Facile synthesis of multi-branched gold nanostructures by using the tetrabutyl ammonium bromide (TBAB) as a capping agent is described. The reaction is carried out in a one-step process at mild temperature. Gold nan...Facile synthesis of multi-branched gold nanostructures by using the tetrabutyl ammonium bromide (TBAB) as a capping agent is described. The reaction is carried out in a one-step process at mild temperature. Gold nanostructures with more than six sharp branches ranging from 70 to 130 nm in length are synthesized in high yield. It is proposed that the relative weak adsorption capacity of TBAB leads to the incompletely covered gold surface and the growth of nanoparticles occurs on the uncovered gold surface, and therefore short branches appear consequently. Then positively charged TBAB layers on the gold surfaces prevent the branches from aggregating with each other which stimulates the branch growth. The prepared branched gold nanoparticles show efficient surface-enhanced Raman scattering (SERS) properties. Low temperature (4 ℃) is unfavorable to the formation of multi-branched gold nanostructures, and only thin small irregular plate-like nanoparticles are produced. The addition of SDS in TBAB aqueous solution results in forming SDS micelles at much lower concentration of SDS (0.4 mmol/L) as compared to that in pure water, and short branched gold nanoparticles are obtained in the SDS-TBAB system.展开更多
conjugated polythiophene derivative with polymethacrylate attaching to the polymer backbone via an alkyl spacer was successfully synthesized. A methacrylate-substituted thiophene monomer, 3-(hexyl methacry- late)thi...conjugated polythiophene derivative with polymethacrylate attaching to the polymer backbone via an alkyl spacer was successfully synthesized. A methacrylate-substituted thiophene monomer, 3-(hexyl methacry- late)thiophene was prepared and polymerized by free radical polymerization, followed by an electrochemical po- lymerization. The resulting polymer as a yellow-green-light emitter, has potential applications in photoelectronics area.展开更多
基金Project supported by the National Natural Science Foundation of China (Nos. 50872042, 51003040), Open Research Project (No. KF0802) from State Key Laboratory of Crystal Material (Shandong University) and the Special Fund for Postdoctoral Innovation Program of Shandong Province (No. 200703075).
文摘Facile synthesis of multi-branched gold nanostructures by using the tetrabutyl ammonium bromide (TBAB) as a capping agent is described. The reaction is carried out in a one-step process at mild temperature. Gold nanostructures with more than six sharp branches ranging from 70 to 130 nm in length are synthesized in high yield. It is proposed that the relative weak adsorption capacity of TBAB leads to the incompletely covered gold surface and the growth of nanoparticles occurs on the uncovered gold surface, and therefore short branches appear consequently. Then positively charged TBAB layers on the gold surfaces prevent the branches from aggregating with each other which stimulates the branch growth. The prepared branched gold nanoparticles show efficient surface-enhanced Raman scattering (SERS) properties. Low temperature (4 ℃) is unfavorable to the formation of multi-branched gold nanostructures, and only thin small irregular plate-like nanoparticles are produced. The addition of SDS in TBAB aqueous solution results in forming SDS micelles at much lower concentration of SDS (0.4 mmol/L) as compared to that in pure water, and short branched gold nanoparticles are obtained in the SDS-TBAB system.
基金Project supported by the National Natural Science Foundation of China (No. 50872042) and Shandong Province Natural Science Foundation (Nos. ZR2010BM006, Y2008B61).
文摘conjugated polythiophene derivative with polymethacrylate attaching to the polymer backbone via an alkyl spacer was successfully synthesized. A methacrylate-substituted thiophene monomer, 3-(hexyl methacry- late)thiophene was prepared and polymerized by free radical polymerization, followed by an electrochemical po- lymerization. The resulting polymer as a yellow-green-light emitter, has potential applications in photoelectronics area.
