• Skip the Organizational structure panel
• Organizational structure

  On selecting a constituent part of MU the "Overview of publishing activities" page will be displayed with information relevant to the selected constituent part. The "Overview of publishing activities" page is not available for non-activated items.

  Masaryk University

  • Faculties
  • Law
  • Medicine
  • Science
  • Arts
  • Education
  • Economics
  • Informatics
  • Social Studies
  • Sports Studies

  • Institutes
  • Computer Science
  • CEITEC MU
  • Politica
  • Specialized Units
  • Hostels & Canteens
  • University Press
  • Telč Centre
  • UCB Management

  • Rector`s Office
  • Rectorate
  • Other Units
  • Archive
  • Language Centre
  • International Studies
  • Disabled Students
  • Technology Transfer
  • Biostatistics
  • Mendel Museum
  • CERIT
  • Civic Education
  • Project Team CEITEC

   

Publication details

Laser diode thermal vaporization inductively-coupled plasma mass spectrometry

Basic information
Original title:	Laser diode thermal vaporization inductively-coupled plasma mass spectrometry
Authors:	Pavla Foltynová, Viktor Kanický, Jan Preisler

Further information
Citation:	FOLTYNOVÁ, Pavla - KANICKÝ, Viktor - PREISLER, Jan. Laser diode thermal vaporization inductively-coupled plasma mass spectrometry. 2011. ISBN 978-85-8006-046-1.
Original language:	English
Field:	Analytic chemistry
Type:	Conference abstract
Keywords:	sample introduction; inductively coupled plasma mass spectrometry; diode laser

A new approach of sample introduction to inductively coupled plasma mass spectrometry (ICP-MS), laser diode thermal vaporization (LDTV), is presented. In contrast to existing sample introduction systems based on laser ablation, the technique employs a low-cost NIR diode laser rather than an expensive high-energy pulse laser. Defined submicroliter volumes of samples are deposited on a suitable sample carrier with an absorber, such as common office paper with commercial printer black ink. The diode laser energy is sufficient to induce burning and/or pyrolysis of the carrier substrate sample which leads to aerosol generation. Selection of optimal conditions, e.g., experimental arrangement, raster, scan speed, additives etc. will be discussed. The limits of detection of Co, Ni, Zn, Mo, Cd, Sn and Pb deposited on the preprinted paper were found to be in the range of 4 – 300 pg. Applicability was demonstrated on determination of lead in whole blood and tin in canned food. Using a multielemental calibration set prearranged on the carrier, LDTV ICP MS provided rapid and reproducible (10%) quantitative analysis of metals. The advantages of LDTV are also very low consumption of sample solution, easy sample archiving and transportation and variability and simplicity of sample preparation.

Related projects:

• Interactions among the chemicals, environment and biological systems and their consequences on the global, regional and local scales (INCHEMBIOL)
• Molecular basis of cell and tissue regulations
• Study and application of plasma chemical reactions in non-isothermic low temperature plasma and its interaction with solid surface
• Multidetection platform for microcolumn separation of proteins and peptides
• CEITEC - středoevropský technologický institut