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The Encyclopedia of Mass Spectrometry : Volume 9: Historical Perspectives, Part A: The Development of Mass Spectrometry

معرفی کتاب «The Encyclopedia of Mass Spectrometry : Volume 9: Historical Perspectives, Part A: The Development of Mass Spectrometry» نوشتهٔ Keith A. Nier, Alfred L. Yergey, P. Jane Gale، منتشرشده توسط نشر Elsevier Science & Technology Books در سال 2003. این کتاب در 20 صفحه، فرمت pdf، زبان انگلیسی ارائه شده است.

Volume 9: Historical Perspectives, Part B: Notable People in Mass Spectrometry of The Encyclopedia of Mass Spectrometry briefly reviews the lives and works of many of the major people who carried out this development, providing insights into the history of mass spectrometry applications through the personal stories of pioneers and innovators in the field. The book presents biographies of notable contributors, including Nobel Prize winners J. J. Thomson, Francis W. Aston, Wolfgang Paul, John B. Fenn, and Koichi Tanaka, along with other luminaries in the field, including Franz Hillenkamp, Catherine Clarke Fenselau, Alfred O. C. Nier, and many more, discussing not only the instruments and their uses, but also providing interesting information on the careers, characters, and life stories of the people who did the work. Highlights over 120 innovators in mass spectrometry, including several Nobel Prize winners Discusses instrumentation and their uses, also providing interesting information on the careers, characters, and life stories of the people who did the work Offers unique insight into the careers and personalities of luminaries in the field Coordinates with Volume 9: Historical Perspectives, Part A: The Development of Mass Spectrometry, an overview of mass spectrometry development and progress Ideal reference for those interested in a wide variety of topics, including analytical chemistry and chemical analysis, amongst others Content: Copyright,Editors-in-Chief,Preface to Volume 9, Part B,Foreword,Volume EditorsEntitled to full textIntroduction to Part B: Criteria for Inclusion in these Biographies of Notable People in Mass Spectrometry, Pages 1-2, Keith A. Nier, Alfred L. Yergey, P. Jane Gale Arthur John Ahearn, Page 3, Keith A. Nier Claude Jean Allègre, Pages 4-5, Keith A. Nier Francis William Aston, Pages 6-8, Kevin M. Downard Kenneth Tompkins Bainbridge, Pages 9-10, Michael A. Grayson Michael Barber, Pages 11-12, Simon J. Gaskell, P. Jane Gale Hans-Dieter Beckey, Pages 13-14, Karsten Levsen Alfred Benninghoven, Pages 15-16, P. Jane Gale John Herbert Beynon, Pages 17-19, P. Jane Gale Klaus Biemann, Pages 20-22, Michael A. Grayson Walker Bleakney, Pages 23-24, Keith A. Nier John Hamilton Bowie, Pages 25-26, Kevin M. Downard Harrison Scott Brown, Pages 27-28, Keith A. Nier Curt Brunnée, Pages 29-32, Andreas H. Franz Angus Ewan Cameron, Pages 33-34, Norman E. Holden Richard M. Caprioli, Pages 35-36, Richard M. Caprioli Brian T. Chait, Page 37, P. Jane Gale, Keith A. Nier, Alfred L. Yergey Robert N. Clayton, Pages 38-39, Keith A. Nier Norman David Coggeshall, Page 40, Alfred L. Yergey Melvin Barnet Comisarow, Pages 41-42, Melvin B. Comisarow William Compston, Pages 43-44, John De Laeter (d.) R. Graham Cooks, Pages 45-46, Alfred L. Yergey Robert J. Cotter, Pages 47-48, Robert J. Cotter (d.) Willi Dansgaard, Pages 49-50, Keith A. Nier Anne Dell, Pages 51-52, Anne Dell Arthur Jeffrey Dempster, Pages 53-54, Henry E. Duckworth (d.) M. Bonner Denton, Pages 55-56, M. Bonner Denton Vernon Hamilton Dibeler, Page 57, Keith A. Nier Carl Djerassi, Pages 58-59, Carsten Reinhardt Henry Edmison Duckworth, Pages 60-62, Harry W. Duckworth Geoffrey Eglinton, Page 63, Geoffrey Eglinton Christie George Enke, Pages 64-66, Christie G. Enke Samuel Epstein, Pages 67-68, Keith A. Nier Heinz Ewald, Page 69, Keith A. Nier Henry Marshall Fales, Pages 70-71, Sanford P. Markey John Bennett Fenn, Pages 72-74, Michael Labowsky, Michael A. Grayson Catherine Clarke Fenselau, Pages 75-76, Catherine Fenselau Frank Henry Field, Pages 77-78, Kelsey D. Cook Robert E. Finnigan, Pages 79-80, David C. Brock Russell Elwell Fox, Page 81, Keith A. Nier Joe Louis Franklin, Jr., Page 82, Kelsey D. Cook Jean H. Futrell, Pages 83-84, Jean H. Futrell Simon James Gaskell, Pages 85-86, Simon J. Gaskell Johannes Geiss, Pages 87-88, Keith A. Nier Roland S. Gohlke, Pages 89-90, Fred W. McLafferty Michael L. Gross, Pages 91-92, Alfred L. Yergey, P. Jane Gale Michael Guilhaus, Pages 93-94, Margaret M. Sheil, P. Jane Gale Alexander Norman Halliday, Pages 95-96, Alex N. Halliday Alexander George Harrison, Pages 97-98, Alfred L. Yergey, P. Jane Gale John Michael Hayes, Pages 99-100, Sanford P. Markey William J. Henzel, Pages 101-102, William J. Henzel David Michael Hercules, Pages 103-104, David M. Hercules Zdenek Herman, Pages 105-106, P. Jane Gale Richard Franz Karl Herzog, Page 107, Keith A. Nier Franz Hillenkamp, Pages 108-109, Alfred L. Yergey Heinrich Hintenberger, Pages 110-111, Keith A. Nier John Alfred Hipple, Jr., Pages 112-113, Keith A. Nier John Leonard Holmes, Pages 114-116, P. Jane Gale Richard Edward Honig, Pages 117-118, P. Jane Gale, Bryan L. Bentz Evan Charles Horning and Marjorie Groothuis Horning, Pages 119-120, Robert Finnigan, P. Jane Gale Robert Samuel Houk, Page 121, R. Sam Houk Donald Frederick Hunt, Pages 122-123, P. Jane Gale, Sanford P. Markey Mark G. Inghram, Pages 124-125, Albert Parr, Roger Stockbauer Keith R. Jennings, Pages 126-127, Keith A. Nier Michael Karas, Page 128, Simone Koenig Paul Kebarle, Pages 129-130, Paul Kebarle Charles Kemball, Page 131, Keith A. Nier Frederick W. Lampe, Pages 132-133, Alfred L. Yergey Chava Lifshitz, Pages 134-135, P. Jane Gale Frederick Pettit Lossing, Pages 136-137, John L. Holmes Alexander A. Makarov, Page 138, Alexander A. Makarov Boris Alexandrovich Mamyrin, Pages 139-140, Eugene Nikolaev Raymond E. March, Pages 141-142, Raymond E. March Alan G. Marshall, Pages 143-144, Alan G. Marshall Hisashi Matsuda, Pages 145-146, Mitsuo Takayama Josef Heinrich Elisabeth Mattauch, Pages 147-149, Andreas H. Franz James A. McCloskey, Pages 150-151, Alfred L. Yergey Fred W. McLafferty, Pages 152-154, Michael A. Grayson Seymour Meyerson, Pages 155-156, N.M.M. Nibbering (d.) Fred Loomis Mohler, Pages 157-158, Keith A. Nier Howard Redfern Morris, Pages 159-160, Howard R. Morris James Douglas Morrison, Pages 161-162, John C. Traeger Milam Stephen Burnaby Munson, Pages 163-164, Kelsey D. Cook Nicolaas Martinus Maria Nibbering, Pages 165-166, N.M.M. Nibbering (d.) Alfred Otto Carl Nier, Pages 167-169, Keith A. Nier Clair Cameron Patterson, Pages 170-171, Patrick N. Wyse Jackson Wolfgang Paul, Pages 172-173, Keith A. Nier Rowland Ivor Reed, Page 174, Keith A. Nier John H. Reynolds, Pages 175-176, P. Buford Price David Rittenberg, Page 177, Richard M. Caprioli Carol Vivien Robinson, Page 178, Carol Vivien Robinson Sibyl Martha Rock, Pages 179-180, Keith A. Nier Henry Meyer Rosenstock, Pages 181-182, Albert Parr, Roger Stockbauer Ragnar Erik Ryhage, Pages 183-184, Keith A. Nier Rudolf Schoenheimer, Pages 185-187, E. Roseland Klein, David L. Hachey Helmut Schwarz, Pages 188-189, P. Jane Gale Nicholas John Shackleton, Pages 190-191, Keith A. Nier Andrew Gans Sharkey, Jr., Pages 192-193, David M. Hercules David Smith, Pages 194-195, P. Jane Gale George C. Stafford, Jr., Pages 196-197, George C. Stafford Jr. Kenneth Graham Standing, Pages 198-200, Harry W. Duckworth Einar August Stenhagen, Pages 201-202, Keith A. Nier David Paul Stevenson, Page 203, Alfred L. Yergey John T. Stults, Pages 204-205, John T. Stults Victor L'vovich Tal'roze, Pages 206-207, Eugene Nikolaev Koichi Tanaka, Page 208, Alfred L. Yergey Henry George Thode, Pages 209-211, John de Laeter (d.) Bruce A. Thomson, Page 212, Bruce Thomson Joseph John Thomson, Pages 213-214, Anthony James Gilbert George Robert Tilton, Pages 215-216, Keith A. Nier John Francis James Todd, Pages 217-218, John F.J. Todd Grenville Turner, Pages 219-220, Grenville Turner Harold Clayton Urey, Pages 221-223, Keith A. Nier Marvin L. Vestal, Pages 224-225, Marvin Vestal Austin L. Wahrhaftig, Page 226, Peter B. Armentrout Harold Williams Washburn, Page 227, Keith A. Nier Gerald J. Wasserburg, Pages 228-229, Keith A. Nier Wilhelm Carl Werner Otto Fritz Franz Wien, Pages 230-232, Keith A. Nier Charles Lee Wilkins, Pages 233-234, Charles L. Wilkins Dudley Howard Williams, Pages 235-237, P. Jane Gale Vicki Hopper Wysocki, Page 238, Stephanie M. Cologna, Alfred L. Yergey Richard A. Yost, Page 239, Richard A. Yost Author Index, Pages 1-2

volume 5: Elemental And Isotope Ratio Mass Spectrometry

this Volume Focuses On (1) The Plethora Of Mostly Atomic Ionization Techniques That Have Been Coupled To Ms For Elemental Analysis, The Measurement Of Isotope Ratios, And Even The Determination Of Inorganic Compounds And (2) The Precise Measurement Of Isotope Ratios Of Organic Elements As Small Gas Molecules By Isotope Ratio Mass Spectrometry (irms). Chapter 1 Contains A Description Of Inductively Coupled Plasma (icp) Ms, Its Requirements For Sample Preparation And Introduction. The Chapter Also Covers Argon Icp, Ion Extraction, Various Mass Analyzers, And The Numerous Application Areas Including Environmental, Geochemical, Biomedical, Nuclear, Semiconductor, And Speciation. Other Atomic Sources Include The Microwave Plasma, Which Can Be Used As Either An Atomic Ionization Source Or As A Soft Molecular Ionization Source, Flames, Spark Sources, And Glow Discharges, Including The Types Of Mass Spectrometers And Separation Approaches To Which Interfaces Can Be Made.

chapter 2 Discusses The Application Of Electrospray Ionization (ei) Ms, Also Described In Volume 6, To Inorganic Analysis. Secondary Ion And Neutral Ms (chapter 3) Can Be Used To Determine Trace Elements In Solids, Particularly On Their Surface, With High Spatial Resolution. Atmospheric Aerosols Can Also Be Studied Using Laser(s) For Desorption And Ionization Of Analytes In Solids (chapter 4). Thermal Ionization Ms, Where Sample Atoms Or Molecules Are Ionized As They Evaporate From The Surface Of A Hot Filament, Is The Focus Of Chapter 5. Special Applications Are In Chapter 6, Which Covers Accelerator Ms, And Chapter 7, Where Large Calutrons Can Be Contrasted To The Small Analyzers That Are Taken Aboard Spacecraft, For Example.

chapter 8 Focuses On Irms For Precise Isotope Ratio Measurements. The Highest Level Of Precision Can Only Be Accomplished Through Use Of A Mass Spectrometer Specifically Esigned For The Purpose Of Making Differential Measurements. A Key Advance Is Direct Conversion Of Organic Compounds Into Small Gas Molecules For Measurement, Leading To Important Uses Ranging From Geology To Biomedical Sciences.

• Reviews The Wide Range Of Ionization And Isotope Methods Used In Inorganic Mass Spectrometry Today
• Features Tutorials Describing The Key Principles And Instrumentation Relevant To Each Method
• Evaluates Practical Applications For The Analysis Of Environmental, Biological, Biomedical, Nutritional, Geological, Nuclear, Microelectronic And Extra-terrestrial Materials
• Includes More Than 3400 References, 100 Tables And 500 Figures Of Which More Than 200 Are In Color

Volume 2: Biological Applications Part A

The focus of Volume 2 is peptides and proteins. The organization emphasizes separation techniques, preparation protocols, and fundamentals of ionic gas-phase species of biological importance. This volume is divided into four sections: (1) experimental approaches and protocols, (2) sequence analysis, (3) other structural analyses, and (4) targeted applications.

The first section encompass separation procedures (e.g., 2-D gel electrophoresis), sample preparation (e.g., desalting and enzyme digestion), and instrumentation issues (e.g., high resolving power, molecular-weight determination, protein chips, and quantification). H/D exchange, analysis of membrane proteins, and bioinformatics are included.

The next section on sequencing covers high energy and low energy CAD, protein identification, fundamentals of peptide fragmentation, bottom-up and top-down strategies, chemical derivatization, and post-source decay with MALDI. A section on structure analysis includes primary structure determination and issues with studying quaternary structure, protein-protein and protein-ligand complexes, disulfide analysis, phosphopeptides and phosphoproteins, selenoproteins, nitrated proteins, metal ion binding, and oxidized proteins. Additional coverage of methods for studying the biophysics of proteins is provided in Volume 6. The last chapter, Targeted Applications, focuses on neuropeptides, clinical applications, enzyme kinetics, imaging, and single-cell analysis.

• Frontier Research on biological, biochemical, and biomedical applications of MS
• Focus on Peptides and Proteins
• Suitable for new graduate students entering the field

The focus of Volume 2 of the Encyclopedia of Mass Spectrometry is on peptides and proteins, separation techniques, preparation protocols, and the fundamental characteristics as ionic gas phase species that lie within the breadth of the field of mass spectrometry. This volume is divided into four sections; experimental approaches and protocols, sequence analysis, other structural analyses, and targeted applications. Frontier Research on biological, biochemical, and biomedical applications of MS

Volume 4: Organic And Organometallic Compounds Presents A Cross Section Of Applications In Organic And Organometallic Chemistry In Two Parts. Chapters 1 To 6 Are Devoted To The Fundamentals Whereas Chapters 7 And 8 Cover Applications To Organic And Organometallic Compounds, Either Available As Pure Compounds Or Present In Complex Mixtures. Chapter 1 Describes The Theory For Organic Mass Spectrometry, Building On And Complementing Material In Volume 1. The Themes For Chapter 2 Are The Structures And Properties Of Gas-phase Ions Of Conventional, Distonic, And Non-covalent Complexes. Chapter 3 Covers Methodology Used In Study Of Gas-phase Ions. Chapters 4 And 5 Turn To Mechanisms Of Both Unimolecular And Bimolecular Reactions Of Ions And Include Topics In Stereochemistry And Radical Chemistry. Chapter 6 Contains A Number Of Articles On The Formation And Reactivity Of Metal Ion Complexes And Organometallic Cations And Anions, Drawing Connections With Molecular Recognition, Catalysis And Organic Synthesis. Chapter 7 Deals With The Structure Determination Of Organic Compounds, Including Chiral Compounds And Natural Products. In Chapter 8 Are Contributions That Provide Illustrative Examples Of The Determination Of Organic Compounds Present At Low Levels In Complex Samples That Originate From Various Natural And Biological Sources. Included Is An Article On The Determination Of Explosives. Cross Section Of The Field Of Organic And Organometallic Ms Covers Fundamental Ion Chemistry As Well As Applications From Simple To Complicated Systems Suitable For New Graduate Students Entering The Field __Volume 9: Historical Perspectives,____Part A: The Development of Mass Spectrometry__ of __The Encyclopedia of Mass Spectrometry__ describes and analyzes the development of many aspects of Mass Spectrometry. Beginning with the earliest types of Mass Analyzers, __Historical Perspectives__ explores the development of many different forms of analytical processes and methods. The work follows various instruments and interfaces, to the current state of detectors and computerization. It traces the use of Mass Spectrometry across many different disciplines, including Organic Chemistry, Biochemistry, and Proteomics; Environmental Mass Spectrometry; Forensic Science; Imaging; Medical Monitoring and Diagnosis; Earth and Planetary Sciences; and Nuclear Science. Finally, the book covers the history of manufacturers and societies as well as the professionals who form the Mass Spectrometry community. Also available: __Volume 9: Historical Perspectives, Part B: Notable People in Mass Spectrometry__ briefly reviews the lives and works of many of the major people who carried out this development. * Preserves the history and development of Mass Spectrometry for use across scientific fields * Written and edited by Mass Spectrometry experts * Coordinates with __Volume 9: Historical Perspectives, Part B: Notable People in Mass Spectrometry__, a collection of short biographies on many of the major people who carried out this development Volume 9: Historical Perspectives, Part A: The Development of Mass Spectrometry of The Encyclopedia of Mass Spectrometry describes and analyzes the development of many aspects of Mass Spectrometry. Beginning with the earliest types of Mass Analyzers, Historical Perspectives explores the development of many different forms of analytical processes and methods. The work follows various instruments and interfaces, to the current state of detectors and computerization. It traces the use of Mass Spectrometry across many different disciplines, including Organic Chemistry, Biochemistry, and Proteomics; Environmental Mass Spectrometry; Forensic Science; Imaging; Medical Monitoring and Diagnosis; Earth and Planetary Sciences; and Nuclear Science.Finally, the book covers the history of manufacturers and societies as well as the professionals who form the Mass Spectrometry community. Also available: Volume 9: Historical Perspectives, Part B: Notable People in Mass Spectrometry briefly reviews the lives and works of many of the major people who carried out this development. Preserves the history and development of Mass Spectrometry for use across scientific fields Written and edited by Mass Spectrometry experts Coordinates with Volume 9: Historical Perspectives, Part B: Notable People in Mass Spectrometry, a collection of short biographies on many of the major people who carried out this development v.1. Theory and ion chemistry / volume editor: Peter B. Armentrout v.2. Biological applications. pt. A. Peptides and proteins / volume editors: Richard M. Caprioli, Michael L. Gross v.3. Biological applications. Pt. B: carbohydrates, nucelic acods and other biological compounds v.4. Fundamentals of and applicationsn to organic (and organometallic) compounds v.6. Molecular ionization
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