New hybrid and composite materials obtained by electrochemical immobilization
of active micro and nanoparticles (metals, oxides, azamacrocycles, carbon nanotubes)
in conducting polymer matrices
The interaction electrocatalyst-substrate as a key factor in improving the overall activity
of noble metal-based electrode materials
Electrochemical methods for obtaining new polymeric enzyme substrates and biocatalysts for fuel cells
Detection of some toxic compounds on carbon-supported hybrid electrode materials
Modeling the behavior of advanced nanostructured biomaterials in physiological fluids
Environmentally friendly polymeric and multilayer coatings for corrosion protection
Low and high temperature ionic liquids with applications in the electrochemical production
of metals and metallic compounds and in the corrosion of some metallic materials.
Dr. Maria MARCU, CS II
- Head of the laboratory
Scientific staff
Dr. Niculae SPĂTARU, CS I
Dr. Florina BRÎNZOI, CS II
Dr. Tanţa SPĂTARU, CS II
Dr. Cora VASILESCU, CS II
Dr. Cecilia LETE, CS II
Dr. Ana-Maria-Julieta POPESCU, CS II
Dr. Virgil-Cornel CONSTANTIN, CS II
Dr. Silviu Iulian DROB, CS II
Dr. Mariana MARIN, CS III
Dr. Loredana-Camelia PREDA, CS III
Dr. Cristina DONATH, CS III
Dr. Elena Ionela NEACŞU, CS III
Mihai Marian RADU, ACS
Marius Alexandru MIHAI, ACS
Sorina Alexandra LEAU, ACS
Electrochemical equipment Voltalab 80 PGZ 402
Corrosion test cabinet DCTC 600P
Potentiostat/Galvanostat/FRD PAR 273A
Potentiostat/Galvanostat AUTOLAB
Potentiostat AUTOLAB with Electrochemical Quartz Crystal Nanobalance
FTIR spectrometer
Metallurgical/Metallographic microscope
Autolab Potentiostat 302N
Electrochemical equipment PARSTAT 2273
CDM230 Conductometer (Radiometer Group)
Nahita 802 digital viscometer with temperature probe
Archimedean balance for density determination at low and high temparature
100x-1000x Magnification Trinocular Metallurgical-Metallographic Microscope
High temperature furnaces (up to 1000 C), programmable