Give the number of unpaired electrons in octahedral complexes with weak-field ligands for Ti2+. Give the number of unpaired electrons in octahedral complexes with weak-field ligands for Mo2+. Give the numb...
Dicyanamide Ions as Complexing Agents of Co(II): From Weak Ligands in Water to Strong Ones in an Ionic LiquidCobalt complexesdicyanamide ionsionic liquidsAd hoc modellingmetal extractionThe complexation of cobalt cations (Co(II)) by dicyanamide (DCA–) in water and 1-butyl-1-methylpyrrolidinium ...
Finding the rules for peptide generation and selection is regarded as the most important open issue in the field of HLA-I biology by leading experts (5). Although the antigen presentation pathway is well characterized, it is still unclear how basic properties such as protein abundance, turnover...
Strong field ligands such as CN-: (a) usually produce high spin complexes and small crystal field splittings. (b) usually produce low spin complexes and small crystal field splittings. (c) usually produce low spin complexes and high crystal field split Compound (C...
substance is present; providing an adsorption matrix which comprises at least two different ligands; contacting the liquid with the matrix under a period of time and conditions sufficient to allow adsorption of the substance to the matrix; and adding an eluent that desorbs the substance from the ...
Dicyanamide Ions as Complexing Agents of Co(II): From Weak Ligands in Water to Strong Ones in an Ionic LiquidCobalt complexesdicyanamide ionsionic liquidsAd hoc modellingmetal extractionThe complexation of cobalt cations (Co(II)) by dicyanamide (DCA(-)) in water and 1-butyl-1-methylpyrrolidinium...
The binding of ligands to DNA through intercalation can stabilize the double helical structure of DNA, thereby increasing the Tm of the ligand–DNA complex by more than 5 °C [18,19]. An investigation of the melting temperature of complexes formed by the studied derivatives and ctDNA showed ...