Ingoo Jang scite author profile

This study investigates the effect of NH3 gas upon the growth of carbon nanotubes (CNTs) using thermal chemical vapor deposition. It is considered that the CNT synthesis is thought to occur mainly through two steps, clustering of catalyst particles followed by growth of CNTs. We, thus, introduced NH3 during either an annealing or growth step. When NH3 was fed only during annealing, CNTs grew longer and were more highly crystalline with their diameters unchanged. Addition of NH3 during growth, however, resulted in shorter CNTs with lower crystallinity and increased diameters. Vertically aligned, highly populated CNT samples showed poor field emission characteristics, leading us to apply post-treatment onto the CNT surface. The CNTs were etched back by dc plasma of N2 to reduce the population density and the radius of curvatures of CNTs, which resulted in a considerable improvement of the field emission characteristics.

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40.1L: Late-News Paper: A Novel RGB Color Patterning Method for Organic Light‐Emitting‐Diodes: Joule‐heating Induced Color Patterning (JICP)

Hong

Jang²,

Lee

et al. 2015

Symp Digest of Tech Papers

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A novel RGB color patterning method for the fabrication of AMOLEDs was demonstrated on a lab scale in this work. Jouleheating Induced Color Patterning (JICP) is a high resolution patterning process where sublimation of small organic molecules is induced by applying electric pulse to a pre-patterned conductive layer on a donor glass. It was found that the JICP process has a potential for high resolution patterning of >700 ppi and for patterning large-sized panels such as Gen. 8 glass substrate.

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Temperature Distribution According to the Structure of a Conductive Layer during Joule-heating Induced Encapsulation for Fabrication of OLED Devices

Jang¹,

Ro²

2013

Journal of the Korean institute of surface engineering

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Ingoo Jang

Characteristics of carbon nanotubes grown by mesh-inserted plasma-enhanced chemical vapor deposition

Field Emission from Carbon Nanotubes Etched by a dc Plasma

40.1L: Late-News Paper: A Novel RGB Color Patterning Method for Organic Light‐Emitting‐Diodes: Joule‐heating Induced Color Patterning (JICP)

Temperature Distribution According to the Structure of a Conductive Layer during Joule-heating Induced Encapsulation for Fabrication of OLED Devices

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