Detail publikačního výsledku

Application of New Resin Gels for Measuring Mercury by Diffusive Gradients in a Thin-films Technique

DIVIŠ, P.; SZKANDERA, R.; BRULÍK, L.; DOČEKALOVÁ, H.; MATÚŠ, P.; BUJDOŠ, M.

Original Title

Application of New Resin Gels for Measuring Mercury by Diffusive Gradients in a Thin-films Technique

English Title

Application of New Resin Gels for Measuring Mercury by Diffusive Gradients in a Thin-films Technique

Type

Peer-reviewed article not indexed in WoS or Scopus

Original Abstract

A possible replacement of previously recommended Spheron-Thiol resin gel for measuring mercury by diffusive gradients in a thin film (DGT) was studied. Duolite GT73 resin and newly prepared 6-mercaptopurine modified Iontosorb AV as binding phases were tested. The preparation procedure of resin-embedded gets was optimized and DGT with new resin gels verified. The verified DGT containing new resin gels was used for in situ mercury measurement in Svitava River.

English abstract

A possible replacement of previously recommended Spheron-Thiol resin gel for measuring mercury by diffusive gradients in a thin film (DGT) was studied. Duolite GT73 resin and newly prepared 6-mercaptopurine modified Iontosorb AV as binding phases were tested. The preparation procedure of resin-embedded gets was optimized and DGT with new resin gels verified. The verified DGT containing new resin gels was used for in situ mercury measurement in Svitava River.

Keywords

DGT, mercury, resin gels, surface water

Key words in English

DGT, mercury, resin gels, surface water

Authors

DIVIŠ, P.; SZKANDERA, R.; BRULÍK, L.; DOČEKALOVÁ, H.; MATÚŠ, P.; BUJDOŠ, M.

RIV year

2010

Released

10.04.2009

ISBN

0910-6340

Periodical

ANALYTICAL SCIENCES

Volume

25

Number

4

State

Japan

Pages from

575

Pages to

578

Pages count

4

Full text in the Digital Library

BibTex

@article{BUT48230,
  author="DIVIŠ, P. and SZKANDERA, R. and BRULÍK, L. and DOČEKALOVÁ, H. and MATÚŠ, P. and BUJDOŠ, M.",
  title="Application of New Resin Gels for Measuring Mercury by Diffusive Gradients in a Thin-films Technique",
  journal="ANALYTICAL SCIENCES",
  year="2009",
  volume="25",
  number="4",
  pages="575--578",
  issn="0910-6340"
}