With contributions from noted experts from Europe and North America, Mass Spectrometry Instrumentation, Interpretation, and Applications serves as a forum to introduce students to the whole world of mass spectrometry and to the many different perspectives that each scientific field brings to its use. The book emphasizes the use of this important analytical technique in many different fields, including applications for organic and inorganic chemistry, forensic science, biotechnology, and many other areas. After describing the history of mass spectrometry, the book moves on to discuss instrumentation, theory, and basic applications.…mehr
With contributions from noted experts from Europe and North America, Mass Spectrometry Instrumentation, Interpretation, and Applications serves as a forum to introduce students to the whole world of mass spectrometry and to the many different perspectives that each scientific field brings to its use. The book emphasizes the use of this important analytical technique in many different fields, including applications for organic and inorganic chemistry, forensic science, biotechnology, and many other areas. After describing the history of mass spectrometry, the book moves on to discuss instrumentation, theory, and basic applications.
Rolf Ekman, PhD, is a Professor of Neurochemistry at University of Gothenburg in Sweden. JERZY SILBERRING, PhD, is the Head of the Department of Neurobiochemistry in the Department of Chemistry and the former deputy head of the Regional Laboratory of Physicochemical Analyses at Jagiellonian University in Krakow, Poland. Ann M. Westman-Brinkmalm, PhD, is a Junior Research Fellow at the Sahlgrenska Academy at University of Gothenburg in Sweden. Agnieszka Kraj, PhD, is an Assistant Professor in the Department of Neurobiochemistry, Faculty of Chemistry at Jagiellonian University in Krakow, Poland.
Inhaltsangabe
FOREWORD. CONTRIBUTORS. PART I INSTRUMENTATION. 1 DEFINITIONS AND EXPLANATIONS (Ann Westman-Brinkmalm and Gunnar Brinkmalm). References. 2 A MASS SPECTROMETER'S BUILDING BLOCKS (Ann Westman-Brinkmalm and Gunnar Brinkmalm). References. 3 TANDEM MASS SPECTROMETRY (Ann Westman-Brinkmalm and Gunnar Brinkmalm). References. 4 SEPARATION METHODS (Ann Westman-Brinkmalm, Jerzy Silberring, and Gunnar Brinkmalm). References. PART II INTERPRETATION. 5 INTRODUCTION TO MASS SPECTRA INTERPRETATION: ORGANIC CHEMISTRY (Albert T. Lebedev). References. 6 SEQUENCING OF PEPTIDES AND PROTEINS (Marek Noga, Tomasz Dylag, and Jerzy Silberring). Acknowledgments. References. Online Tutorials. 7 OPTIMIZING SENSITIVITY AND SPECIFICITY IN MASS SPECTROMETRIC PROTEOME ANALYSIS (Jan Eriksson and David Fenyö). References. PART III APPLICATIONS. 8 DOPING CONTROL (Graham Trout). References. 9 OCEANOGRAPHY (R. Timothy Short, Robert H. Byrne, David Hollander, Johan Schijf, Strawn K. Toler, and Edward S. VanVleet). References. 10 "OMICS" APPLICATIONS (Simone Koñig). 11 SPACE SCIENCES (Robert Sheldon). References. 12 BIOTERRORISM (Vito G. DelVecchio and Cesar V. Mujer). References. 13 IMAGING OF SMALL MOLECULES (MaBgorzata Iwona Szynkowska). References. 14 UTILIZATION OF MASS SPECTROMETRY IN CLINICAL CHEMISTRY (Donald H. Chace). 15 POLYMERS (Maurizio S. Montaudo). References. 16 FORENSIC SCIENCES (Maria Kala). References. 17 NEW APPROACHES TO NEUROCHEMISTRY (Jonas Bergquist, Jerzy Silberring, and Rolf Ekman). Acknowledgments. References. PART IV APPENDIX. INDEX.
FOREWORD. CONTRIBUTORS. PART I INSTRUMENTATION. 1 DEFINITIONS AND EXPLANATIONS (Ann Westman-Brinkmalm and Gunnar Brinkmalm). References. 2 A MASS SPECTROMETER'S BUILDING BLOCKS (Ann Westman-Brinkmalm and Gunnar Brinkmalm). References. 3 TANDEM MASS SPECTROMETRY (Ann Westman-Brinkmalm and Gunnar Brinkmalm). References. 4 SEPARATION METHODS (Ann Westman-Brinkmalm, Jerzy Silberring, and Gunnar Brinkmalm). References. PART II INTERPRETATION. 5 INTRODUCTION TO MASS SPECTRA INTERPRETATION: ORGANIC CHEMISTRY (Albert T. Lebedev). References. 6 SEQUENCING OF PEPTIDES AND PROTEINS (Marek Noga, Tomasz Dylag, and Jerzy Silberring). Acknowledgments. References. Online Tutorials. 7 OPTIMIZING SENSITIVITY AND SPECIFICITY IN MASS SPECTROMETRIC PROTEOME ANALYSIS (Jan Eriksson and David Fenyö). References. PART III APPLICATIONS. 8 DOPING CONTROL (Graham Trout). References. 9 OCEANOGRAPHY (R. Timothy Short, Robert H. Byrne, David Hollander, Johan Schijf, Strawn K. Toler, and Edward S. VanVleet). References. 10 "OMICS" APPLICATIONS (Simone Koñig). 11 SPACE SCIENCES (Robert Sheldon). References. 12 BIOTERRORISM (Vito G. DelVecchio and Cesar V. Mujer). References. 13 IMAGING OF SMALL MOLECULES (MaBgorzata Iwona Szynkowska). References. 14 UTILIZATION OF MASS SPECTROMETRY IN CLINICAL CHEMISTRY (Donald H. Chace). 15 POLYMERS (Maurizio S. Montaudo). References. 16 FORENSIC SCIENCES (Maria Kala). References. 17 NEW APPROACHES TO NEUROCHEMISTRY (Jonas Bergquist, Jerzy Silberring, and Rolf Ekman). Acknowledgments. References. PART IV APPENDIX. INDEX.
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