"Mobilitas tippteadlase uurimistoetus" projekt MTT68
MTT68 (MTT68) "Microwave and Scale enhanced NMR of Micro-Drops, -Leaflets, Cells and Nanoparticles (1.07.2011−31.10.2015)", Raiker Dr.witter, Tallinna Tehnikaülikool, Matemaatika-loodusteaduskond, Tallinna Tehnikaülikool, TTÜ Tehnomeedikum.
MTT68
Microwave and Scale enhanced NMR of Micro-Drops, -Leaflets, Cells and Nanoparticles
Microwave and Scale enhanced NMR of Micro-Drops, -Leaflets, Cells and Nanoparticles
1.07.2011
31.10.2015
Teadus- ja arendusprojekt
Mobilitas tippteadlase uurimistoetus
ETIS klassifikaatorAlamvaldkondCERCS klassifikaatorFrascati Manual’i klassifikaatorProtsent
4. Loodusteadused ja tehnika4.8. Elektrotehnika ja elektroonikaT191 Kõrgsagedustehnoloogia, mikrolained 2.2. Elektroenergeetika, elektroonika (elektroenergeetika, elektroonika, sidetehnika, arvutitehnika ja teised seotud teadused)100,0
AsutusRollPeriood
Tallinna Tehnikaülikool, Matemaatika-loodusteaduskondkoordinaator01.07.2011−31.10.2015
Tallinna Tehnikaülikool, TTÜ Tehnomeedikumkoordinaator01.07.2011−31.10.2015
PerioodSumma
01.07.2015−31.10.2015554 668,00 EUR
554 668,00 EUR
Materjalitehnoloogiad

This project will address problems of micro- and nanotechnology by developing a comprehensive analytical approach for nuclear magnetic resonance spectroscopy (NMR). Based on three-dimensional electromagnetic (3D-EM) simulations new ultra-sensitive NMR hardware will be developed supporting applications for 3D-NMR-structure elucidation of micro- and nano-sized samples. To improve the applicability, the NMR sensitivity will be increased by micro/nano-fabrication techniques and implementation of dynamic nuclear polarization (DNP). Study of representative test systems will address molecules in partially aligned media, single cells and nano-sized particles. Complementary competence and infrastructure of partner organizations are critical to the success of the very challenging tasks and dissemination of technological benefits.
This project will address problems of micro- and nanotechnology by developing a comprehensive analytical approach for nuclear magnetic resonance spectroscopy (NMR). Based on three-dimensional electromagnetic (3D-EM) simulations new ultra-sensitive NMR hardware will be developed supporting applications for 3D-NMR-structure elucidation of micro- and nano-sized samples. To improve the applicability, the NMR sensitivity will be increased by micro/nano-fabrication techniques and implementation of dynamic nuclear polarization (DNP). Study of representative test systems will address molecules in partially aligned media, single cells and nano-sized particles. Complementary competence and infrastructure of partner organizations are critical to the success of the very challenging tasks and dissemination of technological benefits.