Authors :
Islam M. Abdellah; Mohamed R. Eletmany
Volume/Issue :
Volume 8 - 2023, Issue 11 - November
Google Scholar :
https://tinyurl.com/yckjvkjh
Scribd :
https://tinyurl.com/mr4azvsv
DOI :
https://doi.org/10.5281/zenodo.10319528
Abstract :
Metallocene complexes have gained
significant attention in the field of biomedical research
due to their versatile chemical properties and potential
applications in various the srapeutic areas. This mini
review provides a concise overview of recent
advancements in the synthesis of metallocene complexes
and their emerging roles in biomedical applications. The
synthesis of metallocene complexes involves the
coordination of transition metals, typically from the
ferrocene family, with organic ligands. This process
yields compounds with unique structural features,
allowing for tailored designs that can be optimized for
specific biomedical purposes. The mini review highlights
key synthetic methodologies employed in the preparation
of metallocene complexes, emphasizing the importance
of precision and control in achieving desired molecular
structures. In the biomedical context, metallocene
complexes have demonstrated promising properties for
therapeutic applications. Their ability to interact with
biological systems at the molecular level opens avenues
for the development of novel drugs, imaging agents, and
diagnostic tools. The review explores the potential of
metallocene complexes in cancer treatment,
antimicrobial activity, and as contrast agents in medical
imaging. Finally, the synthesis of metallocene complexes
and their biomedical applications represent a
burgeoning area of research with the potential to
significantly impact healthcare. This mini review serves
as a snapshot of the current state of the field,
summarizing key developments and paving the way for
further exploration of metallocene complexes in the
realm of biomedicine.
Keywords :
Metallocene Complexes, Synthesis, Biomedical Applications, Transition Metals, Therapeutic Agents.
Metallocene complexes have gained
significant attention in the field of biomedical research
due to their versatile chemical properties and potential
applications in various the srapeutic areas. This mini
review provides a concise overview of recent
advancements in the synthesis of metallocene complexes
and their emerging roles in biomedical applications. The
synthesis of metallocene complexes involves the
coordination of transition metals, typically from the
ferrocene family, with organic ligands. This process
yields compounds with unique structural features,
allowing for tailored designs that can be optimized for
specific biomedical purposes. The mini review highlights
key synthetic methodologies employed in the preparation
of metallocene complexes, emphasizing the importance
of precision and control in achieving desired molecular
structures. In the biomedical context, metallocene
complexes have demonstrated promising properties for
therapeutic applications. Their ability to interact with
biological systems at the molecular level opens avenues
for the development of novel drugs, imaging agents, and
diagnostic tools. The review explores the potential of
metallocene complexes in cancer treatment,
antimicrobial activity, and as contrast agents in medical
imaging. Finally, the synthesis of metallocene complexes
and their biomedical applications represent a
burgeoning area of research with the potential to
significantly impact healthcare. This mini review serves
as a snapshot of the current state of the field,
summarizing key developments and paving the way for
further exploration of metallocene complexes in the
realm of biomedicine.
Keywords :
Metallocene Complexes, Synthesis, Biomedical Applications, Transition Metals, Therapeutic Agents.