Bioinorganic Chemistry Is A Branch Of Chemistry That Combines The Principles Of Biochemistry And Inorganic Chemistry To Study Biomolecules And Their Interactions With Metals Or Metalloids And Other Molecules. It Is Also An Important Tool In The Fields Of Biochemistry, Biotechnology, Biomedicine, And Nanotechnology. Bioinorganic Chemistry Is The Study Of The Interaction Between Metals And/Or Metalloids And Biological Materials Such As Proteins, Lipids, Carbohydrates, And DNA. Bioinorganic Chemistry Is An Interdisciplinary Field That Combines Several Areas Of Chemistry, Biology, Biochemistry, And Engineering. The Main Objective Of This Area Of Study Is To Develop And Apply Chemical Techniques To Understand Biological Processes Such As Metabolism, Signaling, And Gene Expression. Using Chemical Methods, Researchers Can Better Understand How Biological Systems Work At The Molecular Level. In Addition, Bioinorganic Chemistry Can Be Applied To Create New Metal-Containing Biological Systems, Or To Design Medical Treatments That Use Metal Complexes Or Other Metals To Target Specific Molecules In The Body. Bioinorganic Chemistry Has A Number Of Applications In The Medical Field, Including The Development Of Drugs Aimed At Disease Targets That Require Metal Complexes For Their Action. This Includes Metal Complexes For Targeting Specific Proteins, For Curing Certain Types Of Cancer, And For Treating Diseases Such As Alzheimer’s. Some Of The Most Commonly Used Metals In Medicine Are Iron, Copper, Cobalt, Nickel, And Vanadium. In Addition, This Field Of Research Is Focused On Developing New Metal-Containing Nanomaterials For Use In Medical Diagnostics, Drug Delivery, And Tissue Regeneration. These Materials Are Expected To Revolutionize The Medical Field In The Future, As They Can Be Used To Target Specific Cell Types And Enhance The Effectiveness Of Therapeutic Treatments. Bioinorganic Chemistry Is Also A Promising Area Of Research In The Field Of Nanotechnology. Nanoparticles Are Becoming Increasingly Important Due To Their Unique Properties And Potential Applications In Biotechnology, Nanomedicine, And Nanoelectronics. By Understanding The Properties Of Metals, Metalloids, And Other Materials On A Nano-Scale, Scientists Are Developing Practical Applications For These Materials In Various Fields. Overall, Bioinorganic Chemistry Is An Important Area Of Research For Understanding And Developing Advances In Modern Medicine, Biomedical Science, And Nanotechnology. Its Applications And Implications Are Far Reaching And Are Likely To Change The Face Of Modern Science In The Future.
Title : Synthesis of chitosan composite of metal organic framework for the adsorption of dyes, kinetic and thermodynamic approach
Tooba Saeed, University of Peshawar, Pakistan
Title : Time Domain NMR: A new Paradigm in Process Control for Sodium in Foods and Beverages
Dan Kroll, Iowa State University, United States
Title : Synthesis of Copper (II) Oxide Nanoparticles using Curcumin and Investigation of Molecular Interactions through DFT Analysis
Madhulata Shukla, Veer Kunwar Singh University, India
Title : An overview on the correlation of oxidative stress, chronic inflammation, microbial infections, and diabetes mellitus: Therapeutic potential of natural products
Demissie Shimeli, ASTU, Ethiopia
Title : Nature meets innovation: Green synthesis of nanoparticles using plant extracts and ionic liquids for a sustainable future
Azeez A Barzinjy, Soran University, Iraq
Title : Lewis and bronsted acids effects on the mechanism of the diels alder reaction of dimethylfuran. A DFT Study
Hafida Chemouri, Ecole Superieure En Sciences Appliquees De Tlemcen ESSA-Tlemcen, Algeria