Photoelectrochemical Photocurrent Switching Effect: A New Platform for Molecular Logic Devices
Unusual photoelectrochemical properties of titanium dioxide modified with iron(II) complexes allow application of these materials for the construction of various optoelectronic devices including switches, logic gates and even demultiplexers. All these devices use optical input and electric...
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Format: | Article |
Language: | deu |
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Swiss Chemical Society
2007-12-01
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Series: | CHIMIA |
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Online Access: | https://chimia.ch/chimia/article/view/4418 |
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author | Konrad Szaciłowski Wojciech Macyk |
author_facet | Konrad Szaciłowski Wojciech Macyk |
author_sort | Konrad Szaciłowski |
collection | DOAJ |
description |
Unusual photoelectrochemical properties of titanium dioxide modified with iron(II) complexes allow application of these materials for the construction of various optoelectronic devices including switches, logic gates and even demultiplexers. All these devices use optical input and electric
output. The mechanism of the photoelectrochemical photocurrent switching (PEPS) effect is described in detail on the basis of experimental data and quantum-chemical calculations. All the collected data indicate the importance of the complex–semiconductor binding mode.
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first_indexed | 2024-04-11T07:50:54Z |
format | Article |
id | doaj.art-c5910ca12b434f09be54dcab66c45a97 |
institution | Directory Open Access Journal |
issn | 0009-4293 2673-2424 |
language | deu |
last_indexed | 2024-04-11T07:50:54Z |
publishDate | 2007-12-01 |
publisher | Swiss Chemical Society |
record_format | Article |
series | CHIMIA |
spelling | doaj.art-c5910ca12b434f09be54dcab66c45a972022-12-22T04:36:05ZdeuSwiss Chemical SocietyCHIMIA0009-42932673-24242007-12-01611210.2533/chimia.2007.831Photoelectrochemical Photocurrent Switching Effect: A New Platform for Molecular Logic DevicesKonrad SzaciłowskiWojciech Macyk Unusual photoelectrochemical properties of titanium dioxide modified with iron(II) complexes allow application of these materials for the construction of various optoelectronic devices including switches, logic gates and even demultiplexers. All these devices use optical input and electric output. The mechanism of the photoelectrochemical photocurrent switching (PEPS) effect is described in detail on the basis of experimental data and quantum-chemical calculations. All the collected data indicate the importance of the complex–semiconductor binding mode. https://chimia.ch/chimia/article/view/4418FerroceneHexacyanoferratePeps effectPhotoelectrochemistryTitanium dioxide |
spellingShingle | Konrad Szaciłowski Wojciech Macyk Photoelectrochemical Photocurrent Switching Effect: A New Platform for Molecular Logic Devices CHIMIA Ferrocene Hexacyanoferrate Peps effect Photoelectrochemistry Titanium dioxide |
title | Photoelectrochemical Photocurrent Switching Effect: A New Platform for Molecular Logic Devices |
title_full | Photoelectrochemical Photocurrent Switching Effect: A New Platform for Molecular Logic Devices |
title_fullStr | Photoelectrochemical Photocurrent Switching Effect: A New Platform for Molecular Logic Devices |
title_full_unstemmed | Photoelectrochemical Photocurrent Switching Effect: A New Platform for Molecular Logic Devices |
title_short | Photoelectrochemical Photocurrent Switching Effect: A New Platform for Molecular Logic Devices |
title_sort | photoelectrochemical photocurrent switching effect a new platform for molecular logic devices |
topic | Ferrocene Hexacyanoferrate Peps effect Photoelectrochemistry Titanium dioxide |
url | https://chimia.ch/chimia/article/view/4418 |
work_keys_str_mv | AT konradszaciłowski photoelectrochemicalphotocurrentswitchingeffectanewplatformformolecularlogicdevices AT wojciechmacyk photoelectrochemicalphotocurrentswitchingeffectanewplatformformolecularlogicdevices |