Poorly-soluble complexes reduce drug solubility. This enables the drug to be absorbed more slowly and it prolongs its action.
Metals such as platinum (in cisplatin) and gold (in auranofin) are used in certain chemotherapy drugs to target and destroy cancer cells. These metals are incorporated into the drugs to enhance their effectiveness against cancer.
Yes, boron is often used in drug development due to its ability to form stable coordination complexes with biomolecules. Boron-containing compounds have been utilized in a variety of pharmaceuticals, including anti-cancer drugs and antibiotics.
Nicholas Farrell has written: 'Transition metal complexes as drugs and chemotherapeutic agents' -- subject(s): Metals, Pharmacokinetics, Physiological effect, Testing, Therapeutic use, Transition metal complexes
Inorganic chemistry is crucial in developing drugs, diagnostics, and imaging agents used in medicine. Metal complexes are used in chemotherapy drugs to treat cancer, while contrast agents containing heavy metals are used in MRI imaging. Inorganic materials, such as ceramics and metals, are also utilized for medical devices like prosthetics and implants.
High spin complexes in coordination chemistry have unpaired electrons in their d orbitals, leading to magnetic properties. These complexes are often used in catalysis, magnetic materials, and as contrast agents in medical imaging.
Quinolinolate is a type of ligand that is commonly used in coordination chemistry to form complexes with various metal ions. These complexes can exhibit interesting properties and have been studied for potential applications in areas such as catalysis and materials science.
There are two different types of outer orbital complexes. These two type of complexes are called low-spin or spin-paired complexes.
Complexes is the plural of complex
In coordination chemistry, high spin complexes have unpaired electrons and low spin complexes have paired electrons. Examples of high spin complexes include octahedral complexes with weak ligands like water, while examples of low spin complexes include octahedral complexes with strong ligands like cyanide.
Non inert complexes are coordination complexes that exhibit reactivity with their ligands or the surrounding environment. These complexes can undergo ligand exchange reactions, isomerization, or redox processes due to their dynamic nature. Examples include labile complexes that readily exchange ligands and inert complexes that are stable and do not readily undergo reactions.
In chemistry, "en" refers to ethylenediamine, a compound commonly used as a ligand in coordination complexes. It is significant because it can form stable complexes with metal ions, influencing their reactivity and properties.
CFT splitting