Ukuhlanganiswa kwe-ITO kubhekisela ku-Indium Tin Oxide coating, okuyisisombululo esakhiwe yi-indium, i-oxygen kanye ne-tin – okungukuthi i-indium oxide (In2O3) kanye ne-tin oxide (SnO2).
Ngokuvamile itholakala ngesimo esigcwele umoya-mpilo esakhiwe (ngesisindo) esingu-74% In, 8% Sn kanye no-18% O2, i-indium tin oxide iyinto esetshenziswa yi-optoelectronic ephuzi-grey ngesimo esikhulu futhi engenambala futhi esobala uma isetshenziswa ezingqimbeni ezincane zefilimu.
Manje phakathi kwama-oxide okuqhuba asobala asetshenziswa kakhulu ngenxa yokucaca kwawo okuhle kakhulu kwe-optical kanye nokuqhuba kukagesi, i-indium tin oxide ingafakwa ku-vacuum ezindaweni ezifaka ingilazi, i-polyester, i-polycarbonate kanye ne-acrylic.
Kuma-wavelength aphakathi kuka-525 no-600 nm, izembozo ze-ITO ezingama-20 ohms/sq. ku-polycarbonate nasengilazini zinokudluliswa kokukhanya okuphezulu okuvamile okungu-81% no-87%.
Ukuhlukaniswa kanye nokusetshenziswa
Ingilazi ekwazi ukumelana okuphezulu (inani lokumelana lingu-150~500 ohms) – ngokuvamile isetshenziselwa ukuvikela ngogesi kanye nokukhiqizwa kwesikrini sokuthinta.
Ingilazi yokumelana evamile (inani lokumelana lingu-60~150 ohms) – ngokuvamile isetshenziselwa ukubonisa i-TN liquid crystal kanye nokulwa nokuphazamiseka kwe-elekthronikhi.
Ingilazi ephikiswa kancane (ukumelana okungaphansi kwama-ohm angu-60) – ngokuvamile isetshenziselwa ukubonisa i-STN liquid crystal kanye nebhodi lesifunda elibonakalayo.
Isikhathi sokuthunyelwe: Agasti-09-2019