HRVATSKO KEMIJSKO DRUŠTVO

Tradicija u promicanju kemije u Hrvatskoj od 1926.

KARIJERE
Oglašavanje poslova i ponuda

2 Ph.D. Positions for Early-Stage-Researchers H2020-MSCA-ITN "Breaking Bad Biofilms. Innovative Analysis and Design Rules for Next-Generation Antifouling Interfaces" (https://euraxess.ec.europa.eu/jobs/385113)

ESR7 project
RESEARCH FIELDS: Chemistry, Physics, Nanoscience, Spectroscopy, Surface chemistry, Electrochemistry, Biotechnology TITLE: Nanoantimicrobial films: deposition, characterization and evaluation of their bioactivity properties, including ion and nanoparticle release OVERVIEW: Several classes of nanoantimicrobial thin films (NAMs) will be developed, characterized (XPS, IR, UV-Vis, TEM, SEM, AFM, etc.) and applied to the protection of surfaces. Physical, wet chemical, electrochemical and hybrid methods will be used for the synthesis/deposition of NAMs, and the relevant outcomes will be critically compared in terms of (i) material’s stability, (ii) ion release properties, (iii) absence of whole-particle release, etc. NAMs composed of Ag or Cu, or ZnO nanoparticles dispersed in organic or inorganic matrices will be obtained and tested. MAIN SUPERVISOR: Nicola Cioffi (nicola.cioffi@uniba.it)

ESR8 project
RESEARCH FIELDS: Chemistry, Physics, Nanoscience, Spectroscopy, Surface chemistry, Electrochemistry, Biotechnology TITLE: Development of multi-component antimicrobial nanomaterials providing synergistic bioactivity, fighting antimicrobial resistance. OVERVIEW: Development of novel synergistic nanoantimicrobials. Different classes of organic or inorganic bioactive nanoparticles will be prepared, characterized, and tested on fighting antimicrobial/antibiotic resistance. Several bioactive dispersing matrixes/polymers will be used to embed and stabilize the nanoparticles. Synergistic combination of 2 or more bioactive components within the same nanoantimicrobials will be investigated. Conventional disinfection agents such as biopolymers and quaternary ammonium salts will be tested as nanoantimicrobials coadjuvant. Composite nanoantimicrobials will be characterized by spectroscopic, morphological, and microbiological techniques at different stages of their storage and use. MAIN SUPERVISOR: Nicola Cioffi (nicola.cioffi@uniba.it)

4CWCE2018

26HSKIKI

CompChemDay2018

SiSK

ESOR

Odbor za kemiju HAZU

E-škola kemije

IUPAC

EuChemS - European Chemical Society

Hrvatsko prirodoslovno društvo

Hrvatsko društvo kemijskih inženjera i tehnologa

Hrvatsko društvo za biokemiju i molekularnu biologiju

Hrvatska akademija znanosti i umjetnosti

Ministarstvo znanosti i obrazovanja

Kemijski odsjek, PMF, Zagreb

American Chemical Society

Royal Society of Chemistry

European Federation for Medicinal Chemistry

Merck
Najnoviji znanstveni radovi
hrvatskih kemičara

IZVOR: SCOPUS  

Chemistry in Europe

KARIJERE
Oglašavanje poslova i ponuda

2 Ph.D. Positions for Early-Stage-Researchers H2020-MSCA-ITN "Breaking Bad Biofilms. Innovative Analysis and Design Rules for Next-Generation Antifouling Interfaces" (https://euraxess.ec.europa.eu/jobs/385113)

ESR7 project
RESEARCH FIELDS: Chemistry, Physics, Nanoscience, Spectroscopy, Surface chemistry, Electrochemistry, Biotechnology TITLE: Nanoantimicrobial films: deposition, characterization and evaluation of their bioactivity properties, including ion and nanoparticle release OVERVIEW: Several classes of nanoantimicrobial thin films (NAMs) will be developed, characterized (XPS, IR, UV-Vis, TEM, SEM, AFM, etc.) and applied to the protection of surfaces. Physical, wet chemical, electrochemical and hybrid methods will be used for the synthesis/deposition of NAMs, and the relevant outcomes will be critically compared in terms of (i) material’s stability, (ii) ion release properties, (iii) absence of whole-particle release, etc. NAMs composed of Ag or Cu, or ZnO nanoparticles dispersed in organic or inorganic matrices will be obtained and tested. MAIN SUPERVISOR: Nicola Cioffi (nicola.cioffi@uniba.it)

ESR8 project
RESEARCH FIELDS: Chemistry, Physics, Nanoscience, Spectroscopy, Surface chemistry, Electrochemistry, Biotechnology TITLE: Development of multi-component antimicrobial nanomaterials providing synergistic bioactivity, fighting antimicrobial resistance. OVERVIEW: Development of novel synergistic nanoantimicrobials. Different classes of organic or inorganic bioactive nanoparticles will be prepared, characterized, and tested on fighting antimicrobial/antibiotic resistance. Several bioactive dispersing matrixes/polymers will be used to embed and stabilize the nanoparticles. Synergistic combination of 2 or more bioactive components within the same nanoantimicrobials will be investigated. Conventional disinfection agents such as biopolymers and quaternary ammonium salts will be tested as nanoantimicrobials coadjuvant. Composite nanoantimicrobials will be characterized by spectroscopic, morphological, and microbiological techniques at different stages of their storage and use. MAIN SUPERVISOR: Nicola Cioffi (nicola.cioffi@uniba.it)