P3 –Carbon based nanostructured materials for gas and PAH sensing
Main goals of the project:
The aim of this project is to develop electrochemical sensors for anthracene and H2S sensing using carbonaceous nanostructured materials and nanoparticles MaMbCh2 (e.g. CuInS2) or nanoparticles on carbon based substrates, such as graphene or reduced graphene oxide (e.g. (RGO/MaMbCh2), respectively
Objectives:
- Development of materials by “green” synthesis technologies, for transparent electrodes with applications in photovoltaic systems.
- Development of new materials by innovative technologies for laser active environments with thermal, electrical and mechanical improved properties. investigated systems: new boron phosphate glass composites doped with nanocarbon compounds (OCDI-2).
Results:
Stage I
Hired personnel:
- PhD student, ACS, Apostol Adrian Alexandru
- Master student, ACS, Stoian Marius Constantin
- PhD, CS III, Carmen Steluța
CoolSafe 110-4 PRO,(-110 °C, 0.030 mbar) Freeze Dryers (https://erris.gov.ro/minafab)
Results were disseminated at 5 national/international conferences and 2 research papers were published.
Stage II
- Carbon based nanomaterials were developed.
- Aerogels based on CuGaO2/graphene and used to develop modified electrodes.
Results were disseminated at 7 national/international conferences and 4 research papers were published.
Stage III
Sensors for anthracene and H2S sensing
- Electrochemical sensors for anthracene were developed.
- Electrochemical sensors for H2S sensing were developed.
- Results were disseminated at 5 national/international conferences and 2 research papers were published.
Stage IV
Dissemination
- Results were disseminated at 2 national/international conferences and 1 research paper was published; a patent request is pending.
- Human resources maintaned:
- PhD student, CS, Apostol Adrian Alexandru
- PhD student, CS, Stoian Marius Constantin
- PhD, CS III, Bilteanu Liviu
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