Development of Monta Program for material and process design in organic electroluminescence and plasma display panel

Hiromitsu Takaba; Hiroshi Setogawa; Hiromi Kikuchi; Yukie Hayashi; Kei Ogiya; Hiroaki Onuma; Chen Lv; Sahnoun Riadh; Michihisa Koyama; Hidyuki Tsuboi; Nozomu Hatakeyama; Akira Endou; Momoji Kubo; Carlos A. Del Carpio; Hiroshi Kajiyama; Tsutae Shinoda; Akira Miyamoto

Development of Monta Program for material and process design in organic electroluminescence and plasma display panel

Hiromitsu Takaba, Hiroshi Setogawa, Hiromi Kikuchi, Yukie Hayashi, Kei Ogiya, Hiroaki Onuma, Chen Lv, Sahnoun Riadh, Michihisa Koyama, Hidyuki Tsuboi, Nozomu Hatakeyama, Akira Endou, Momoji Kubo, Carlos A. Del Carpio, Hiroshi Kajiyama, Tsutae Shinoda, Akira Miyamoto

Research output: Contribution to conference › Paper › peer-review

Abstract

We present a novel multi-level computational chemistry simulator based on Monte Carlo, namely "Monta" and "Monta-polymer", for modeling a micro-scale structure of industrially interested materials related to organic electroluminescence (EL) and plasma display panel (PDP), especially for tackling a modeling of heterogeneous structure including electrodes and a contamination problem of surfaces. Optimization of atomistic layered structure of hole/electron transport layer with electrode is crucial to fabricate high efficiency EL cell. Contamination of organic molecules on the solid surface from the gas phase is practically important in production processes. Monta and Monta-polymer enable to model hole/electron transport layer and to simulate contamination phenomena from atomistic-scale at various environmental conditions. The application results will be presented to show the validity of our developed programs for modeling of microscopic structure appeared in the information display field.

Original language	English
Pages	1101-1104
Number of pages	4
Publication status	Published - 2007
Externally published	Yes
Event	14th International Display Workshops, IDW '07 - Sapporo, Japan Duration: Dec 5 2007 → Dec 5 2007

Other

Other	14th International Display Workshops, IDW '07
Country/Territory	Japan
City	Sapporo
Period	12/5/07 → 12/5/07

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering
Electronic, Optical and Magnetic Materials
Radiology Nuclear Medicine and imaging
Atomic and Molecular Physics, and Optics

Cite this

Takaba, H., Setogawa, H., Kikuchi, H., Hayashi, Y., Ogiya, K., Onuma, H., Lv, C., Riadh, S., Koyama, M., Tsuboi, H., Hatakeyama, N., Endou, A., Kubo, M., Del Carpio, C. A., Kajiyama, H., Shinoda, T., & Miyamoto, A. (2007). Development of Monta Program for material and process design in organic electroluminescence and plasma display panel. 1101-1104. Paper presented at 14th International Display Workshops, IDW '07, Sapporo, Japan.

Takaba, H, Setogawa, H, Kikuchi, H, Hayashi, Y, Ogiya, K, Onuma, H, Lv, C, Riadh, S, Koyama, M, Tsuboi, H, Hatakeyama, N, Endou, A, Kubo, M, Del Carpio, CA, Kajiyama, H, Shinoda, T & Miyamoto, A 2007, 'Development of Monta Program for material and process design in organic electroluminescence and plasma display panel', Paper presented at 14th International Display Workshops, IDW '07, Sapporo, Japan, 12/5/07 - 12/5/07 pp. 1101-1104.

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title = "Development of Monta Program for material and process design in organic electroluminescence and plasma display panel",

abstract = "We present a novel multi-level computational chemistry simulator based on Monte Carlo, namely {"}Monta{"} and {"}Monta-polymer{"}, for modeling a micro-scale structure of industrially interested materials related to organic electroluminescence (EL) and plasma display panel (PDP), especially for tackling a modeling of heterogeneous structure including electrodes and a contamination problem of surfaces. Optimization of atomistic layered structure of hole/electron transport layer with electrode is crucial to fabricate high efficiency EL cell. Contamination of organic molecules on the solid surface from the gas phase is practically important in production processes. Monta and Monta-polymer enable to model hole/electron transport layer and to simulate contamination phenomena from atomistic-scale at various environmental conditions. The application results will be presented to show the validity of our developed programs for modeling of microscopic structure appeared in the information display field.",

author = "Hiromitsu Takaba and Hiroshi Setogawa and Hiromi Kikuchi and Yukie Hayashi and Kei Ogiya and Hiroaki Onuma and Chen Lv and Sahnoun Riadh and Michihisa Koyama and Hidyuki Tsuboi and Nozomu Hatakeyama and Akira Endou and Momoji Kubo and {Del Carpio}, {Carlos A.} and Hiroshi Kajiyama and Tsutae Shinoda and Akira Miyamoto",

year = "2007",

language = "English",

pages = "1101--1104",

note = "14th International Display Workshops, IDW '07 ; Conference date: 05-12-2007 Through 05-12-2007",

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TY - CONF

T1 - Development of Monta Program for material and process design in organic electroluminescence and plasma display panel

AU - Takaba, Hiromitsu

AU - Setogawa, Hiroshi

AU - Kikuchi, Hiromi

AU - Hayashi, Yukie

AU - Ogiya, Kei

AU - Onuma, Hiroaki

AU - Lv, Chen

AU - Riadh, Sahnoun

AU - Koyama, Michihisa

AU - Tsuboi, Hidyuki

AU - Hatakeyama, Nozomu

AU - Endou, Akira

AU - Kubo, Momoji

AU - Del Carpio, Carlos A.

AU - Kajiyama, Hiroshi

AU - Shinoda, Tsutae

AU - Miyamoto, Akira

PY - 2007

Y1 - 2007

N2 - We present a novel multi-level computational chemistry simulator based on Monte Carlo, namely "Monta" and "Monta-polymer", for modeling a micro-scale structure of industrially interested materials related to organic electroluminescence (EL) and plasma display panel (PDP), especially for tackling a modeling of heterogeneous structure including electrodes and a contamination problem of surfaces. Optimization of atomistic layered structure of hole/electron transport layer with electrode is crucial to fabricate high efficiency EL cell. Contamination of organic molecules on the solid surface from the gas phase is practically important in production processes. Monta and Monta-polymer enable to model hole/electron transport layer and to simulate contamination phenomena from atomistic-scale at various environmental conditions. The application results will be presented to show the validity of our developed programs for modeling of microscopic structure appeared in the information display field.

AB - We present a novel multi-level computational chemistry simulator based on Monte Carlo, namely "Monta" and "Monta-polymer", for modeling a micro-scale structure of industrially interested materials related to organic electroluminescence (EL) and plasma display panel (PDP), especially for tackling a modeling of heterogeneous structure including electrodes and a contamination problem of surfaces. Optimization of atomistic layered structure of hole/electron transport layer with electrode is crucial to fabricate high efficiency EL cell. Contamination of organic molecules on the solid surface from the gas phase is practically important in production processes. Monta and Monta-polymer enable to model hole/electron transport layer and to simulate contamination phenomena from atomistic-scale at various environmental conditions. The application results will be presented to show the validity of our developed programs for modeling of microscopic structure appeared in the information display field.

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M3 - Paper

AN - SCOPUS:43349106885

SP - 1101

EP - 1104

T2 - 14th International Display Workshops, IDW '07

Y2 - 5 December 2007 through 5 December 2007

ER -

Development of Monta Program for material and process design in organic electroluminescence and plasma display panel

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