One prominent application of synthetic organobromine compounds is the use of polybrominated diphenyl ethers as fire-retardants, and in fact fire-retardant manufacture is currently the major industrial use of the element bromine. 4224-70-8, formula is C6H11BrO2, Name is 6-Bromohexanoic acid, Application of C6H11BrO2
Volpato, Giulia Alice;Colusso, Elena;Paoloni, Lorenzo;Forchetta, Mattia;Sgarbossa, Francesco;Cristino, Vito;Lunardon, Marco;Berardi, Serena;Caramori, Stefano;Agnoli, Stefano;Sabuzi, Federica;Umari, Paolo;Martucci, Alessandro;Galloni, Pierluca;Sartorel, Andrea research published 《 Artificial photosynthesis: photoanodes based on polyquinoid dyes onto mesoporous tin oxide surface》, the research content is summarized as follows. Dye-sensitized photoelectrochem. cells represent an appealing solution for artificial photosynthesis, aimed at the conversion of solar light into fuels or commodity chems. Extensive efforts have been directed towards the development of photoelectrodes combining semiconductor materials and organic dyes; the use of mol. components allows to tune the absorption and redox properties of the material. Recently, we have reported the use of a class of pentacyclic quinoid organic dyes (KuQuinone) chemisorbed onto semiconducting tin oxide as photoanodes for water oxidation In this work, we investigate the effect of the SnO2 semiconductor thickness and morphol. and of the dye-anchoring group on the photoelectrochem. performance of the electrodes. The optimized materials are mesoporous SnO2 layers with 2.5 μm film thickness combined with a KuQuinone dye with a 3-carboxylpropyl-anchoring chain: these electrodes achieve light-harvesting efficiency of 93% at the maximum absorption wavelength of 533 nm, and photocurrent d. J up to 350 μA/cm2 in the photoelectrochem. oxidation of ascorbate, although with a limited incident photon-to-current efficiency of 0.075%. Calculations based on the d. functional theory (DFT) support the role of the reduced species of the KuQuinone dye via a proton-coupled electron transfer as the competent species involved in the electron transfer to the tin oxide semiconductor. Finally, a preliminary investigation of the photoelectrodes towards benzyl alc. oxidation is presented, achieving photocurrent d. up to 90 μA/cm2 in acetonitrile in the presence of N-hydroxysuccinimide and pyridine as redox mediator and base, resp. These results support the possibility of using mol.-based materials in synthetic photoelectrochem.
Application of C6H11BrO2, 6-bromohexanoic acid is an organobromine compound comprising hexanoic acid having a bromo substituent at the 6-position. It derives from a hexanoic acid.
6-Bromohexanoic acid is a useful research compound. Its molecular formula is C6H11BrO2 and its molecular weight is 195.05 g/mol. The purity is usually 95%.
6-Bromohexanoic acid is useful for the preparation of anti-CTLA4 compounds as antitumor agents.
6-Bromohexanoic acid is a fatty acid that has been shown to be an effective agent for the treatment of cancer. It is used in gene therapy to inhibit the growth of cancer cells by binding to and then activating transcription factors. 6-Bromohexanoic acid can also be used as a chemotherapeutic agent and has been shown to cause apoptosis in monoclonal antibody-treated cells. 6-Bromohexanoic acid has pharmacokinetic properties that are similar to those of other fatty acids. The reaction solution was found to have high chemical stability, which may be due to the presence of nitrogen atoms. This reaction solution was found to adsorb onto the surface of monoclonal antibodies and cell culture, altering their properties., 4224-70-8.
Referemce:
Bromide – Wikipedia,
bromide – Wiktionary