The main task of this article was to prepared of new pigment model in situ solar cells accordance to charge-transfer complexes of rhodamine C(RhC) donor as dye laser gain media with iodine(σ-acceptor) and chloranilic...The main task of this article was to prepared of new pigment model in situ solar cells accordance to charge-transfer complexes of rhodamine C(RhC) donor as dye laser gain media with iodine(σ-acceptor) and chloranilic acid, CLA(π-acceptor). The synthesis stoichiometry of these complexes were of 1∶2(donor∶acceptor) with general formulas [(RhC)]I·I3 and [(RhC)(CLA)2]. The discussed data of elemental analysis, conductivity measurements, FT-IR, UV-Vis spectroscopy and photometric titration data visualized the stoichiometry, formula and complexity of the complexes. The physicochemical and spectroscopic analyses obtained suggested that the electron transfer occurred through nitrogen atom in a tertiary amine —N(C2H5)2 of RhC donor with acceptor. The synthesized solid complexes were under go to thermogravimetric analyses to investigate their thermal stability and decomposition steps. The molar conductance measurements revealed that RhC complexes have an electrolytic statement. The thermal stability of rhodamine C complexes was enhanced in comparable with RhC itself. The polymer membranes of poly-methyl methacrylate)(PMMA) combined with the RhC charge(transfer complexes in chloroform solvent have been prepared and characterized by(infrared & electronic) spectroscopy and scanning electron microscopy(SEM) morphological examination. The photo-stability properties of the RhC complexes have been investigated.展开更多
C<sub>60</sub> is the third form of elementary C, which was discovered in recent years.In C<sub>60</sub>, each C atom links with three adjacent C atoms in terms of sp<sup>2</sup>-li...C<sub>60</sub> is the third form of elementary C, which was discovered in recent years.In C<sub>60</sub>, each C atom links with three adjacent C atoms in terms of sp<sup>2</sup>-like hybridorbitals, in which there are two long bonds and one short bond. At present, sincemacro-quantity of C<sub>60</sub> is able to be produced with simple method, interest instudy on C<sub>60</sub> shifts to its chemical properties from the structure. (P(C<sub>6</sub>H<sub>5</sub>)<sub>3</sub>)<sub>2</sub>Ptand C<sub>60</sub> themselves are stable valence-saturated molecules, however, they can form sta-ble complexes through the charge transfer, in which (P(C<sub>6</sub>H<sub>5</sub>)<sub>3</sub>)<sub>2</sub> Pt is complexed展开更多
基金the Deanship of Scientific Research at Imam Abdulrahman Bin Faisal University(2017-143-CED)
文摘The main task of this article was to prepared of new pigment model in situ solar cells accordance to charge-transfer complexes of rhodamine C(RhC) donor as dye laser gain media with iodine(σ-acceptor) and chloranilic acid, CLA(π-acceptor). The synthesis stoichiometry of these complexes were of 1∶2(donor∶acceptor) with general formulas [(RhC)]I·I3 and [(RhC)(CLA)2]. The discussed data of elemental analysis, conductivity measurements, FT-IR, UV-Vis spectroscopy and photometric titration data visualized the stoichiometry, formula and complexity of the complexes. The physicochemical and spectroscopic analyses obtained suggested that the electron transfer occurred through nitrogen atom in a tertiary amine —N(C2H5)2 of RhC donor with acceptor. The synthesized solid complexes were under go to thermogravimetric analyses to investigate their thermal stability and decomposition steps. The molar conductance measurements revealed that RhC complexes have an electrolytic statement. The thermal stability of rhodamine C complexes was enhanced in comparable with RhC itself. The polymer membranes of poly-methyl methacrylate)(PMMA) combined with the RhC charge(transfer complexes in chloroform solvent have been prepared and characterized by(infrared & electronic) spectroscopy and scanning electron microscopy(SEM) morphological examination. The photo-stability properties of the RhC complexes have been investigated.
文摘C<sub>60</sub> is the third form of elementary C, which was discovered in recent years.In C<sub>60</sub>, each C atom links with three adjacent C atoms in terms of sp<sup>2</sup>-like hybridorbitals, in which there are two long bonds and one short bond. At present, sincemacro-quantity of C<sub>60</sub> is able to be produced with simple method, interest instudy on C<sub>60</sub> shifts to its chemical properties from the structure. (P(C<sub>6</sub>H<sub>5</sub>)<sub>3</sub>)<sub>2</sub>Ptand C<sub>60</sub> themselves are stable valence-saturated molecules, however, they can form sta-ble complexes through the charge transfer, in which (P(C<sub>6</sub>H<sub>5</sub>)<sub>3</sub>)<sub>2</sub> Pt is complexed
