Mass spectra of copolymers

Montaudo, Maurizio S.

doi:10.1002/mas.10021

Cited by 97 publications

(106 citation statements)

References 243 publications

(264 reference statements)

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“…A single MS spectrum can allow the nature of the repeat unit and of the end-groups to be confirmed, or copolymers to be distinguished from homopolymers [7]. As MS allows individual co-oligomer ions to be measured, the overall composition can be determined as long as any peak overlap can efficiently be resolved [8].…”

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confidence: 99%

Tandem mass spectrometry of poly(methacrylic acid) oligomers produced by negative mode electrospray ionization

Giordanengo

Viel

Allard-Breton

et al. 2009

J. Am. Soc. Mass Spectrom.

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Dissociation of small poly(methyl acrylic acid) (PMAA) anions produced by electrospray was characterized by tandem mass spectrometry. Upon collisional activation, singly, and doubly deprotonated PMAA oligomers were shown to fragment via two major reactions, dehydration and decarboxylation. The elimination of a water molecule would occur between two consecutive acid groups in a charged-remote mechanism, giving rise to cyclic anhydrides, and was shown to proceed as many times as pairs of neutral pendant groups were available. As a result, the number of dehydration steps, together with the abundance of the fragment ions produced after the release of all water molecules, revealed the polymerization degree of the molecule in the particular case of doubly charged oligomers. For singly deprotonated molecules, the exact number of MAA units could be reached from the number of carbon dioxide molecules successively eliminated from the fully dehydrated precursor ions. In contrast to dehydration, decarboxylation reactions would proceed via a charge-induced mechanism. The proposed dissociation mechanisms are consistent with results commonly reported in thermal degradation studies of poly(acrylic acid) resins and were supported by accurate mass measurements. These fragmentation rules were successfully applied to characterize a polymeric impurity detected in the tested PMAA sample. (J Am Soc Mass

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confidence: 99%

Tandem mass spectrometry of poly(methacrylic acid) oligomers produced by negative mode electrospray ionization

Giordanengo

Viel

Allard-Breton

et al. 2009

J. Am. Soc. Mass Spectrom.

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“…Low-soluble and nonsoluble polymers are generally not analyzable by UV-MALDI although the successful use of DMSO in the analysis of chiral polyhydroxy polyamides and the details for the sample preparation method has been described. 20 Nor-harmane has been shown to be a good UV-MALDI matrix for the analysis of a wide variety of non-commercial synthetic polymers [19][20][21][22][23][24][25] and bio-macromolecules, 6,9,12,13,16,17 In the present study commercially available synthetic polymers such as PEG, PMMA, PS and poly(dimethyl)siloxane (PDMS) have been selected for UV-MALDI analysis with nor-harmane. These experiments have been conducted in positive and negative ion modes and the efficiency of the desorption/ionization processes, with and without ionizing salt, have been compared.…”

Section: Introductionmentioning

confidence: 99%

“…Matrix-assisted ultraviolet laser desorption/ionization time-of-flight mass spectrometry (UV-MALDI-TOF MS) [1][2][3] has become a versatile and important tool for the determination of molecular masses of macromolecules such as synthetic polymers [4][5][6] and bio-polymers. [7][8][9] The principal of UV-MALDI involves ionizing macromolecules for TOF-MS analysis by diluting them in a suitable matrix of small organic molecules which absorb UV-laser photons.…”

Section: Introductionmentioning

confidence: 99%

“…Thus, carboxylic acids (trans-3-indolacrylic acid (IAA), 2,5-dihydroxybenzoic acid or gentisic acid (GA), sinapinic acid (SA), 2-(4-hydroxyphenylazo)-benzoic acid (HABA), and 5-chlorosalicylic acid), phenols (dithranol), neutral compounds (2-nitrophenyl octyl ether, 1,4-di(2-5-phenyl-oxazolyl)benzene, and all-trans-retinal) and soft basic compounds (carbostyril 124) together with some metals have been employed. 1,5,6,35,36 Even today, the successful characterization of synthetic polymers by UV-MALDI-MS is strongly dependent firstly on the chemical structure of the polymer and secondly on experimental and instrumental factors. It is important to point our that not all synthetic polymers are easily analyzed and polymers with different chemical structures may require different sample handling for a successful analysis.…”

Section: Introductionmentioning

confidence: 99%

“…Sample preparation for the first three classes of polymers is faily well established. 5,6,34,35 Nonsoluble polymers includes polymers soluble in solvents that are not compatible with known matrix materials. Thus, these are the most difficult to analyze by UV-MALDI because a homogeneous mixture of matrix and analyte that promotes polymermatrix interaction is not easy prepared, or just because the solvent required is not recommended in MALDI technique (i.e., DMSO).…”

Section: Introductionmentioning

confidence: 99%

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UV-Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry analysis of synthetic polymers by using nor-harmane as matrix

Erra‐Balsells¹,

Nonami²

2003

Arkivoc

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The matrix-assisted ultraviolet laser desorption/ionization time-of-flight mass spectra (UV-MALDI-TOF-MS) analysis of some synthetic polymers was studied. The results obtained by using nor-harmane, gentisic acid (GA) and other UV-MALDI matrices, in positive and negative ion modes, were compared.Nor-harmane worked as an efficient matrix for the synthetic polymers belonging to the families of polyethylenglycol (PEG), polymethylmethacrylate (PMMA), polystyrene (PS) and poly(dimethyl)siloxane (PDMS). This behaviour was quite noticeable in negative ion mode for polar-protic polymers (PEG) and in both ion modes for non-polar polymers (PS). For the latter analysis the addition of Ag + salts was not necessary for the ionization process. The formation of Ag clusters when Ag + salts are used as the cationizing agent is discussed. Because the initiation of the UV-MALDI process is a photochemical reaction (matrix + hν (337 nm) → matrix*), the acid-base character of nor-harmane in the ground and the lower electronic excited singlet state, together with other photophysical properties are briefly discussed.The excellent results obtained in the analysis of commercial synthetic polymers with norharmane allow us to propose these analyte-matrix systems for UV-MALDI-TOF-MS calibration.

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Comprehensive Two‐Dimensional Liquid Chromatography Combined with Mass Spectrometry

Dugo

Mondello

Cacciola

et al. 2011

Comprehensive Chromatography in Combination With Mass Spectrometry

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Mass spectra of copolymers

Cited by 97 publications

References 243 publications

Tandem mass spectrometry of poly(methacrylic acid) oligomers produced by negative mode electrospray ionization

Tandem mass spectrometry of poly(methacrylic acid) oligomers produced by negative mode electrospray ionization

UV-Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry analysis of synthetic polymers by using nor-harmane as matrix

Comprehensive Two‐Dimensional Liquid Chromatography Combined with Mass Spectrometry

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