William Henderson, Scott McIndoe
Mass Spectrometry of Inorganic and Organometallic Compounds
Tools - Techniques - Tips
William Henderson, Scott McIndoe
Mass Spectrometry of Inorganic and Organometallic Compounds
Tools - Techniques - Tips
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Mass Spectrometry of Inorganic and Organometallic Compounds is the first modern book to treat inorganic and organometallic mass spectrometry simultaneously. It is textbook and handbook in one: As a textbook, it introduces the techniques and gives hints on how to apply the various techniques; as a handbook, it lists all available ionization techniques for just about any given compound. Mass Spectrometry of Inorganic and Organometallic Compounds will instill the synthetic inorganic and organometallic chemist with the confidence to apply some of the new techniques to their characterization…mehr
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Mass Spectrometry of Inorganic and Organometallic Compounds is the first modern book to treat inorganic and organometallic mass spectrometry simultaneously. It is textbook and handbook in one: As a textbook, it introduces the techniques and gives hints on how to apply the various techniques; as a handbook, it lists all available ionization techniques for just about any given compound. Mass Spectrometry of Inorganic and Organometallic Compounds will instill the synthetic inorganic and organometallic chemist with the confidence to apply some of the new techniques to their characterization problems.
This is the first modern book to treat inorganic and organometallic mass spectrometry simultaneously. It is textbook and handbook in one; as a textbook it introduces the techniques and gives hints on how to apply the various techniques, as a handbook it lists all available ionization techniques for just about any given compound. The book also includes non-mathematical explanations of how modern MS instruments work
Mass Spectrometry of Inorganic and Organometallic Compounds will inspire the synthetic inorganic and organometallic chemist with the confidence to apply some of the new techniques to their characterization problems.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
This is the first modern book to treat inorganic and organometallic mass spectrometry simultaneously. It is textbook and handbook in one; as a textbook it introduces the techniques and gives hints on how to apply the various techniques, as a handbook it lists all available ionization techniques for just about any given compound. The book also includes non-mathematical explanations of how modern MS instruments work
Mass Spectrometry of Inorganic and Organometallic Compounds will inspire the synthetic inorganic and organometallic chemist with the confidence to apply some of the new techniques to their characterization problems.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 304
- Erscheinungstermin: 1. April 2005
- Englisch
- Abmessung: 246mm x 189mm x 18mm
- Gewicht: 645g
- ISBN-13: 9780470850169
- ISBN-10: 0470850167
- Artikelnr.: 14069058
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 304
- Erscheinungstermin: 1. April 2005
- Englisch
- Abmessung: 246mm x 189mm x 18mm
- Gewicht: 645g
- ISBN-13: 9780470850169
- ISBN-10: 0470850167
- Artikelnr.: 14069058
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
William Henderson is the author of Mass Spectrometry of Inorganic and Organometallic Compounds: Tools - Techniques - Tips, published by Wiley. J. Scott McIndoe is the author of Mass Spectrometry of Inorganic and Organometallic Compounds: Tools - Techniques - Tips, published by Wiley.
Preface.
List of commonly-used abbreviations.
Chapter 1 Fundamentals.
1.1 Introduction.
1.2 Inlets.
1.3 Collision-induced dissociation.
1.4 Detectors.
1.5 Mass resolution.
1.6 Data processing.
1.7 Isotopes.
References.
Chapter 2 Mass analysers.
2.1 Introduction.
2.2 Sectors.
2.3 Quadrupoles.
2.4 Quadrupole Ion Trap.
2.5 Time-of-flight.
2.6 Fourier Transform Ion Cyclotron Resonance.
References.
Chapter 3 Ionisation techniques.
3.1 Introduction.
3.2 Electron ionisation.
3.3 Chemical Ionisation.
3.4 Field ionisation / Field desorption.
3.5 Plasma Desorption.
3.6 Fast Atom Bombardment / Liquid Secondary Ion Mass Spectrometry.
3.7 Matrix Assisted Laser Desorption Ionisation.
3.8 Inductively Coupled Plasma Mass Spectrometry.
3.9 Electrospray ionisation.
References.
Chapter 4 The ESI MS behaviour of simple inorganic compounds.
4.1 Introduction.
4.2 Simple metal salts.
4.3 Polyanions formed by main group elements.
4.4 Oxoanions formed by main group elements.
4.5 Borane anions.
4.6 Fullerenes.
4.7 Inorganic phosphorus compounds: phosphoranes and cyclophosphazenes.
4.8 Summary.
References.
Chapter 5 The ESI MS behaviour of coordination complexes.
5.1 Introduction.
5.2 Charged, "simple" coordination complexes.
5.3 (Neutral) metal halide coordination complexes.
5.4 Metal complexes of polydentate oxygen donor ligands: polyethers, crown ethers, cryptands and calixarenes.
5.5 Porphyrins and metalloporphyrins.
5.6 Metal alkoxides - highly moisture-sensitive coordination compounds.
5.7 b-Diketonate complexes.
5.8 Metal complexes of carbohydrates.
5.9 Metal complexes of amino acids, peptides and proteins.
5.10 Oxoanions, polyoxoanions and related species.
5.11 Metal clusters.
5.12 Compounds with anionic sulfur and selenium donor ligands.
5.13 Characterisation of metal-based anticancer drugs, their reaction products and metabolites.
5.14 In situ formation of coordination complexes as an ionisation technique.
5.15 Summary.
References.
Chapter 6 The ESI MS behaviour of main group organometallic compounds.
6.1 Introduction.
6.2 Organometallic derivatives of group 14 elements.
6.3 Organometallic derivatives of group 15 elements.
6.4 Organometallic derivatives of group 16 elements; organo-sulfur, -selenium and -tellurium compounds.
6.5 Organomercury compounds.
6.6 Other organometallic derivatives.
6.7 Summary.
References.
Chapter 7 The ESI MS behaviour of transition metal and lanthanide organometallic compounds.
7.1 Introduction.
7.2 Metal carbonyl complexes.
7.3 Metal isocyanide complexes.
7.4 Metal cyclopentadienyl and related complexes.
7.5 Metal h3-allyl complexes.
7.6 Metal arene complexes.
7.7 Formation of p-hydrocarbon complexes and their use as an ionisation aid.
7.8 Metal-acetylene/acetylide complexes, and complexes of metal-acetylides.
7.9 Transition metal s-alkyl and aryl complexes.
7.10 Mass spectrometry of lanthanide organometallic complexes.
7.11 Summary.
References.
Chapter 8 A selection of special topics.
8.1 Introduction.
8.2 The characterisation of dendrimers using ESI and MALDI-TOF MS techniques.
8.3 Investigating the formation of supramolecular coordination assemblies using ESI MS.
8.4 Using ESI MS as a tool for directing chemical synthesis: A case studyinvolving the platinum metalloligands [Pt2(m-E)2(PPh3)4] (E = S, Se).
8.5 Applications of ESI MS in the detection of reactive intermediates and catalyst screening.
References.
Appendix 1 Naturally occurring isotopes.
Appendix 2 Periodic table of the elements.
Appendix 3 Alphabetical list of elements.
Appendix 4 Mass Spectrometry Glossary of Terms.
Appendix 5 Useful sources of information on mass spectrometry.
List of commonly-used abbreviations.
Chapter 1 Fundamentals.
1.1 Introduction.
1.2 Inlets.
1.3 Collision-induced dissociation.
1.4 Detectors.
1.5 Mass resolution.
1.6 Data processing.
1.7 Isotopes.
References.
Chapter 2 Mass analysers.
2.1 Introduction.
2.2 Sectors.
2.3 Quadrupoles.
2.4 Quadrupole Ion Trap.
2.5 Time-of-flight.
2.6 Fourier Transform Ion Cyclotron Resonance.
References.
Chapter 3 Ionisation techniques.
3.1 Introduction.
3.2 Electron ionisation.
3.3 Chemical Ionisation.
3.4 Field ionisation / Field desorption.
3.5 Plasma Desorption.
3.6 Fast Atom Bombardment / Liquid Secondary Ion Mass Spectrometry.
3.7 Matrix Assisted Laser Desorption Ionisation.
3.8 Inductively Coupled Plasma Mass Spectrometry.
3.9 Electrospray ionisation.
References.
Chapter 4 The ESI MS behaviour of simple inorganic compounds.
4.1 Introduction.
4.2 Simple metal salts.
4.3 Polyanions formed by main group elements.
4.4 Oxoanions formed by main group elements.
4.5 Borane anions.
4.6 Fullerenes.
4.7 Inorganic phosphorus compounds: phosphoranes and cyclophosphazenes.
4.8 Summary.
References.
Chapter 5 The ESI MS behaviour of coordination complexes.
5.1 Introduction.
5.2 Charged, "simple" coordination complexes.
5.3 (Neutral) metal halide coordination complexes.
5.4 Metal complexes of polydentate oxygen donor ligands: polyethers, crown ethers, cryptands and calixarenes.
5.5 Porphyrins and metalloporphyrins.
5.6 Metal alkoxides - highly moisture-sensitive coordination compounds.
5.7 b-Diketonate complexes.
5.8 Metal complexes of carbohydrates.
5.9 Metal complexes of amino acids, peptides and proteins.
5.10 Oxoanions, polyoxoanions and related species.
5.11 Metal clusters.
5.12 Compounds with anionic sulfur and selenium donor ligands.
5.13 Characterisation of metal-based anticancer drugs, their reaction products and metabolites.
5.14 In situ formation of coordination complexes as an ionisation technique.
5.15 Summary.
References.
Chapter 6 The ESI MS behaviour of main group organometallic compounds.
6.1 Introduction.
6.2 Organometallic derivatives of group 14 elements.
6.3 Organometallic derivatives of group 15 elements.
6.4 Organometallic derivatives of group 16 elements; organo-sulfur, -selenium and -tellurium compounds.
6.5 Organomercury compounds.
6.6 Other organometallic derivatives.
6.7 Summary.
References.
Chapter 7 The ESI MS behaviour of transition metal and lanthanide organometallic compounds.
7.1 Introduction.
7.2 Metal carbonyl complexes.
7.3 Metal isocyanide complexes.
7.4 Metal cyclopentadienyl and related complexes.
7.5 Metal h3-allyl complexes.
7.6 Metal arene complexes.
7.7 Formation of p-hydrocarbon complexes and their use as an ionisation aid.
7.8 Metal-acetylene/acetylide complexes, and complexes of metal-acetylides.
7.9 Transition metal s-alkyl and aryl complexes.
7.10 Mass spectrometry of lanthanide organometallic complexes.
7.11 Summary.
References.
Chapter 8 A selection of special topics.
8.1 Introduction.
8.2 The characterisation of dendrimers using ESI and MALDI-TOF MS techniques.
8.3 Investigating the formation of supramolecular coordination assemblies using ESI MS.
8.4 Using ESI MS as a tool for directing chemical synthesis: A case studyinvolving the platinum metalloligands [Pt2(m-E)2(PPh3)4] (E = S, Se).
8.5 Applications of ESI MS in the detection of reactive intermediates and catalyst screening.
References.
Appendix 1 Naturally occurring isotopes.
Appendix 2 Periodic table of the elements.
Appendix 3 Alphabetical list of elements.
Appendix 4 Mass Spectrometry Glossary of Terms.
Appendix 5 Useful sources of information on mass spectrometry.
Preface.
List of commonly-used abbreviations.
1. Fundamentals.
1.1 Introduction.
1.2 Inlets.
1.3 Collision-induced dissociation.
1.4 Detectors.
1.5 Mass resolution.
1.6 Data processing.
1.7 Isotopes.
References.
2. Mass analysers.
2.1 Introduction.
2.2 Sectors.
2.3 Quadrupoles.
2.4 Quadrupole Ion Trap.
2.5 Time-of-flight.
2.6 Fourier Transform Ion Cyclotron Resonance.
References.
3. Ionisation techniques.
3.1 Introduction.
3.2 Electron ionisation.
3.3 Chemical Ionisation.
3.4 Field ionisation / Field desorption.
3.5 Plasma Desorption.
3.6 Fast Atom Bombardment / Liquid Secondary Ion Mass Spectrometry.
3.7 Matrix Assisted Laser Desorption Ionisation.
3.8 Inductively Coupled Plasma Mass Spectrometry.
3.9 Electrospray ionisation.
References.
4. The ESI MS behaviour of simple inorganic compounds.
4.1 Introduction.
4.2 Simple metal salts.
4.3 Polyanions formed by main group elements.
4.4 Oxoanions formed by main group elements.
4.5 Borane anions.
4.6 Fullerenes.
4.7 Inorganic phosphorus compounds: phosphoranes and cyclophosphazenes.
4.8 Summary.
References.
5. The ESI MS behaviour of coordination complexes.
5.1 Introduction.
5.2 Charged, "simple" coordination complexes.
5.3 (Neutral) metal halide coordination complexes.
5.4 Metal complexes of polydentate oxygen donor ligands: polyethers, crown
ethers, cryptands and calixarenes.
5.5 Porphyrins and metalloporphyrins.
5.6 Metal alkoxides - highly moisture-sensitive coordination compounds.
5.7 b-Diketonate complexes.
5.8 Metal complexes of carbohydrates.
5.9 Metal complexes of amino acids, peptides and proteins.
5.10 Oxoanions, polyoxoanions and related species.
5.11 Metal clusters.
5.12 Compounds with anionic sulfur and selenium donor ligands.
5.13 Characterisation of metal-based anticancer drugs, their reaction
products and metabolites.
5.14 In situ formation of coordination complexes as an ionisation
technique.
5.15 Summary.
References.
6. The ESI MS behaviour of main group organometallic compounds.
6.1 Introduction.
6.2 Organometallic derivatives of group 14 elements.
6.3 Organometallic derivatives of group 15 elements.
6.4 Organometallic derivatives of group 16 elements; organo-sulfur,
-selenium and -tellurium compounds.
6.5 Organomercury compounds.
6.6 Other organometallic derivatives.
6.7 Summary.
References.
7. The ESI MS behaviour of transition metal and lanthanide organometallic
compounds.
7.1 Introduction.
7.2 Metal carbonyl complexes.
7.3 Metal isocyanide complexes.
7.4 Metal cyclopentadienyl and related complexes.
7.5 Metal h3-allyl complexes.
7.6 Metal arene complexes.
7.7 Formation of p-hydrocarbon complexes and their use as an ionisation
aid.
7.8 Metal-acetylene/acetylide complexes, and complexes of metal-acetylides.
7.9 Transition metal s-alkyl and aryl complexes.
7.10 Mass spectrometry of lanthanide organometallic complexes.
7.11 Summary.
References.
8. A selection of special topics.
8.1 Introduction.
8.2 Characterisation of dendrimers using ESI and MALDI-TOF MS techniques.
8.3 Investigating the formation of supramolecular coordination assemblies
using ESI MS.
8.4 Using ESI MS as a tool for directing chemical synthesis: A case
studyinvolving the platinum metalloligands [Pt2(m-E)2(PPh3)4] (E = S, Se).
8.5 Applications of ESI MS in the detection of reactive intermediates and
catalyst screening.
References.
Appendix 1: Naturally occurring isotopes.
Appendix 2: Periodic table of the elements.
Appendix 3: Alphabetical list of elements.
Appendix 4: Glossary of Terms.
Appendix 5: Useful sources of information.
Index.
List of commonly-used abbreviations.
1. Fundamentals.
1.1 Introduction.
1.2 Inlets.
1.3 Collision-induced dissociation.
1.4 Detectors.
1.5 Mass resolution.
1.6 Data processing.
1.7 Isotopes.
References.
2. Mass analysers.
2.1 Introduction.
2.2 Sectors.
2.3 Quadrupoles.
2.4 Quadrupole Ion Trap.
2.5 Time-of-flight.
2.6 Fourier Transform Ion Cyclotron Resonance.
References.
3. Ionisation techniques.
3.1 Introduction.
3.2 Electron ionisation.
3.3 Chemical Ionisation.
3.4 Field ionisation / Field desorption.
3.5 Plasma Desorption.
3.6 Fast Atom Bombardment / Liquid Secondary Ion Mass Spectrometry.
3.7 Matrix Assisted Laser Desorption Ionisation.
3.8 Inductively Coupled Plasma Mass Spectrometry.
3.9 Electrospray ionisation.
References.
4. The ESI MS behaviour of simple inorganic compounds.
4.1 Introduction.
4.2 Simple metal salts.
4.3 Polyanions formed by main group elements.
4.4 Oxoanions formed by main group elements.
4.5 Borane anions.
4.6 Fullerenes.
4.7 Inorganic phosphorus compounds: phosphoranes and cyclophosphazenes.
4.8 Summary.
References.
5. The ESI MS behaviour of coordination complexes.
5.1 Introduction.
5.2 Charged, "simple" coordination complexes.
5.3 (Neutral) metal halide coordination complexes.
5.4 Metal complexes of polydentate oxygen donor ligands: polyethers, crown
ethers, cryptands and calixarenes.
5.5 Porphyrins and metalloporphyrins.
5.6 Metal alkoxides - highly moisture-sensitive coordination compounds.
5.7 b-Diketonate complexes.
5.8 Metal complexes of carbohydrates.
5.9 Metal complexes of amino acids, peptides and proteins.
5.10 Oxoanions, polyoxoanions and related species.
5.11 Metal clusters.
5.12 Compounds with anionic sulfur and selenium donor ligands.
5.13 Characterisation of metal-based anticancer drugs, their reaction
products and metabolites.
5.14 In situ formation of coordination complexes as an ionisation
technique.
5.15 Summary.
References.
6. The ESI MS behaviour of main group organometallic compounds.
6.1 Introduction.
6.2 Organometallic derivatives of group 14 elements.
6.3 Organometallic derivatives of group 15 elements.
6.4 Organometallic derivatives of group 16 elements; organo-sulfur,
-selenium and -tellurium compounds.
6.5 Organomercury compounds.
6.6 Other organometallic derivatives.
6.7 Summary.
References.
7. The ESI MS behaviour of transition metal and lanthanide organometallic
compounds.
7.1 Introduction.
7.2 Metal carbonyl complexes.
7.3 Metal isocyanide complexes.
7.4 Metal cyclopentadienyl and related complexes.
7.5 Metal h3-allyl complexes.
7.6 Metal arene complexes.
7.7 Formation of p-hydrocarbon complexes and their use as an ionisation
aid.
7.8 Metal-acetylene/acetylide complexes, and complexes of metal-acetylides.
7.9 Transition metal s-alkyl and aryl complexes.
7.10 Mass spectrometry of lanthanide organometallic complexes.
7.11 Summary.
References.
8. A selection of special topics.
8.1 Introduction.
8.2 Characterisation of dendrimers using ESI and MALDI-TOF MS techniques.
8.3 Investigating the formation of supramolecular coordination assemblies
using ESI MS.
8.4 Using ESI MS as a tool for directing chemical synthesis: A case
studyinvolving the platinum metalloligands [Pt2(m-E)2(PPh3)4] (E = S, Se).
8.5 Applications of ESI MS in the detection of reactive intermediates and
catalyst screening.
References.
Appendix 1: Naturally occurring isotopes.
Appendix 2: Periodic table of the elements.
Appendix 3: Alphabetical list of elements.
Appendix 4: Glossary of Terms.
Appendix 5: Useful sources of information.
Index.
Preface.
List of commonly-used abbreviations.
Chapter 1 Fundamentals.
1.1 Introduction.
1.2 Inlets.
1.3 Collision-induced dissociation.
1.4 Detectors.
1.5 Mass resolution.
1.6 Data processing.
1.7 Isotopes.
References.
Chapter 2 Mass analysers.
2.1 Introduction.
2.2 Sectors.
2.3 Quadrupoles.
2.4 Quadrupole Ion Trap.
2.5 Time-of-flight.
2.6 Fourier Transform Ion Cyclotron Resonance.
References.
Chapter 3 Ionisation techniques.
3.1 Introduction.
3.2 Electron ionisation.
3.3 Chemical Ionisation.
3.4 Field ionisation / Field desorption.
3.5 Plasma Desorption.
3.6 Fast Atom Bombardment / Liquid Secondary Ion Mass Spectrometry.
3.7 Matrix Assisted Laser Desorption Ionisation.
3.8 Inductively Coupled Plasma Mass Spectrometry.
3.9 Electrospray ionisation.
References.
Chapter 4 The ESI MS behaviour of simple inorganic compounds.
4.1 Introduction.
4.2 Simple metal salts.
4.3 Polyanions formed by main group elements.
4.4 Oxoanions formed by main group elements.
4.5 Borane anions.
4.6 Fullerenes.
4.7 Inorganic phosphorus compounds: phosphoranes and cyclophosphazenes.
4.8 Summary.
References.
Chapter 5 The ESI MS behaviour of coordination complexes.
5.1 Introduction.
5.2 Charged, "simple" coordination complexes.
5.3 (Neutral) metal halide coordination complexes.
5.4 Metal complexes of polydentate oxygen donor ligands: polyethers, crown ethers, cryptands and calixarenes.
5.5 Porphyrins and metalloporphyrins.
5.6 Metal alkoxides - highly moisture-sensitive coordination compounds.
5.7 b-Diketonate complexes.
5.8 Metal complexes of carbohydrates.
5.9 Metal complexes of amino acids, peptides and proteins.
5.10 Oxoanions, polyoxoanions and related species.
5.11 Metal clusters.
5.12 Compounds with anionic sulfur and selenium donor ligands.
5.13 Characterisation of metal-based anticancer drugs, their reaction products and metabolites.
5.14 In situ formation of coordination complexes as an ionisation technique.
5.15 Summary.
References.
Chapter 6 The ESI MS behaviour of main group organometallic compounds.
6.1 Introduction.
6.2 Organometallic derivatives of group 14 elements.
6.3 Organometallic derivatives of group 15 elements.
6.4 Organometallic derivatives of group 16 elements; organo-sulfur, -selenium and -tellurium compounds.
6.5 Organomercury compounds.
6.6 Other organometallic derivatives.
6.7 Summary.
References.
Chapter 7 The ESI MS behaviour of transition metal and lanthanide organometallic compounds.
7.1 Introduction.
7.2 Metal carbonyl complexes.
7.3 Metal isocyanide complexes.
7.4 Metal cyclopentadienyl and related complexes.
7.5 Metal h3-allyl complexes.
7.6 Metal arene complexes.
7.7 Formation of p-hydrocarbon complexes and their use as an ionisation aid.
7.8 Metal-acetylene/acetylide complexes, and complexes of metal-acetylides.
7.9 Transition metal s-alkyl and aryl complexes.
7.10 Mass spectrometry of lanthanide organometallic complexes.
7.11 Summary.
References.
Chapter 8 A selection of special topics.
8.1 Introduction.
8.2 The characterisation of dendrimers using ESI and MALDI-TOF MS techniques.
8.3 Investigating the formation of supramolecular coordination assemblies using ESI MS.
8.4 Using ESI MS as a tool for directing chemical synthesis: A case studyinvolving the platinum metalloligands [Pt2(m-E)2(PPh3)4] (E = S, Se).
8.5 Applications of ESI MS in the detection of reactive intermediates and catalyst screening.
References.
Appendix 1 Naturally occurring isotopes.
Appendix 2 Periodic table of the elements.
Appendix 3 Alphabetical list of elements.
Appendix 4 Mass Spectrometry Glossary of Terms.
Appendix 5 Useful sources of information on mass spectrometry.
List of commonly-used abbreviations.
Chapter 1 Fundamentals.
1.1 Introduction.
1.2 Inlets.
1.3 Collision-induced dissociation.
1.4 Detectors.
1.5 Mass resolution.
1.6 Data processing.
1.7 Isotopes.
References.
Chapter 2 Mass analysers.
2.1 Introduction.
2.2 Sectors.
2.3 Quadrupoles.
2.4 Quadrupole Ion Trap.
2.5 Time-of-flight.
2.6 Fourier Transform Ion Cyclotron Resonance.
References.
Chapter 3 Ionisation techniques.
3.1 Introduction.
3.2 Electron ionisation.
3.3 Chemical Ionisation.
3.4 Field ionisation / Field desorption.
3.5 Plasma Desorption.
3.6 Fast Atom Bombardment / Liquid Secondary Ion Mass Spectrometry.
3.7 Matrix Assisted Laser Desorption Ionisation.
3.8 Inductively Coupled Plasma Mass Spectrometry.
3.9 Electrospray ionisation.
References.
Chapter 4 The ESI MS behaviour of simple inorganic compounds.
4.1 Introduction.
4.2 Simple metal salts.
4.3 Polyanions formed by main group elements.
4.4 Oxoanions formed by main group elements.
4.5 Borane anions.
4.6 Fullerenes.
4.7 Inorganic phosphorus compounds: phosphoranes and cyclophosphazenes.
4.8 Summary.
References.
Chapter 5 The ESI MS behaviour of coordination complexes.
5.1 Introduction.
5.2 Charged, "simple" coordination complexes.
5.3 (Neutral) metal halide coordination complexes.
5.4 Metal complexes of polydentate oxygen donor ligands: polyethers, crown ethers, cryptands and calixarenes.
5.5 Porphyrins and metalloporphyrins.
5.6 Metal alkoxides - highly moisture-sensitive coordination compounds.
5.7 b-Diketonate complexes.
5.8 Metal complexes of carbohydrates.
5.9 Metal complexes of amino acids, peptides and proteins.
5.10 Oxoanions, polyoxoanions and related species.
5.11 Metal clusters.
5.12 Compounds with anionic sulfur and selenium donor ligands.
5.13 Characterisation of metal-based anticancer drugs, their reaction products and metabolites.
5.14 In situ formation of coordination complexes as an ionisation technique.
5.15 Summary.
References.
Chapter 6 The ESI MS behaviour of main group organometallic compounds.
6.1 Introduction.
6.2 Organometallic derivatives of group 14 elements.
6.3 Organometallic derivatives of group 15 elements.
6.4 Organometallic derivatives of group 16 elements; organo-sulfur, -selenium and -tellurium compounds.
6.5 Organomercury compounds.
6.6 Other organometallic derivatives.
6.7 Summary.
References.
Chapter 7 The ESI MS behaviour of transition metal and lanthanide organometallic compounds.
7.1 Introduction.
7.2 Metal carbonyl complexes.
7.3 Metal isocyanide complexes.
7.4 Metal cyclopentadienyl and related complexes.
7.5 Metal h3-allyl complexes.
7.6 Metal arene complexes.
7.7 Formation of p-hydrocarbon complexes and their use as an ionisation aid.
7.8 Metal-acetylene/acetylide complexes, and complexes of metal-acetylides.
7.9 Transition metal s-alkyl and aryl complexes.
7.10 Mass spectrometry of lanthanide organometallic complexes.
7.11 Summary.
References.
Chapter 8 A selection of special topics.
8.1 Introduction.
8.2 The characterisation of dendrimers using ESI and MALDI-TOF MS techniques.
8.3 Investigating the formation of supramolecular coordination assemblies using ESI MS.
8.4 Using ESI MS as a tool for directing chemical synthesis: A case studyinvolving the platinum metalloligands [Pt2(m-E)2(PPh3)4] (E = S, Se).
8.5 Applications of ESI MS in the detection of reactive intermediates and catalyst screening.
References.
Appendix 1 Naturally occurring isotopes.
Appendix 2 Periodic table of the elements.
Appendix 3 Alphabetical list of elements.
Appendix 4 Mass Spectrometry Glossary of Terms.
Appendix 5 Useful sources of information on mass spectrometry.
Preface.
List of commonly-used abbreviations.
1. Fundamentals.
1.1 Introduction.
1.2 Inlets.
1.3 Collision-induced dissociation.
1.4 Detectors.
1.5 Mass resolution.
1.6 Data processing.
1.7 Isotopes.
References.
2. Mass analysers.
2.1 Introduction.
2.2 Sectors.
2.3 Quadrupoles.
2.4 Quadrupole Ion Trap.
2.5 Time-of-flight.
2.6 Fourier Transform Ion Cyclotron Resonance.
References.
3. Ionisation techniques.
3.1 Introduction.
3.2 Electron ionisation.
3.3 Chemical Ionisation.
3.4 Field ionisation / Field desorption.
3.5 Plasma Desorption.
3.6 Fast Atom Bombardment / Liquid Secondary Ion Mass Spectrometry.
3.7 Matrix Assisted Laser Desorption Ionisation.
3.8 Inductively Coupled Plasma Mass Spectrometry.
3.9 Electrospray ionisation.
References.
4. The ESI MS behaviour of simple inorganic compounds.
4.1 Introduction.
4.2 Simple metal salts.
4.3 Polyanions formed by main group elements.
4.4 Oxoanions formed by main group elements.
4.5 Borane anions.
4.6 Fullerenes.
4.7 Inorganic phosphorus compounds: phosphoranes and cyclophosphazenes.
4.8 Summary.
References.
5. The ESI MS behaviour of coordination complexes.
5.1 Introduction.
5.2 Charged, "simple" coordination complexes.
5.3 (Neutral) metal halide coordination complexes.
5.4 Metal complexes of polydentate oxygen donor ligands: polyethers, crown
ethers, cryptands and calixarenes.
5.5 Porphyrins and metalloporphyrins.
5.6 Metal alkoxides - highly moisture-sensitive coordination compounds.
5.7 b-Diketonate complexes.
5.8 Metal complexes of carbohydrates.
5.9 Metal complexes of amino acids, peptides and proteins.
5.10 Oxoanions, polyoxoanions and related species.
5.11 Metal clusters.
5.12 Compounds with anionic sulfur and selenium donor ligands.
5.13 Characterisation of metal-based anticancer drugs, their reaction
products and metabolites.
5.14 In situ formation of coordination complexes as an ionisation
technique.
5.15 Summary.
References.
6. The ESI MS behaviour of main group organometallic compounds.
6.1 Introduction.
6.2 Organometallic derivatives of group 14 elements.
6.3 Organometallic derivatives of group 15 elements.
6.4 Organometallic derivatives of group 16 elements; organo-sulfur,
-selenium and -tellurium compounds.
6.5 Organomercury compounds.
6.6 Other organometallic derivatives.
6.7 Summary.
References.
7. The ESI MS behaviour of transition metal and lanthanide organometallic
compounds.
7.1 Introduction.
7.2 Metal carbonyl complexes.
7.3 Metal isocyanide complexes.
7.4 Metal cyclopentadienyl and related complexes.
7.5 Metal h3-allyl complexes.
7.6 Metal arene complexes.
7.7 Formation of p-hydrocarbon complexes and their use as an ionisation
aid.
7.8 Metal-acetylene/acetylide complexes, and complexes of metal-acetylides.
7.9 Transition metal s-alkyl and aryl complexes.
7.10 Mass spectrometry of lanthanide organometallic complexes.
7.11 Summary.
References.
8. A selection of special topics.
8.1 Introduction.
8.2 Characterisation of dendrimers using ESI and MALDI-TOF MS techniques.
8.3 Investigating the formation of supramolecular coordination assemblies
using ESI MS.
8.4 Using ESI MS as a tool for directing chemical synthesis: A case
studyinvolving the platinum metalloligands [Pt2(m-E)2(PPh3)4] (E = S, Se).
8.5 Applications of ESI MS in the detection of reactive intermediates and
catalyst screening.
References.
Appendix 1: Naturally occurring isotopes.
Appendix 2: Periodic table of the elements.
Appendix 3: Alphabetical list of elements.
Appendix 4: Glossary of Terms.
Appendix 5: Useful sources of information.
Index.
List of commonly-used abbreviations.
1. Fundamentals.
1.1 Introduction.
1.2 Inlets.
1.3 Collision-induced dissociation.
1.4 Detectors.
1.5 Mass resolution.
1.6 Data processing.
1.7 Isotopes.
References.
2. Mass analysers.
2.1 Introduction.
2.2 Sectors.
2.3 Quadrupoles.
2.4 Quadrupole Ion Trap.
2.5 Time-of-flight.
2.6 Fourier Transform Ion Cyclotron Resonance.
References.
3. Ionisation techniques.
3.1 Introduction.
3.2 Electron ionisation.
3.3 Chemical Ionisation.
3.4 Field ionisation / Field desorption.
3.5 Plasma Desorption.
3.6 Fast Atom Bombardment / Liquid Secondary Ion Mass Spectrometry.
3.7 Matrix Assisted Laser Desorption Ionisation.
3.8 Inductively Coupled Plasma Mass Spectrometry.
3.9 Electrospray ionisation.
References.
4. The ESI MS behaviour of simple inorganic compounds.
4.1 Introduction.
4.2 Simple metal salts.
4.3 Polyanions formed by main group elements.
4.4 Oxoanions formed by main group elements.
4.5 Borane anions.
4.6 Fullerenes.
4.7 Inorganic phosphorus compounds: phosphoranes and cyclophosphazenes.
4.8 Summary.
References.
5. The ESI MS behaviour of coordination complexes.
5.1 Introduction.
5.2 Charged, "simple" coordination complexes.
5.3 (Neutral) metal halide coordination complexes.
5.4 Metal complexes of polydentate oxygen donor ligands: polyethers, crown
ethers, cryptands and calixarenes.
5.5 Porphyrins and metalloporphyrins.
5.6 Metal alkoxides - highly moisture-sensitive coordination compounds.
5.7 b-Diketonate complexes.
5.8 Metal complexes of carbohydrates.
5.9 Metal complexes of amino acids, peptides and proteins.
5.10 Oxoanions, polyoxoanions and related species.
5.11 Metal clusters.
5.12 Compounds with anionic sulfur and selenium donor ligands.
5.13 Characterisation of metal-based anticancer drugs, their reaction
products and metabolites.
5.14 In situ formation of coordination complexes as an ionisation
technique.
5.15 Summary.
References.
6. The ESI MS behaviour of main group organometallic compounds.
6.1 Introduction.
6.2 Organometallic derivatives of group 14 elements.
6.3 Organometallic derivatives of group 15 elements.
6.4 Organometallic derivatives of group 16 elements; organo-sulfur,
-selenium and -tellurium compounds.
6.5 Organomercury compounds.
6.6 Other organometallic derivatives.
6.7 Summary.
References.
7. The ESI MS behaviour of transition metal and lanthanide organometallic
compounds.
7.1 Introduction.
7.2 Metal carbonyl complexes.
7.3 Metal isocyanide complexes.
7.4 Metal cyclopentadienyl and related complexes.
7.5 Metal h3-allyl complexes.
7.6 Metal arene complexes.
7.7 Formation of p-hydrocarbon complexes and their use as an ionisation
aid.
7.8 Metal-acetylene/acetylide complexes, and complexes of metal-acetylides.
7.9 Transition metal s-alkyl and aryl complexes.
7.10 Mass spectrometry of lanthanide organometallic complexes.
7.11 Summary.
References.
8. A selection of special topics.
8.1 Introduction.
8.2 Characterisation of dendrimers using ESI and MALDI-TOF MS techniques.
8.3 Investigating the formation of supramolecular coordination assemblies
using ESI MS.
8.4 Using ESI MS as a tool for directing chemical synthesis: A case
studyinvolving the platinum metalloligands [Pt2(m-E)2(PPh3)4] (E = S, Se).
8.5 Applications of ESI MS in the detection of reactive intermediates and
catalyst screening.
References.
Appendix 1: Naturally occurring isotopes.
Appendix 2: Periodic table of the elements.
Appendix 3: Alphabetical list of elements.
Appendix 4: Glossary of Terms.
Appendix 5: Useful sources of information.
Index.