《Orthogonally Bimetallized Phosphane-ene Photopolymer Networks》 was written by Beland, Vanessa A.; Ragogna, Paul J.. Synthetic Route of Br3In And the article was included in Chemistry – A European Journal in 2020. The article conveys some information:
The development of batteries and fuel cells has brought to light a need for carbon anode materials doped homogeneously with electrocatalytic metals. In particular, combinations of electrocatalysts in carbon have shown promising activity. A method to derive functional carbon materials is the pyrolysis of metallopolymers. This work describes the synthesis of a bifunctional phosphonium-based system derived from a phosphane-ene network. The olefin functionality can be leveraged in a hydrogermylation reaction to functionalize the material with Ge. Unaffected by this radical addition, the bromide counterion of the phosphonium cation can be used to subsequently incorporate a second metal in an ion-complexation reaction with CuBr2. The characterization of the polymers and the derived ceramics are discussed.Indium(III) bromide(cas: 13465-09-3Synthetic Route of Br3In) was used in this study.
Indium(III) bromide(cas: 13465-09-3) is used as a catalyst to produce dithioacetals when unactivated alkynes react with thiols and fields such as optics and microelectronics that utilize semiconductor technology have wide uses for indium in high-performing solar cells.Synthetic Route of Br3In
Referemce:
Bromide – Wikipedia,
bromide – Wiktionary