Your search keyword '"Lizhen Huang"' showing total 3 results

1. Monolayer-Mediated Growth of Organic Semiconductor Films with Improved Device Performance

Author

Xiaorong Hu, Lifeng Chi, and Lizhen Huang

Subjects

Organic electronics, Materials science, business.industry, technology, industry, and agriculture, Nanotechnology, Surfaces and Interfaces, Condensed Matter Physics, Polymer brush, law.invention, Active layer, Organic semiconductor, law, Monolayer, Electrochemistry, Optoelectronics, General Materials Science, Electronics, Crystallization, business, Layer (electronics), Spectroscopy

Abstract

Increased interest in wearable and smart electronics is driving numerous research works on organic electronics. The control of film growth and patterning is of great importance when targeting high-performance organic semiconductor devices. In this Feature Article, we summarize our recent work focusing on the growth, crystallization, and device operation of organic semiconductors intermediated by ultrathin organic films (in most cases, only a monolayer). The site-selective growth, modified crystallization and morphology, and improved device performance of organic semiconductor films are demonstrated with the help of the inducing layers, including patterned and uniform Langmuir-Blodgett monolayers, crystalline ultrathin organic films, and self-assembled polymer brush films. The introduction of the inducing layers could dramatically change the diffusion of the organic semiconductors on the surface and the interactions between the active layer with the inducing layer, leading to improved aggregation/crystallization behavior and device performance.

Published

2015

2. Growth of Highly Oriented Ultrathin Crystalline Organic Microstripes: Effect of Alkyl Chain Length.

Author

Tao Zhu, Chengliang Xiao, Binghao Wang, Xiaorong Hu, Zi Wang, Jian Fan, Lizhen Huang, Donghang Yan, and Lifeng Chi

Published

2016

3. Monolayer-Mediated Growth of Organic SemiconductorFilms with Improved Device Performance.

Author

Lizhen Huang, Xiaorong Hu, and Lifeng Chi

Subjects

*MONOMOLECULAR films, *ORGANIC semiconductor thin films, *ORGANIC electronics, *CRYSTALLIZATION, *MORPHOLOGY

Abstract

Increased interest in wearable andsmart electronics is drivingnumerous research works on organic electronics. The control of filmgrowth and patterning is of great importance when targeting high-performanceorganic semiconductor devices. In this Feature Article, we summarizeour recent work focusing on the growth, crystallization, and deviceoperation of organic semiconductors intermediated by ultrathin organicfilms (in most cases, only a monolayer). The site-selective growth,modified crystallization and morphology, and improved device performanceof organic semiconductor films are demonstrated with the help of theinducing layers, including patterned and uniform Langmuir–Blodgettmonolayers, crystalline ultrathin organic films, and self-assembledpolymer brush films. The introduction of the inducing layers coulddramatically change the diffusion of the organic semiconductors onthe surface and the interactions between the active layer with theinducing layer, leading to improved aggregation/crystallization behaviorand device performance. [ABSTRACT FROM AUTHOR]

Published

2015