吴硕
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Phosphonate-Substituted Ruthenium(II) Bipyridyl Derivative as a Photoelectrochemical Probe for Sensitive and Selective Detection of Mercury(II) in Biofluids
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Indexed by:期刊论文

Date of Publication:2018-12-18

Journal:ANALYTICAL CHEMISTRY

Included Journals:SCIE、PubMed、Scopus

Volume:90

Issue:24

Page Number:14423-14432

ISSN No.:0003-2700

Key Words:Body fluids; Chromophores; Electrochemistry; Energy gap; Mercury compounds; Nanoparticles; Organic polymers; Photocurrents; Photoelectrochemical cells; Photoelectrons; Photons; Probes; Synthesis (chemical); Tin oxides; Titanium dioxide, Analytical performance; Conduction band energy; Photocurrent response; Photoelectrochemicals; Photophysical properties; Selective detection; Separation efficiency; Specific recognition, Ruthenium compounds

Abstract:A ruthenium(II) bipyridyl derivative photoelectrochemical probe, Ru-1, is synthesized and coupled with TiO2 nanoparticles (Ru-1/TiO2) for the specific recognition and highly sensitive photoelectrochemical (PEC) detection of Hg2+ in a series of biofluids. The probe is designed with a chromophore, a thiocyanate recognition unit, a pi-conjugated photoelectron-transfer pathway, and a phosphonate anchor. TiO2 nanoparticles with strong affinity to phosphonate and suitable conduction band energy are used as intermediate layers to increase the Ru-1 adsorption amount and amplify the photocurrent response. Under irradiation, the Ru-1/TiO2/fluorine-doped tin oxide (FTO), with strong visible light harvesting capacity, aqueous stability, and efficient photoelectron transfer, shows a high and stable photocurrent response. In the presence of Hg2+, however, the specific Hg2+ and NCS coordination changes the photophysical properties of Ru-1, imposing the probe with a wider band gap, a weaker absorbance, and a poorer photoelectron and hole separation efficiency, thus resulting in a significant photocurrent decrease. On the basis of the Hg2+-induced photocurrent change, the Ru-1/TiO2/FTO shows good selectivity and high sensitivity toward the PEC detection of Hg2+, with wide linear ranges from 10(-12) to 10(-7) and 10(-7) to 10(-3) g/mL, and a low limit of detection of 0.63 pg/mL. The PEC probe is recyclable and accurate for selective detection of Hg2+ in urine, serum, and cell extracts. The whole analysis can be completed within 15 min. These good analytical performances indicate that the PEC method might have great potential for the onsite detection of small molecules in biosystems.

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Main positions:化学学院副院长

Other Post:辽宁省教学名师,宝钢优秀教师特等奖提名奖,中国分析测试学会青年学术委员会委员

Gender:Female

Alma Mater:南京大学

Degree:Doctoral Degree

School/Department:化学学院

Discipline:Analytical Chemistry. Biochemistry and Molecular Biolog

Business Address:化工综合楼C305

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