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Monday, February 20, 2023

on video TOP 4 Single Coilless DC Voltage Doubler Circuit


 TOP 4 Single Coilless DC Voltage Doubler Circuit

This thesis work is part of the INTERREG Luminoptex project and aims to

produce organic rectifier diodes for recovery applications

of electromagnetic energy for autonomous ambient lighting on a textile support. Of the

diodes based on pentacene and polymer P3HT were manufactured according to two

configurations: vertical and coplanar using both simple and little processes

expensive than electronic lithography processes. The performances of these diodes have

been improved by the use of SAM self-assembled monolayers of PFBT (2,3,4,5-6

pentafluorobenzenethiol) which make it possible to reduce the barriers to the injection of carriers of

charges of about 0.5eV. In the case of polymer diodes, an injection layer based on

P3HT doped with Copper Triflate has been studied and used for injection enhancement.

High rectification ratios were obtained (107

) with operating voltages

very weak (from 20 to 80mV). Simulation work has also shown that these diodes

can reach operating frequencies of the order of GHz. These components have

were then made on a flexible paper substrate for transfer to textile surfaces.

Abstract

This thesis work is a part of the INTERREG Luminoptex project and aims to produce

organic rectifier diodes for electromagnetic energy harvesting applications for autonomous

ambient lighting on textile support. Pentacene oligomer and P3HT polymer diodes have been

fabricated in two configurations: vertical and coplanar structures using soft technology and

low cost processes or electron beam lithography technique. The performance of these diodes

has been improved by the use of PFBT (2,3,4,5-6 pentafluorobenzenethiol) SAM self-assembled monolayers that reduce the injection barriers of charge carriers by about 0.5eV. In

the case of polymer diodes, an injection layer based on P3HT doped with copper triflate was

studied and used to improve the current injection. High rectification ratios were obtained (up

to 107

) with very low operating voltages (from 20 to 80mV). Simulation study has also

shown that these diodes can reach operating frequencies in the GHz range. These devices

were then made on a flexible paper substrate for transfer to textile surfaces.


 TOP 4 Single Coilless DC Voltage Doubler Circuit

This thesis work is part of the INTERREG Luminoptex project and aims to

produce organic rectifier diodes for recovery applications

of electromagnetic energy for autonomous ambient lighting on a textile support. Of the

diodes based on pentacene and polymer P3HT were manufactured according to two

configurations: vertical and coplanar using both simple and little processes

expensive than electronic lithography processes. The performances of these diodes have

been improved by the use of SAM self-assembled monolayers of PFBT (2,3,4,5-6

pentafluorobenzenethiol) which make it possible to reduce the barriers to the injection of carriers of

charges of about 0.5eV. In the case of polymer diodes, an injection layer based on

P3HT doped with Copper Triflate has been studied and used for injection enhancement.

High rectification ratios were obtained (107

) with operating voltages

very weak (from 20 to 80mV). Simulation work has also shown that these diodes

can reach operating frequencies of the order of GHz. These components have

were then made on a flexible paper substrate for transfer to textile surfaces.

Abstract

This thesis work is a part of the INTERREG Luminoptex project and aims to produce

organic rectifier diodes for electromagnetic energy harvesting applications for autonomous

ambient lighting on textile support. Pentacene oligomer and P3HT polymer diodes have been

fabricated in two configurations: vertical and coplanar structures using soft technology and

low cost processes or electron beam lithography technique. The performance of these diodes

has been improved by the use of PFBT (2,3,4,5-6 pentafluorobenzenethiol) SAM self-assembled monolayers that reduce the injection barriers of charge carriers by about 0.5eV. In

the case of polymer diodes, an injection layer based on P3HT doped with copper triflate was

studied and used to improve the current injection. High rectification ratios were obtained (up

to 107

) with very low operating voltages (from 20 to 80mV). Simulation study has also

shown that these diodes can reach operating frequencies in the GHz range. These devices

were then made on a flexible paper substrate for transfer to textile surfaces.

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