetric chemosensors

Photoresponsive Host–Guest Functional Systems

Exploring a naturally tailored small molecule for stretchable, self-healing, and adhesive supramolecular polymers

Triarylamine: a promising core unit for efficient photovoltaic materials

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