Abstract
Theoretical research was performed on the electron status of electrically conductive polymers, and on molecular designs. The research was made on the theme of the 'mobility of soliton in polyacetylene', wherein analysis was made on movements of soliton that carries charge in relatively low doping regions. Three researchers, Ono, Obuchi, and Iwano have proposed in the previous fiscal year the numerical simulation on the impurity effects with regard to the problems in chains of soliton. Its result is reported in this paper. In the current fiscal year, Ono has executed the simulation on the systems of even numbers having the total sites and electrons in the same number. Obuchi has applied the method discussed in the previous fiscal year to the cases having the total number of sites at 101, the number of electrons at 101 and 105, and the dopant concentration of 2 to 5%. Iwano has performed simulations on the bond type impurities for the case of even numbers with the total number of sites and electrons in the same number, the case with the total number of sites at 201 and the number of electrons at 200, and the case wherein the total number of sites is
More>>
Citation Formats
None.
Research and development project in fiscal 1988 for fundamental technologies for next generation industries. Achievement report on research and development on electrically conductive polymeric materials (Report 1 for re-commissioned research); 1988 nendo dodensei kobunshi zairyo no kenkyu kaihatsu seika hokokusho. 1.
Japan: N. p.,
1989.
Web.
None.
Research and development project in fiscal 1988 for fundamental technologies for next generation industries. Achievement report on research and development on electrically conductive polymeric materials (Report 1 for re-commissioned research); 1988 nendo dodensei kobunshi zairyo no kenkyu kaihatsu seika hokokusho. 1.
Japan.
None.
1989.
"Research and development project in fiscal 1988 for fundamental technologies for next generation industries. Achievement report on research and development on electrically conductive polymeric materials (Report 1 for re-commissioned research); 1988 nendo dodensei kobunshi zairyo no kenkyu kaihatsu seika hokokusho. 1."
Japan.
@misc{etde_20175233,
title = {Research and development project in fiscal 1988 for fundamental technologies for next generation industries. Achievement report on research and development on electrically conductive polymeric materials (Report 1 for re-commissioned research); 1988 nendo dodensei kobunshi zairyo no kenkyu kaihatsu seika hokokusho. 1}
author = {None}
abstractNote = {Theoretical research was performed on the electron status of electrically conductive polymers, and on molecular designs. The research was made on the theme of the 'mobility of soliton in polyacetylene', wherein analysis was made on movements of soliton that carries charge in relatively low doping regions. Three researchers, Ono, Obuchi, and Iwano have proposed in the previous fiscal year the numerical simulation on the impurity effects with regard to the problems in chains of soliton. Its result is reported in this paper. In the current fiscal year, Ono has executed the simulation on the systems of even numbers having the total sites and electrons in the same number. Obuchi has applied the method discussed in the previous fiscal year to the cases having the total number of sites at 101, the number of electrons at 101 and 105, and the dopant concentration of 2 to 5%. Iwano has performed simulations on the bond type impurities for the case of even numbers with the total number of sites and electrons in the same number, the case with the total number of sites at 201 and the number of electrons at 200, and the case wherein the total number of sites is in even number, and the number of electrons in odd number. Haritani has applied CPA, and obtained new findings on the impurity band in the electron spectral gap. (NEDO)}
place = {Japan}
year = {1989}
month = {Mar}
}
title = {Research and development project in fiscal 1988 for fundamental technologies for next generation industries. Achievement report on research and development on electrically conductive polymeric materials (Report 1 for re-commissioned research); 1988 nendo dodensei kobunshi zairyo no kenkyu kaihatsu seika hokokusho. 1}
author = {None}
abstractNote = {Theoretical research was performed on the electron status of electrically conductive polymers, and on molecular designs. The research was made on the theme of the 'mobility of soliton in polyacetylene', wherein analysis was made on movements of soliton that carries charge in relatively low doping regions. Three researchers, Ono, Obuchi, and Iwano have proposed in the previous fiscal year the numerical simulation on the impurity effects with regard to the problems in chains of soliton. Its result is reported in this paper. In the current fiscal year, Ono has executed the simulation on the systems of even numbers having the total sites and electrons in the same number. Obuchi has applied the method discussed in the previous fiscal year to the cases having the total number of sites at 101, the number of electrons at 101 and 105, and the dopant concentration of 2 to 5%. Iwano has performed simulations on the bond type impurities for the case of even numbers with the total number of sites and electrons in the same number, the case with the total number of sites at 201 and the number of electrons at 200, and the case wherein the total number of sites is in even number, and the number of electrons in odd number. Haritani has applied CPA, and obtained new findings on the impurity band in the electron spectral gap. (NEDO)}
place = {Japan}
year = {1989}
month = {Mar}
}