Thesis etd-09102021-112439 |
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Thesis type
Tesi di laurea magistrale
Author
SAVIOZZI, CHIARA
URN
etd-09102021-112439
Thesis title
Design, synthesis and characterization of new trinuclear iron complexes with potential antitumor activity.
Department
CHIMICA E CHIMICA INDUSTRIALE
Course of study
CHIMICA
Supervisors
relatore Prof. Marchetti, Fabio
Keywords
- aminocarbyne
- anticancer
- antitumor
- antitumour
- biological
- bridging
- chemistry
- cyanide
- dinuclear
- ferrocene
- inorganic
- iron
- metal-based drugs
- organometallic
- redox
- trinuclear
- vinyliminium
Graduation session start date
21/10/2021
Availability
Withheld
Release date
21/10/2091
Summary
The objectives of the present work can be summarized as follows:
1) Synthesis of a new triiron aminocarbyne compound with formula [Fe2Cp2(CO)2(μ-CO){μ-CNMe(Fc)}]CF3SO3 starting from [Fe2Cp2(CO)4], via substitution of a carbonyl ligand with isocyanoferrocene (CNFc) followed by alkylation of the coordinated isocyanide.
2) Synthesis of derivatives obtained by (i) mono- and di-substitution of terminal carbonyls with selected ligands; (ii) functionalization of the aminocarbyne ligand by alkyne insertion, affording ferrocenyl-vinyliminium complexes.
3) Characterization by analytical and spectroscopic methods. Assessment of the stability of selected compounds in both water and cell culture media, with a view to the biological applications. Planning of electrochemical studies and preliminary cytotoxicity investigations in collaborations with other research groups.
1) Synthesis of a new triiron aminocarbyne compound with formula [Fe2Cp2(CO)2(μ-CO){μ-CNMe(Fc)}]CF3SO3 starting from [Fe2Cp2(CO)4], via substitution of a carbonyl ligand with isocyanoferrocene (CNFc) followed by alkylation of the coordinated isocyanide.
2) Synthesis of derivatives obtained by (i) mono- and di-substitution of terminal carbonyls with selected ligands; (ii) functionalization of the aminocarbyne ligand by alkyne insertion, affording ferrocenyl-vinyliminium complexes.
3) Characterization by analytical and spectroscopic methods. Assessment of the stability of selected compounds in both water and cell culture media, with a view to the biological applications. Planning of electrochemical studies and preliminary cytotoxicity investigations in collaborations with other research groups.
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