H(+)-Assisted fluorescent differentiation of Cu(+) and Cu(2+): effect of Al(3+)-induced acidity on chemical sensing and generation of two novel and independent logic gating pathways

Chemical Communications : Chem Comm
Yonghwang HaDavid G Churchill

Abstract

A novel Schiff base probe exhibited strong 'turn-ON' fluorescence for Cu(2+) at 345 nm, Al(3+) at 445 nm, and Cu(+) at 360 nm in the presence of Al(3+) in organic solvent (acetonitrile), which allowed for construction of molecular logic gates 'INH' and '1:2 DEMULTIPLEXING.' H(+) generated from Al(3+) contributed greatly to Cu(+) chemosensing based on a redox non-innocence mechanism.

References

Jan 5, 2006·Journal of the American Chemical Society·Li ZengChristopher J Chang
Feb 6, 2009·Organic & Biomolecular Chemistry·Akihiro OhkuboMitsuo Sekine
Apr 10, 2010·Journal of the American Chemical Society·Masayasu TakiYukio Yamamoto
Feb 4, 2011·Chemistry, an Asian Journal·A Prasanna de Silva
May 19, 2012·Chemical Communications : Chem Comm·Xiaowei CaoWei Wan
Jul 17, 2012·Chemical Reviews·Kasper P Kepp
Nov 22, 2012·Dalton Transactions : an International Journal of Inorganic Chemistry·M Thomas MorganChristoph J Fahrni
Jun 19, 2013·Current Opinion in Chemical Biology·Christoph J Fahrni
Jan 2, 2014·Journal of the American Chemical Society·Florian HeimsKallol Ray
Feb 19, 2014·Journal of the American Chemical Society·Anthony F CozzolinoMircea Dincă

❮ Previous
Next ❯

Citations

Oct 16, 2015·Chemical Society Reviews·Jianzhang ZhaoFangfang Zhong

❮ Previous
Next ❯

Related Concepts

Related Feeds

Antitubercular Agents (ASM)

Antitubercular agents are pharmacologic agents for treatment of tuberculosis. Discover the latest research on antitubercular agents here.

Antitubercular Agents

Antitubercular agents are pharmacologic agents for treatment of tuberculosis. Discover the latest research on antitubercular agents here.