"Fotorezistory ze sulfoselenidu kademnat\u00E9ho nan\u00E1\u0161en\u00E9ho s\u00EDtotiskem a n\u00E1sledn\u011B sintrovan\u00E9ho"@cs . "2"^^ . . "Photoconductive cells from screen-printed and sintered cadmium sulfoselenide"@en . . . "Photoconductive cells from screen-printed and sintered cadmium sulfoselenide" . "1"^^ . . "Fotorezistory ze sulfoselenidu kademnat\u00E9ho nan\u00E1\u0161en\u00E9ho s\u00EDtotiskem a n\u00E1sledn\u011B sintrovan\u00E9ho"@cs . "000259379800007" . "[E166987DB778]" . "1356-5362" . "Ne\u0161p\u016Frek, Stanislav" . "Z(AV0Z40400503), Z(AV0Z40500505)" . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . "386530" . "Purpose - Screen-printing is an appropriate technique for the manufacture of large-area position-sensitive detectors. We present simple methods of paste preparation and appropriate processing of thick films. Methodology - Active layers of photoconductive cells based on doped CdS0.32Se0.68 were prepared by screen-printing and sintering at 530 oC. A sulfide - selenide mixture or a mixed crystal material and propylene glycol was deposited as a paste. Propylene glycol served as the temporary paste binder. Cadmium chloride was used as a fluxing agent and a donor source. Copper(II) chloride was used as an acceptor source. The effect of the paste composition and sintering time on the resistance and slope of the resistance vs. illumination dependence of cells was investigated. These parameters were checked again after 8 years of cell storage." . . "Microelectronics International" . . . "photoconductivity; detectors (circuits); sintering; pastes"@en . . . . . "Franc, Ji\u0159\u00ED" . "C\u00EDl: S\u00EDtotisk p\u0159edstavuje vhodn\u00FD zp\u016Fsob v\u00FDroby velkoplo\u0161n\u00FDch senzor\u016F detekuj\u00EDc\u00EDch polohu svazku dopadaj\u00EDc\u00EDho sv\u011Btla. C\u00EDlem pr\u00E1ce je p\u0159edstavit jednoduchou metodu p\u0159\u00EDpravy pasty a vhodn\u00FD postup zpracov\u00E1n\u00ED vrstvy. Postup: Aktivn\u00ED vrstvy fotorezistor\u016F tvo\u0159en\u00E9 dopovan\u00FDm CdS0,32Se0,68 byly naneseny s\u00EDtotiskem a n\u00E1sledn\u011B sintrov\u00E1ny p\u0159i 530 \u00B0C. Z\u00E1kladem pasty byla sm\u011Bs sulfidu a selenidu nebo nebo materi\u00E1l, kter\u00FD byl tuh\u00FDm roztokem obou. Jako do\u010Dasn\u00E9 pojivo pasty byl pou\u017Eit propylenglykol (PG). Chlorid kademnat\u00FD byl pou\u017Eit jako tavidlo a zdroj donor\u016F. Jako zdroj akceptor\u016F byl p\u0159id\u00E1n chlorid m\u011B\u010Fnat\u00FD. U vyroben\u00FDch fotorezistor\u016F byl sledov\u00E1n vliv slo\u017Een\u00ED pasty a doby sintrace na odpor a strmost z\u00E1vislosti odporu na osv\u011Btlen\u00ED. Tyto parametry byly znovu p\u0159em\u011B\u0159eny po osmi letech skladov\u00E1n\u00ED vzork\u016F. Z\u00E1v\u011Bry Vlastnosti fotorezistor\u016F jsou v\u00FDznamn\u011B ovlivn\u011Bny prodlevami mezi tiskem, su\u0161en\u00EDm a sintrac\u00ED vrstvy."@cs . "Purpose - Screen-printing is an appropriate technique for the manufacture of large-area position-sensitive detectors. We present simple methods of paste preparation and appropriate processing of thick films. Methodology - Active layers of photoconductive cells based on doped CdS0.32Se0.68 were prepared by screen-printing and sintering at 530 oC. A sulfide - selenide mixture or a mixed crystal material and propylene glycol was deposited as a paste. Propylene glycol served as the temporary paste binder. Cadmium chloride was used as a fluxing agent and a donor source. Copper(II) chloride was used as an acceptor source. The effect of the paste composition and sintering time on the resistance and slope of the resistance vs. illumination dependence of cells was investigated. These parameters were checked again after 8 years of cell storage."@en . . "RIV/61389013:_____/08:00310707" . . "25" . "6"^^ . . . "Photoconductive cells from screen-printed and sintered cadmium sulfoselenide"@en . "Photoconductive cells from screen-printed and sintered cadmium sulfoselenide" . . "3" . . "RIV/61389013:_____/08:00310707!RIV09-AV0-61389013" .