"Biomimetic Engineering of Active Porous Structures"@en . "2008-01-01+01:00"^^ . "6"^^ . . "porous media; responsive materials; biomimetic engineering; computer-aided material design; three-dimensional printing"@en . . "C\u00EDlem navrhovan\u00E9ho projektu je zkoumat fundament\u00E1ln\u00ED ot\u00E1zky t\u00FDkaj\u00EDc\u00ED se n\u00E1vrhu a synt\u00E9zy miniaturn\u00EDch por\u00E9zn\u00EDch struktur maj\u00EDc\u00EDch schopnost adaptivn\u011B m\u011Bnit sv\u00E9 charakteristiky (porozita, st\u0159edn\u00ED velikost p\u00F3ru) v z\u00E1vislosti na okoln\u00EDch podm\u00EDnk\u00E1ch. Takov\u00E9 por\u00E9zn\u00ED struktury by mohly plnit funkci umel\u00FDch \u017El\u00E1z - tj. vylu\u010Dovat do okol\u00ED tekutinu j\u00ED\u017E by byly p\u0159edem nasyceny - a naleznou uplatn\u011Bn\u00ED nap\u0159. v oborech jako c\u00EDlen\u00E1 administrace l\u00E9\u010Div, nebo tk\u00E1\u0148ov\u00E9 in\u017Een\u00FDrstv\u00ED. B\u011Bhem re\u0161en\u00ED projektu se projektov\u00FD t\u00FDm bude jednak sna\u017Eit nal\u00E9zt vhodn\u00FD design takov\u00FDch u\u011Bl\u00FDch struktur na z\u00E1klad\u011B anal\u00FDzy skute\u010Dn\u00FDch biologick\u00FDch vzork\u016F (bio-mimetick\u00E9 in\u017Een\u00FDrstv\u00ED), a d\u00E1le pak nal\u00E9zt sch\u016Fdn\u00FD postup jejich laboratorn\u00ED synt\u00E9zy z vhodn\u00FDch polymern\u00EDch materi\u00E1l\u016F schopn\u00FDch vratn\u00E9 objemov\u00E9 zm\u011Bny na z\u00E1klad\u011B vnej\u0161\u00EDho impulsu. Projekt bude re\u0161en mlad\u00FDm t\u00FDmem skl\u00E1daj\u00EDc\u00EDm se z hlavn\u00EDho re\u0161itele, jednoho odborn\u00E9ho asistenta, a jednoho studenta doktorsk\u00E9ho studijn\u00EDho programu."@cs . "2010-12-31+01:00"^^ . . "Biomimetick\u00E9 in\u017Een\u00FDrstv\u00ED aktivn\u00EDch por\u00E9zn\u00EDch struktur"@cs . "0"^^ . "The aim of this project is to design and fabricate miniature sponge-like porous structures, which will have the ability to expand or shrink after an external stimulus, thereby functioning as the artificial equivalent of glands, which are responsible for internal secretion of fluids within organisms. Such artificial glands can have many interesting technological applications in areas including controlled release and delivery of drugs, or tissue engineering. The main challenges of the project will be the bio-mimetic engineering of simple yet functional porous media that capture the essential functions of glands, and the fabrication of functional prototypes of such structures from suitable materials (stimuli responsive polymers) by three-dimensional ink-jet printing. The project has a planned duration of 36 months, and will be carried out by a team consisting of one academic, a post-doctoral researcher, and a post-graduate student."@en . "6"^^ . . . . "2149"^^ . "0"^^ . . . "2149"^^ . . "1"^^ . .