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스쿠그의 기기분석의 이해 7판

저자 : Douglas A. Skoog, F. James Holler, Stanley R. Crouch | 역자: 명노승, 명승운, 이효중, 장병용, 최성신 외 10인 | 출간 연도 : 2018

ISBN 9788962184242 ()
가격 45,000원
저자 Douglas A. Skoog, F. James Holler, Stanley R. Crouch
역자 명노승, 명승운, 이효중, 장병용, 최성신 외 10인
출간 연도 2018
7
페이지 921쪽
크기 215X275
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원서 ISBN 9781305577213
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이 책은 공학전공서로서 기초 전기회로, 연산 증폭기에서부터 분광법 서론과 장치, 분자 분광법, 기체와 액체 크로마토그래피, 열분석과 자동화분석방법 등의 내용을 학습할 수 있습니다.

1장 서론

 

1부 측정의 기초 

 

2장 전자부품과 회로

3장 화학 기기장치의 연산증폭기

4장 디지털 전자공학과 컴퓨터

5장 신호와 잡음

 

2부 원자분광법

 

6장 분광분석법 서론

7장 광학기기의 부분장치

8장 광학 원자분광분석법 서론

9장 원자 흡수분광법 및 원자 형광분광법

10장 원자 방출분광법

11장 원자 질량분석법

12장 원자 X선분광법

 

3부 분자 분광학

 

13장 자외선-가시선 분자 흡수분광법의 서론

14장 자외선-가시선 분자 흡수분광법의 응용

15장 분자 발광 분광법

16장 적외선 분광법의 서론

17장 적외선 분광법의 응용

18장 Raman 분광법

19장 핵 자기 공명 분광법

20장 분자 질량분석법

21장 분광법과 현미경법에 의한 표면 특성분석

 

4부 전기 분석 화학

 

22장 전기 분석 화학 서론

23장 전위차법

24장 전기량법

25장 전압-전류법

 

5부 분리법

 

26장 크로마토그래피 분리법의 기초

27장 기체 크로마토그래피

28장 고성능 액체 크로마토그래피

29장 초임계 유체 크로마토그래피와 추출법

 

6부 기타 방법들

 

31장 열분석법

32장 방사화학법

33장 자동화 분석법

34장 입자크기 분석법

30장 모세관 전기이동, 모세관 전기 크로마토그래피와 장-흐름 분획법

Table of Contents

  • 1. Introduction.
    Section I: MEASUREMENT BASICS.
    2. Electrical Components and Circuits.
    3. Operational Amplifiers in Chemical Instrumentation.
    4. Digital Electronics and Computers.
    5. Signals and Noise.
    Instrumental Analysis in Action: The Electronic Analytical Laboratory.
    Section II: ATOMIC SPECTROSCOPY.
    6. An Introduction to Spectrometric Methods.
    7. Components of Optical Instruments.
    8. An Introduction to Optical Atomic Spectrometry.
    9. Atomic Absorption and Atomic Fluorescence Spectrometry.
    10. Atomic Emission Spectrometry.
    11. Atomic Mass Spectrometry.
    12. Atomic X-Ray Spectrometry.
    Instrumental Analysis in Action: Monitoring Mercury.
    Section III: MOLECULAR SPECTROSCOPY.
    13. An Introduction to Ultraviolet-Visible Molecular Absorption Spectrometry.
    14. Applications of Ultraviolet-Visible Molecular Absorption Spectrometry.
    15. Molecular Luminescence Spectrometry.
    16. An Introduction to Infrared Spectrometry.
    17. Applications of Infrared Spectrometry.
    18. Raman Spectroscopy.
    19. Nuclear Magnetic Resonance Spectroscopy.
    20. Molecular Mass Spectrometry.
    21. Surface Characterization by Spectroscopy and Microscopy.
    Instrumental Analysis in Action: Assessing the Authenticity of the Vinland Map: Surface Analysis in the Service of History, Art, and Forensics.
    Section IV: ELECTROANALYTICAL CHEMISTRY.
    22. An Introduction to Electroanalytical Chemistry.
    23. Potentiometry.
    24. Coulometry.
    25. Voltammetry.
    Instrumental Analysis in Action: Measuring the Parts to Understand the Whole: The Microphysiometer.
    Section V: SEPARATION METHODS.
    26. An Introduction to Chromatographic Separations.
    27. Gas Chromatography.
    28. High-Performance Liquid Chromatography.
    29. Supercritical Fluid Chromatography and Extraction.
    30. Capillary Electrophoresis, Electrochromatography, and Field-Flow Fractionation.
    Instrumental Analysis in Action: The Bisphenol A Controversy. 
    Section VI: MISCELLANEOUS METHODS.
    31. Thermal Methods.
    32. Radiochemical Methods.
    33. Automated Methods of Analysis.
    34. Particle Size Determination.
    Instrumental Analysis in Action: The John F. Kennedy Assassination.
    Appendices.
    Appendix 1: Evaluation of Analytical Data.
    Appendix 2: Activity Coefficients.
    Appendix 3: Some Standard and Formal Electrode Potentials.
    Appendix 4: Compounds Recommended for the Preparation of Standard Solutions of Some Common Elements.
    Answers to Selected Problems.
    Index.

    • PRINCIPLES OF INSTRUMENTAL ANALYSIS offers the most current data in its coverage and end-of-chapter problem sets, and the authors present material in a student-friendly style that is active and engaging. Examples throughout each chapter aid in solving relevant and interesting problems. The solutions to the problems in each example are indicated so that students can easily separate the problem setup from the problem solution.
    • Spreadsheet applications have been included throughout to illustrate how these powerful programs can be applied to instrumental methods. Problems accompanied by an icon encourage the use of spreadsheets. When a more detailed approach is required or supplemental reading is appropriate, readers are referred to the authors' companion book, Applications of Microsoft® Excel in Analytical Chemistry, 3e. Those who purchase PRINCIPLES OF INSTRUMENTAL ANALYSIS have full access to this companion text at www.tinyurl.com/skoogpia7. This companion provides assistance in understanding these applications.
    • The book is printed in two colors. This feature aids in understanding the many figures and diagrams in the text both aesthetically and pedagogically. The second color clarifies graphs; aids in following the data flow in diagrams; provides keys for correlating data that appear in multiple charts, graphs, and diagrams; and makes for a more pleasing overall appearance.
    • An open-ended Challenge Problem provides a capstone research-oriented experience for each chapter. Intended to be research-type problems that are more challenging than normal and may have multiple solutions, Challenge Problems may consist of multiple steps, dependent on one another, or may require library or web searches to find information. They stimulate discussion, extend the topics of the chapters into new areas, and can be used for group projects, inquiry-driven learning assignments, and case study discussions. Due to their unique nature, solutions are not provided for these problems.

    • Douglas A. Skoog was a professor of chemistry at Stanford University and the lead author of several best-selling texts during his career. He earned a B.S. in chemistry from Oregon State University and his Ph.D. in analytical chemistry from the University of Illinois. Dr. Skoog was the 1999 recipient of the American Chemical Society award in analytical chemistry, sponsored by the Fisher Scientific Company. That same year, he was named a fellow of the American Association for the Advancement of Science. In 1993, he received the ACS Division of Analytical Chemistry Award for Excellence in Teaching. 

      F. James Holler is professor emeritus of chemistry and recipient of the Alumni Association Great Teacher Award at the University of Kentucky. He received his Ph.D. from Michigan State University. In addition to his role as co-author of several bestselling texts, he is co-creator of the world-famous Periodic Table of Comic Books. 

      Stanley R. Crouch is professor emeritus at Michigan State University. He received his undergraduate and M.S. degrees from Stanford University and his Ph.D. in analytical chemistry from the University of Illinois. He is the recipient of the 2001 American Chemical Society Division of Analytical Chemistry Award in Chemical Instrumentation and the 1996 ACS Division of Analytical Chemistry Award for Excellence in Teaching.