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200 10$aStatic headspace-gas chromatography$b[electronic resource] $etheory and practice /$fBruno Kolb and Leslie S. Ettre
205   $a2nd ed.
210   $aHoboken, N.J. $cWiley$dc2006
215   $a1 online resource (377 p.)
300   $aDescription based upon print version of record.
311   $a0-471-74944-3 
320   $aIncludes bibliographical references and index.
327   $aStatic Headspace-Gas Chromatography; Contents; Preface; Preface to the First Edition; List of Acronyms and Symbols; 1 General Introduction; 1.1 Principles of Headspace Analysis; 1.2 Types of Headspace Analysis; 1.2.1 Principles of Static HS-GC; 1.2.2 Principles of Dynamic HS-GC; 1.2.2.1 The Trap; 1.2.2.2 The Water Problem; 1.2.2.3 The Flow Problem; 1.2.2.4 The Time Problem; 1.2.2.5 Comparison of Static HS-GC with P&T; 1.3 The Evolution of the HS-GC Methods; 1.4 HS-GS Literature; 1.5 Regulatory Methods Utilizing (Static) HS-GC; References; 2 Theoretical Background of HS-GC and Its Applications
327   $a2.1 Basic Theory of Headspace Analysis2.2 Basic Physicochemical Relationships; 2.3 Headspace Sensitivity; 2.3.1 Influence of Temperature on Vapor Pressure and Partition Coefficient; 2.3.1.1 Enhancement of Lower Boiling Compounds; 2.3.2 Influence of Temperature on Headspace Sensitivity for Compounds with Differing Partition Coefficients; 2.3.3 Influence of Sample Volume on Headspace Sensitivity for Compounds with Differing Partition Coefficients; 2.3.3.1 Sample-to-Sample Reproducibility; 2.3.4 Changing the Sample Matrix by Varying the Activity Coefficient; 2.4 Headspace Linearity
327   $a2.5 Duplicate Analyses2.6 Multiple Headspace Extraction (MHE); 2.6.1 Principles of MHE; 2.6.2 Theoretical Background of MHE; 2.6.3 Simplified MHE Calculation; References; 3 The Technique of HS-GC; 3.1 Sample Vials; 3.1.1 Vial Types; 3.1.2 Selection of the Vial Volume; 3.1.3 Vial Cleaning; 3.1.4 Wall Adsorption Effects; 3.2 Caps; 3.2.1 Pressure on Caps; 3.2.2 Safety Closures; 3.3 Septa; 3.3.1 Septa Types; 3.3.2 Septum Blank; 3.3.3 Should a Septum Be Pierced Twice?; 3.3.3.1 Closed-Vial versus Open-Vial Sample Introduction Technique; 3.4 Thermostatting; 3.4.1 Influence of Temperature
327   $a3.4.2 Working Modes3.5 The Fundamental Principles of Headspace Sampling Systems; 3.5.1 Systems Using Gas Syringes; 3.5.2 Solid Phase Microextraction (SPME); 3.5.2.1 Comparison of the Sensitivities in HS-SPME and Direct Static HS-GC; 3.5.3 Balanced Pressure Sampling Systems; 3.5.4 Pressure/Loop Systems; 3.5.5 Conditions for Pressurization Systems; 3.5.6 Volume of the Headspace Gas Sample; 3.5.6.1 Sample Volume with Gas Syringes; 3.5.6.2 Sample Volume with Loop Systems; 3.5.6.3 Sample Volume with the Balanced Pressure System; 3.6 Use of Open-Tubular (Capillary) Columns
327   $a3.6.1 Properties of Open-Tubular Columns for Gas Samples3.6.2 Headspace Sampling with Split or Splitless Introduction; 3.6.3 Comparison of Split and Splitless Headspace Sampling; 3.6.4 Band Broadening During Sample Introduction; 3.6.5 Influence of Temperature on Band Broadening; 3.6.5.1 Conclusions; 3.6.6 The Combination of Different Columns and Detectors; 3.7 Enrichment Techniques in HS-GC; 3.7.1 Systems for Cryogenic Trapping; 3.7.1.1 Trapping by Cryogenic Condensation; 3.7.1.2 Trapping by Cryogenic Focusing; 3.7.1.3 Influence of Temperature on Cryogenic Focusing
327   $a3.7.1.4 Comparison of the Various Techniques of Cryogenic Trapping
330   $aThe only reference to provide both current and thorough coverage of this important analytical techniqueStatic headspace-gas chromatography (HS-GC) is an indispensable technique for analyzing volatile organic compounds, enabling the analyst to assay a variety of sample matrices while avoiding the costly and time-consuming preparation involved with traditional GC.Static Headspace-Gas Chromatography: Theory and Practice has long been the only reference to provide in-depth coverage of this method of analysis. The Second Edition has been thoroughly updated to reflect the most recent
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200 10$aEmotions and The Body in Buddhist Contemplative Practice and Mindfulness-Based Therapy $ePathways of Somatic Intelligence /$fby Padmasiri de Silva
205   $a1st ed. 2017.
210  1$aCham :$cSpringer Nature Switzerland :$cImprint: Palgrave Macmillan,$d2017.
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320   $aIncludes bibliographical references and indexes.
330   $aThis book represents an outstanding contribution to the field of somatic psychology. It focuses on the relationship between body and emotions, and on the linkages between mindfulness-based emotion studies and neuroscience. The author discusses the awakening of somatic intelligence as a journey through pain and trauma management, the moral dimensions of somatic passions, and the art and practice of embodied mindfulness. Issues such as the emotions and the body in relation to Buddhist contemplative practice, against the background of the most recent findings of current neuroscience, are expanded in the book. A broad review of the Darwinian-Jamesian heritage on emotion studies is a unique contribution to the tradition of the somatogenic strands of emotions, and provides a contrasting focus to the ideogenic emotions in Sigmund Freud. This work provides an invaluable resource for students of psychology and philosophy, psychotherapists and meditation teachers, students, and for anyone with an interest in the field of somatic psychology.
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606   $aNeuropsychology
606   $aPhilosophy of Mind
606   $aPsychology of Religion and Spirituality
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