Cholesterol metabolism is a very well studied example of RME.
Trans-effect in inorganic chemistry is defined as the effect where some ligands are able to influence properties of the ground states where they are trans. It is when some ligands can be seen as trans-directing ligands.
d - ligands.
Neutral ligands with special namesCO - carbonylCS - thiocarbonylH2O - aquaNO - nitrosylNS - thionytrosylNH3 - ammineNeutral ligands according to structure(C2H5)3N - triethylammineN2H4 - hydrazineCH3NH2 - methylamineNH2OH - hydroxylamineCH3CN - acetonirileO2 - dioxygenN2 - dinitrogenNegative ligands ending with 'o'F- - fluoroCl- - chloroBr- - bromoI- - iodoH- - hydridoCH3COO- - acetatoNH2- - amidoNH2- - imidoN3- - nitridoOH- - hydroxoO2- - oxoO22- - peroxoO2- - superoxoS2- - thioSO32- - sulphitoSO42- - sulphatoCO32- - carbanatoCN- - cyanoNC- - isocyanoS2O32- - thiosulphatoCH3O- - methoxoC2H5O- - ethoxoN3- - azidoNO2- - nitroONO- - nitritoSCN- - thiocyanatoNCS- - isothiocyanatoHS- - mercaptoPositive ligands ending with 'ium'NH4+ - ammoniumH3O+ - hydroniumNO+ - nitrosoniumNO2+ - nitroniumIndependent radical ligands with special namesCH3 - methylC6H5 - phenylC2H5 - ethylCH3CN - acetonitrile
A ligand is only a part of a metal complex.
multidentate ligands can be good chelating ligands compare to unidendate multidentate ligands bring better stability to the central metal
Cholesterol metabolism is a very well studied example of RME.
all those ions or molecules are ligands which may donate one or more pairs of electrons to a metal ion forming the coordinate covalent bonds are ligands, usually they neutral or negativelycharged, all the negative ligands areAnionic ligands.
the ligands which are capable of donating two or more pairs of electron in a complexation reaction
The weak field ligands are those that produce a small Δ and usually lie at the left of the series.
Trans-effect in inorganic chemistry is defined as the effect where some ligands are able to influence properties of the ground states where they are trans. It is when some ligands can be seen as trans-directing ligands.
An ancillary ligand is a ligand on a chemical complex that is not directly involved in the chemistry. Ancillary ligands are often there to help stabilize a complex or contribute steric or electronic effects. Thus, activity of a complex can be tuned by adjusting the ancillary ligands, even though they are not directly a part of the chemistry that is occurring. The ligands that are involved in the chemistry are called functional ligands.
di is used for inorganic ligands or groups but bis is used for organic ligands or groups, logic is that some organic ligands also have di in their names as bis dimethyl glyximo.
d - ligands.
They both have ligands.
Neutral ligands with special namesCO - carbonylCS - thiocarbonylH2O - aquaNO - nitrosylNS - thionytrosylNH3 - ammineNeutral ligands according to structure(C2H5)3N - triethylammineN2H4 - hydrazineCH3NH2 - methylamineNH2OH - hydroxylamineCH3CN - acetonirileO2 - dioxygenN2 - dinitrogenNegative ligands ending with 'o'F- - fluoroCl- - chloroBr- - bromoI- - iodoH- - hydridoCH3COO- - acetatoNH2- - amidoNH2- - imidoN3- - nitridoOH- - hydroxoO2- - oxoO22- - peroxoO2- - superoxoS2- - thioSO32- - sulphitoSO42- - sulphatoCO32- - carbanatoCN- - cyanoNC- - isocyanoS2O32- - thiosulphatoCH3O- - methoxoC2H5O- - ethoxoN3- - azidoNO2- - nitroONO- - nitritoSCN- - thiocyanatoNCS- - isothiocyanatoHS- - mercaptoPositive ligands ending with 'ium'NH4+ - ammoniumH3O+ - hydroniumNO+ - nitrosoniumNO2+ - nitroniumIndependent radical ligands with special namesCH3 - methylC6H5 - phenylC2H5 - ethylCH3CN - acetonitrile
Define "strong"