Notizie
Gli studenti che intendono frequentare il corso sono pregati di iscriversi su e-learning Sapienza al corso:
CHIMICA AT+EE 2025-26
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Orari di ricevimento
Prendere appuntamento via e-mail: marta.feroci@uniroma1.it
Curriculum
Marta Feroci
EDUCATIONAL CAREER:
• Graduated on Chemistry, University Sapienza of Rome (Italy), experimental thesis in Organic Chemistry.
• Qualificated for the profession of Chemist.
• PhD in Organic Chemistry, University Sapienza of Rome (Italy).
PROFESSIONAL POSITION:
• Full Professor (CHEM-06/A), Department of Foundamental and Applied Sciences for Engineering, in the Engineering Faculty of University Sapienza of Rome (Italy).
TEACHING:
• General Chemistry of the degree course in Engineering (University Sapienza of Rome).
• Member of the Board of PhD School in „Engineering and Applied Science for Energy and Industry”
MEMBERSHIP/SERVICES OF PROFESSIONAL ORGANIZATIONS:
• Member of Italian Chemical Society (Division of Electrochemistry).
• Member of the International Society of Electrochemistry.
RESEARCH ACTIVITY:
ORCID: 0000-0002-3673-6509
Author and coauthor of 140 papers on international journals (with referees), of 9 proceedings (with referees), of 4 chapters on books of international Editors, of 2 international patents.
• In Scopus database there are 143 documents, cited 3128 times. H-index: 32.
• In Publons, an Isi Web of Science database, there are 138 papers, cited 2805 times. H-index: 31.
• In Google Scholar database there are 159 papers, cited 3731 times. H-index: 36.
RESEARCH INTERESTS:
• Synthesis and use of carbon dots (chiral and achiral) in organic synthesis and sensing.
• Electrochemical generation of bases and their applications in organic synthesis; in particular the use of cyanomethyl anion as a perfect EGB (electrogenerated base) in organic chemistry.
• Use of ionic liquids in the electrochemical synthesis of substance for biological and pharmaceutical scopes; in particular, use of electrogenerated N-heterocyclic carbenes as bases, nucleophiles or reactives.
• Comparison between the behaviour of classical organic solvents and ionic liquids in organic electrochemistry.
In particular, the studied topics are:
- Electrogenerated cyanometyl anion as a base in organic synthesis.
- Green Chemistry: electrolyses in the absence of solvent and/or supporting electrolyte.
- Organic electrosynthesis in ionic liquids.
Insegnamenti
| Codice insegnamento | Insegnamento | Anno | Semestre | Lingua | Corso | Codice corso | Curriculum |
|---|---|---|---|---|---|---|---|
| 101144 | CHIMICA | 2º | 1º | ITA | Ingegneria Gestionale | 33500 | Curriculum unico |
| 1015378 | CHIMICA | 1º | 2º | ITA | Ingegneria dell'Energia Elettrica | 33477 | Curriculum unico |
| 1015378 | CHIMICA | 1º | 2º | ITA | Ingegneria per l'Ambiente e il Territorio | 33473 | Curriculum unico |