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Author: Kittisak Chaicharoen
Publisher:
ISBN:
Category : Chemistry
Languages : en
Pages : 183
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Book Description
Matrix Assisted Laser Desorption Ionization (MALDI) time of flight (ToF) mass spectrometry is a technique that has been used widely to characterize synthetic polymers. Mass spectrometric characterization is an essential tool in the determination of the comonomer composition and functionality distribution of synthetic polymers. Tandem mass spectrometry (MS/MS) is a two-dimensional technique that characterizes synthetic polymers in more detail. In this dissertation, poly (methyl methacrylate) (PMMA) and poly (methyl acrylate) (PMA) were examined by mass spectrometry (MS) and tandem mass spectrometry (MS/MS). Particular emphasis was devoted to the elucidation of MS/MS fragmentation mechanisms. Such knowledge is a prerequisite for interpreting MS/MS spectra correctly, so that structural information can be deduced from them with confidence. Within the MS/MS studies, a nomenclature was developed to classify MS/MS fragments in a meaningful manner. [Image: Nomenclature for fragments from PMMA chains] Briefly, terminal fragments are labeled by one of the letter codes given in the chart, while internal fragments are labeled by J, K, L, etc. A radical site is indicated by · and the number of repeat units by the subscript. Both, PMMA and PMA chain ionized by alkali metal addition dissociate in the mass spectrometer by homolytic cleavages along the backbone which produce the incipient radical ions a[subscript n]·, b[subscript n]·, y [subscript n]· and z [subscript n]·. These radical ions undergo consecutive, radical-induced reactions which lead to the ultimately observed MS/MS fragments. Radical ions from PMMA as well as PMA dissociate by [beta]-scissions; those from PMA also dissociate by backbiting reactions which produce abundant internal fragments. Hyperbranched acrylate polymers were analyzed by MALDI mass spectrometry and MS/MS. The MALDI-MS data reveal the composition of the polymer, while the MALDI-MS/MS data provide information about the branching architecture. Upon MS/MS, linear as well as hyperbranched polymers dissociate through 1,5-hydrogen rearrangement over the ester group, as also found for polyesters. This reaction leads to unique products from branched isomers, thereby permitting their differentiation from linear isomers. A centrally functionalized polyethylene glycol (f-PEG) star has been investigated by MALDI-MS and MS/MS methods. The mass spectra confirm the repeating unit of 44,Da corresponding to [C2H4O1], and reveal identity of the functionality distributions generated in the synthesis. The fragmentation patterns observed in the MALDI-MS/MS experiments provide information about the lengths of the PEG chains attached to the central substituent. Polyesters are used in many applications, for example, in adhesives, coatings and for packaging. A polyester produced from an aliphatic diacid and an aliphatic diol was analyzed by MALDI mass and tandem mass spectrometry. The MS/MS data show that such polyesters mainly decompose by 1,5-H rearrangement along the ester bond. This behavior is very similar with that found for polyacrylates, where ester moieties are located in the side chains (pendants) instead of the polymer chain. The discovery of this unique dissociation feature, which has been overlooked thus far, opens the possibility to analyze copolymer sequences and branching geometries in ester-containing polymers based on the fragments generated from competitive and consecutive 1,5-H rearrangements. Tung oils were also examined by MALDI-MS and MALDI-MS/MS methods. The mass spectra indicate a triglyceride structure with three fatty acid ester groups, mainly C-18 eleostearates. From the MALDI-MS/MS results, it is possible to determine how the fatty acid chains have been derivatized by the Diel-Alder reaction.
Author: Kittisak Chaicharoen
Publisher:
ISBN:
Category : Chemistry
Languages : en
Pages : 183
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Book Description
Matrix Assisted Laser Desorption Ionization (MALDI) time of flight (ToF) mass spectrometry is a technique that has been used widely to characterize synthetic polymers. Mass spectrometric characterization is an essential tool in the determination of the comonomer composition and functionality distribution of synthetic polymers. Tandem mass spectrometry (MS/MS) is a two-dimensional technique that characterizes synthetic polymers in more detail. In this dissertation, poly (methyl methacrylate) (PMMA) and poly (methyl acrylate) (PMA) were examined by mass spectrometry (MS) and tandem mass spectrometry (MS/MS). Particular emphasis was devoted to the elucidation of MS/MS fragmentation mechanisms. Such knowledge is a prerequisite for interpreting MS/MS spectra correctly, so that structural information can be deduced from them with confidence. Within the MS/MS studies, a nomenclature was developed to classify MS/MS fragments in a meaningful manner. [Image: Nomenclature for fragments from PMMA chains] Briefly, terminal fragments are labeled by one of the letter codes given in the chart, while internal fragments are labeled by J, K, L, etc. A radical site is indicated by · and the number of repeat units by the subscript. Both, PMMA and PMA chain ionized by alkali metal addition dissociate in the mass spectrometer by homolytic cleavages along the backbone which produce the incipient radical ions a[subscript n]·, b[subscript n]·, y [subscript n]· and z [subscript n]·. These radical ions undergo consecutive, radical-induced reactions which lead to the ultimately observed MS/MS fragments. Radical ions from PMMA as well as PMA dissociate by [beta]-scissions; those from PMA also dissociate by backbiting reactions which produce abundant internal fragments. Hyperbranched acrylate polymers were analyzed by MALDI mass spectrometry and MS/MS. The MALDI-MS data reveal the composition of the polymer, while the MALDI-MS/MS data provide information about the branching architecture. Upon MS/MS, linear as well as hyperbranched polymers dissociate through 1,5-hydrogen rearrangement over the ester group, as also found for polyesters. This reaction leads to unique products from branched isomers, thereby permitting their differentiation from linear isomers. A centrally functionalized polyethylene glycol (f-PEG) star has been investigated by MALDI-MS and MS/MS methods. The mass spectra confirm the repeating unit of 44,Da corresponding to [C2H4O1], and reveal identity of the functionality distributions generated in the synthesis. The fragmentation patterns observed in the MALDI-MS/MS experiments provide information about the lengths of the PEG chains attached to the central substituent. Polyesters are used in many applications, for example, in adhesives, coatings and for packaging. A polyester produced from an aliphatic diacid and an aliphatic diol was analyzed by MALDI mass and tandem mass spectrometry. The MS/MS data show that such polyesters mainly decompose by 1,5-H rearrangement along the ester bond. This behavior is very similar with that found for polyacrylates, where ester moieties are located in the side chains (pendants) instead of the polymer chain. The discovery of this unique dissociation feature, which has been overlooked thus far, opens the possibility to analyze copolymer sequences and branching geometries in ester-containing polymers based on the fragments generated from competitive and consecutive 1,5-H rearrangements. Tung oils were also examined by MALDI-MS and MALDI-MS/MS methods. The mass spectra indicate a triglyceride structure with three fatty acid ester groups, mainly C-18 eleostearates. From the MALDI-MS/MS results, it is possible to determine how the fatty acid chains have been derivatized by the Diel-Alder reaction.
Author: Minna Hakkarainen
Publisher: Springer Science & Business Media
ISBN: 3642280404
Category : Technology & Engineering
Languages : en
Pages : 219
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Book Description
Emerging Mass Spectrometric Tools for Analysis of Polymers and Polymer Additives, by Nina Aminlashgari and Minna Hakkarainen. Analysis of Polymer Additives and Impurities by Liquid Chromatography/Mass Spectrometry and Capillary Electrophoresis/Mass Spectrometry, by Wolfgang Buchberger and Martin Stiftinger. Direct Insertion Probe Mass Spectrometry of Polymers, by Jale Hacaloglu Mass Spectrometric Characterization of Oligo- and Polysaccharides and Their Derivatives, by Petra Mischnick. Electrospray Ionization-Mass Spectrometry for Molecular Level Understanding of Polymer Degradation, by Minna Hakkarainen.
Author: Giorgio Montaudo
Publisher: CRC Press
ISBN: 1420037757
Category : Science
Languages : en
Pages : 601
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Book Description
Mass Spectrometry (MS) has rapidly become an indispensable tool in polymer analysis, and modern MS today complements in many ways the structural data provided by Nuclear Magnetic Resonance (NMR) and Infrared (IR) methods. Recent advances have sparked a growing interest in this field and established a need for a summary of progress made and results
Author: Liang Li
Publisher: John Wiley & Sons
ISBN: 0470567228
Category : Science
Languages : en
Pages : 325
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Book Description
Principles and Practices of Polymer Mass Spectrometry helps readers acquire the skills necessary for selecting the optimal methods, handling samples, analyzing the data, and interpreting the results of the mass spectrometry of polymers. This guide describes the principles of polymer MS and best practices in polymer characterization. It discusses different approaches, including MALDI, ESI, TOF MS, and FT-MS. It provides a guide to developing appropriate sample preparation protocols for different polymers. Complete with examples of applications and experiments, this is an excellent reference for scientists, researchers, graduate students, and others.
Author: Christopher Barner-Kowollik
Publisher: John Wiley & Sons
ISBN: 3527329242
Category : Science
Languages : en
Pages : 501
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Book Description
Combining an up-to-date insight into mass-spectrometric polymer analysis beyond MALDI with application details of the instrumentation, this is a balanced and thorough presentation of the most important and widely used mass-spectrometric methods. Written by the world's most proficient experts in the field, the book focuses on the latest developments, covering such technologies and applications as ionization protocols, tandem and liquid chromatography mass spectrometry, gas-phase ion-separation techniques and automated data processing. Chapters on sample preparation, polymer degradation and the usage of mass-spectrometric tools on an industrial scale round off the book. As a result, both entrants to the field and experienced researchers are able to choose the appropriate methods and instrumentations -- and to assess their respective strengths and limitations -- for the characterization of polymer compounds.
Author: Harald Pasch
Publisher: Springer Science & Business Media
ISBN: 3662050463
Category : Science
Languages : en
Pages : 312
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Book Description
MALDI-TOF mass spectrometry is one of the latest and most fascinating new developments in the analysis of organic compounds. Originally developed for the analysis of biomolecules, it has developed into one of the most powerful techniques for the characterization of synthetic polymers. This book describes the fundamentals of the MALDI process and the technical features of MALDI-TOF instrumentation. It reviews the application of MALDI-TOF for identification, chemical and molar mass analysis of synthetic polymers. With many examples, the monograph examines experimental protocols for the determination of endgroups, the analysis of copolymers and additives, and the coupling of liquid chromatography and MALDI-TOF in detail.
Author: David E. Dabney
Publisher:
ISBN:
Category : Chemistry, Analytic
Languages : en
Pages : 142
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Book Description
"The utilization of MS and MS/MS techniques have resulted in the complete characterization of chain-end, in-chain and cyclic polystyrene and polybutadiene as well as an analytical method which allows the rapid determination of the location of functionality as well as determining if the material is linear or cyclic. The characterization of in-chain polystyrene is described and compared to chain-end polymers comprised with similar functionality. This allowed the differentiation of fragment ions resulting from the CAD fragmentation between the two types of functionalization. Additionally, the MS/MS spectra of in-chain functional polymers allow the determination of average chain length on either side of the functional group. Further expansion of polystyrene understanding was accomplished by characterizing macrocycle polystyrene which also contained a functional group. The CAD spectrum provided conclusive proof that the material was in fact cyclic due to the observed monomer losses as a result of CAD induced ring opening. After ring opening the macrocycle behaves similarly to an in-chain functional polymer and produces a mid-mass range Poisson distribution corresponding to the chain length on each side of the functional group, however, in this case it does not directly correlate to average chain length. This cyclic fragmentation pattern was confirmed when cyclic non-functionalized polybutadiene was characterized. Here the mid-range Poisson distribution was absent due to no functionality being present. However, the same monomer loss was observed which further confirmed that the monomer loss was indeed a function of the ring opening rather than a spectral feature induced by the ToF/ToF mechanism being akin to PSD. This was further confirmed by using a Q/ToF to verify the monomer loss after ring opening. Characterization of polybutadiene without pyrolysis was also conducted. While the adherence to free radical degradation was maintained it was discovered that unlike polystyrene, polybutadiene perferentially fragments by internal arranagements. Finally, by comparing the different MS/MS fragmentation patterns of the various materials utilized for this work the ability to determine where the functional group is and whether or not the material is cyclic and further if the macrocycle contains functionalization is possible by simply observing the MS/MS fragmentation pattern."--Abstract.
Author: Matthew J. Vergne
Publisher:
ISBN:
Category : Mass spectrometry
Languages : en
Pages : 296
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Book Description
Author: Liang Li
Publisher: Wiley
ISBN: 9780471775799
Category : Science
Languages : en
Pages : 307
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Book Description
Principles and Practices of Polymer Mass Spectrometry helps readers acquire the skills necessary for selecting the optimal methods, handling samples, analyzing the data, and interpreting the results of the mass spectrometry of polymers. This guide describes the principles of polymer MS and best practices in polymer characterization. It discusses different approaches, including MALDI, ESI, TOF MS, and FT-MS. It provides a guide to developing appropriate sample preparation protocols for different polymers. Complete with examples of applications and experiments, this is an excellent reference for scientists, researchers, graduate students, and others.
Author: Xiumin Liu
Publisher:
ISBN:
Category : Biomedical materials
Languages : en
Pages : 184
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Book Description
Tandem mass spectrometry (MS2) and ion mobility mass spectrometry (IM-MS) are powerful techniques to characterize biomaterials and polymers, and to provide structural information, on top of the compositional insight determined by single stage mass spectrometry (MS). In this study, collisionally activated dissociation (CAD) and electron transfer dissociation (ETD) were employed as MS2 fragmentation methods, and the resulting spectra were compared for specific compounds. The combination of MS2 with IM-MS was used for the characterization of protein conformation and the effect of polymers on protein conformational change. Chapter IV investigates the electron transfer dissociation (ETD) behavior of doubly charged ions with two different types of charges. Both CAD and ETD were used for the structural analysis of a protonated-sodiated peptide and sodiated-ammoniated polysaccharides. The advantages of ETD over CAD were documented with ETD spectra that showed more sequence-related fragment series for the peptide and revealed the location of the hydroxyethyl group on the pentamer of a polysaccharide. In Chapter V of this dissertation, the noncovalent interactions between proteins and polymers were investigated by electrospray ionization mass spectrometry (ESI-MS). Many synthetic polymers, when used for biomedical applications, come in contact with biological fluids. The polymers can significantly affect protein conformations in these fluids. The soft ionization feature of ESI enables the correlation between protein conformation and charge state distribution in the mass spectrum and the detection of protein-polymer complexes. ESI-MS data indicated that certain polysiloxanes can partially denature proteins. Chapter VI focuses on the precise structural characterization of branched glycopolymers. The two reactive sites on a mannose inimer, the polymerizable vinyl group and the homolytically cleavable halogen, enable the formation of hyperbranched architectures which are challenging to characterization. The presence of structural isomers in the sample was proposed based on the reaction mechanism of the synthesis. IM-MS and MS2 were employed as main analytical techniques in this study to unequirocally confirm the formation of branched structures.
