Picosecond flash photolysis and spectroscopy: Transition metal coordination compounds

We dcmonstratc transient absorption spectroscopy with picosecond time resolution and nanomctcr spectral rcsolution over the entire visible region. To resolve mu1 tiple discrepancies in the literature, we studied 3,3'-dicrhyloxadicarbocyanine iodide. We measured both cscited sinflct liFerime and grou

The transient absorption sjicctrum Of an electro&Aly excited dithiene; bis\_i4d~ethyl~inodi~~ObemiI)-~i~[), which we term BDN, 1~~s measured with 10 ps temporal resolution and I: nm wavcIength resolution. For liseries oE "heavy atom" solvents, both the ground state and the excited state spectra rem

The syntheses of N,N '-bis-[(2-pyridylmethyl)]-1,3-diamido-Ni(II) Ͻ Cu(II), and this is confirmed by the potentiometric data (papH 2 , aqueous solutions; logβ ML [Co(II)] = 1.75; propane (papH 2 ) and N,N '-bis-[(2-pyridylmethyl)]-1,3diamido-2-hexadecylpropane (C 16 papH 2 ) are reported logβ MLH-2

By using 31P NMR and IR techniques it is established that the basicities of triphenylphosphine rn-trisulfonate (TPPTS) and triphenylphosphine (PPh,) are in the same order of magnitude. This highly hydrosoluble phosphine is a convenient ligand for the synthesis of hydrosoluble coordination compounds