Abstract
Design and preparation, through chemical and photochemical strategies of nanostructured materials, properly engineered to allow a covalent linkage oligonucleotides and to convert absorbed light, into heat (photothermal effect). Carbon based and inorganic nanostructured materials will be investigated including metal (zero valence) (Au, Pd, Ag), carbon-nanodots, metal oxide (Fe3O4, Co3O4), and boron nitride quantum-dots derivates. The nano-systems will be characterized by optical absorption and emission spectroscopies, dynamic light scattering and Zeta potential techniques. Photothermal yield conversion (?) will be measured. The DNA-microarray photothermal-contrast read out experiments will be performed for a high sensitivity and specificity acid nucleic hybridization recognition.
Keywords
photothermal effect
nanostructured materials
DNA-microarray hybridization
ERC sector(s)
PE Physical Sciences and Engineering
Name supervisor
Salvatore Petralia
E-mail
salvatore.petralia@unict.it
Name of Department/Faculty/School
Department of Drug and Health Sciences
Name of the host University
University of Catania (UNICT)
EUNICE partner e-mail of destination Research
leonardo.mirabella@studium.unict.it
Country
Italy
Thesis level
PhD
Minimal language knowledge requisite
English B2
Thesis mode
On-site
Call deadline
Length of the research internship
12 months
Financial support available (other than E+)
No