"Sensors with Biorecognition Elements Entrapped into Silica Based Polymers" . . . "000258329100027" . "Kyiv" . "biorecognition element; optical sensors; polymers"@en . "Sensors with Biorecognition Elements Entrapped into Silica Based Polymers"@en . "Sensors with Biorecognition Elements Entrapped into Silica Based Polymers" . . . "RIV/67985858:_____/08:00359643!RIV12-AV0-67985858" . "The paper summarize characteristics of biosensors with biorecognition elements entrapped in silica based polymers developed and tested in the Institute of Chemical Process Fundamentals ASCR, Prague (ICPF). Prepolymerized alkoxysilanes were used for preparation of whole cell biosensors of phenol, naphthalene and/or salicylic acid intermediate of its metabolisms and polychlorinated biphenyls (PCB). Modifications of prepolymer composition and immobilization procedure might increase viability of entrapped cells nevertheless also influenced sensors properties. UV curable polymers with silica skeleton, ORMOCERs, have been matrices of a sensitive element of optical sensor for in-situ continuous monitoring of glucose in bioreactors. This enzymatic sensor, developed within the project MATINOES, performed 3 weeks stability during fermentation in a laboratory bioreactor." . . . . "Sensors with Biorecognition Elements Entrapped into Silica Based Polymers"@en . "The paper summarize characteristics of biosensors with biorecognition elements entrapped in silica based polymers developed and tested in the Institute of Chemical Process Fundamentals ASCR, Prague (ICPF). Prepolymerized alkoxysilanes were used for preparation of whole cell biosensors of phenol, naphthalene and/or salicylic acid intermediate of its metabolisms and polychlorinated biphenyls (PCB). Modifications of prepolymer composition and immobilization procedure might increase viability of entrapped cells nevertheless also influenced sensors properties. UV curable polymers with silica skeleton, ORMOCERs, have been matrices of a sensitive element of optical sensor for in-situ continuous monitoring of glucose in bioreactors. This enzymatic sensor, developed within the project MATINOES, performed 3 weeks stability during fermentation in a laboratory bioreactor."@en . . . "Kuncov\u00E1, Gabriela" . "1"^^ . "1"^^ . . . . . . . "[DBC74075C133]" . "Dordrecht" . "6"^^ . . . "Sol-Gel Methods for Materials Processing" . "RIV/67985858:_____/08:00359643" . . "Springer-Verlag" . "394417" . "P(GA104/05/2637), P(OC 121), Z(AV0Z40720504)" . . "978-1-4020-8521-5" . "2007-10-25+02:00"^^ .