Mass spectrometry of polymers: A tutorial review.

Ever since the inception of synthetic polymeric materials in the late 19th century, the number of studies on polymers as well as the complexity of their structures have only increased. The development and commercialization of new polymers with properties fine-tuned for specific technological, environmental, consumer, or biomedical applications requires powerful analytical techniques that permit the in-depth characterization of these materials. One such method with the ability to provide chemical composition and structure information with high sensitivity, selectivity, specificity, and speed is mass spectrometry (MS). This tutorial review presents and exemplifies the various MS techniques available for the elucidation of specific structural features in a synthetic polymer, including compositional complexity, primary structure, architecture, topology, and surface properties. Key to every MS analysis is sample conversion to gas-phase ions. This review describes the fundamentals of the most suitable ionization methods for synthetic materials and provides relevant sample preparation protocols. Most importantly, structural characterizations via one-step as well as hyphenated or multidimensional approaches are introduced and demonstrated with specific applications, including surface sensitive and imaging techniques. The aim of this tutorial review is to illustrate the capabilities of MS for the characterization of large, complex polymers and emphasize its potential as a powerful compositional and structural elucidation tool in polymer chemistry.

[1]  C. Wesdemiotis,et al.  Rapid and Simple Determination of Average Molecular Weight and Composition of Synthetic Polymers via ESI-MS and a Bayesian Universal Charge Deconvolution. , 2023, Rapid communications in mass spectrometry : RCM.

[2]  H. Janssen,et al.  Disentangle a Complex MALDI TOF Mass Spectrum of Polyethylene Glycols into Three Separate Spectra via Selective Formation of Protonated Ions and Sodium or Potassium Adducts , 2022, Journal of the American Society for Mass Spectrometry.

[3]  Oscar Lacroix-Andrivet,et al.  Molecular Characterization of Formulated Lubricants and Additive Packages Using Kendrick Mass Defect Determined by Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. , 2022, Journal of the American Society for Mass Spectrometry.

[4]  C. Wesdemiotis,et al.  Analysis of Thermoplastic Copolymers by Mild Thermal Degradation Coupled to Ion Mobility Mass Spectrometry. , 2022, Macromolecular rapid communications.

[5]  Z. Alothman,et al.  New Method Based on Direct Analysis in Real-Time Coupled with Time-of-Flight Mass Spectrometry (DART-ToF-MS) for Investigation of the Miscibility of Polymer Blends , 2022, Polymers.

[6]  S. Samanipour,et al.  Automated Feature Mining for Two-Dimensional Liquid Chromatography Applied to Polymers Enabled by Mass Remainder Analysis , 2022, Analytical chemistry.

[7]  S. A. McLuckey,et al.  Characterization of Homopolymer Distributions via Direct Infusion ESI-MS/MS using Wide Mass-to-Charge Windows and Gas-Phase Ion/Ion Reactions. , 2022, Journal of the American Society for Mass Spectrometry.

[8]  M. Aznar,et al.  Comparison of LC-ESI, DART, and ASAP for the analysis of oligomers migration from biopolymer food packaging materials in food (simulants) , 2021, Analytical and Bioanalytical Chemistry.

[9]  L. Manin,et al.  Instantaneous characterization of crude vegetable oils via triacylglycerols fingerprint by atmospheric solids analysis probe tandem mass spectrometry with multiple neutral loss scans , 2021, Food Control.

[10]  L. Konermann,et al.  Using covalent modifications to distinguish protein electrospray mechanisms: Charged residue model (CRM) vs. chain ejection model (CEM) , 2021 .

[11]  M. Jarrold Applications of Charge Detection Mass Spectrometry in Molecular Biology and Biotechnology. , 2021, Chemical reviews.

[12]  M. Becker,et al.  Poly(ethylene glycol) Hydrogel Crosslinking Chemistries Identified via Atmospheric Solids Analysis Probe Mass Spectrometry , 2021, Macromolecules.

[13]  Melvin A. Park,et al.  Trapped Ion Mobility Spectrometry and Parallel Accumulation–Serial Fragmentation in Proteomics , 2021, Molecular & cellular proteomics : MCP.

[14]  W. S. Hopkins,et al.  Assessing collision cross section calculations using MobCal-MPI with a variety of commonly used computational methods , 2021 .

[15]  New Trends in Macromolecular and Supramolecular Chemistry for Biological Applications , 2021 .

[16]  Nanotechnology Applications in Health and Environmental Sciences , 2021 .

[17]  C. Wesdemiotis,et al.  Elucidation of Low Molecular Weight Polymers in Vehicular Engine Deposits by Multidimensional Mass Spectrometry , 2020, Energy & Fuels.

[18]  T. D. Fridgen,et al.  Top-down lignomics analysis of the French oak lignin by atmospheric pressure photoionization and electrospray ionization quadrupole time-of-flight tandem mass spectrometry: Identification of a novel series of lignans. , 2020, Journal of mass spectrometry : JMS.

[19]  Molly E. Payne,et al.  Mass spectrometry investigation into the oxidative degradation of poly(ethylene glycol) , 2020 .

[20]  Elizabeth K. Neumann,et al.  Multimodal Imaging Mass Spectrometry: Next Generation Molecular Mapping in Biology and Medicine. , 2020, Journal of the American Society for Mass Spectrometry.

[21]  Melvin A. Park,et al.  Accurate Identification of Isomeric Glycans by Trapped Ion Mobility Spectrometry-Electronic Excitation Dissociation Tandem Mass Spectrometry. , 2020, Analytical chemistry.

[22]  L. Konermann,et al.  Formation of Gaseous Proteins via the Ion Evaporation Model (IEM) in Electrospray Mass Spectrometry. , 2020, Analytical chemistry.

[23]  L. Charles,et al.  MS-based analytical strategy for comprehensive molecular characterization of biodegradable poly(lactic-co-glycolic) acid copolymers. , 2020, Journal of the American Society for Mass Spectrometry.

[24]  Bifan Chen,et al.  Characterization of High Molecular Weight Multi-arm Functionalized PEG-Maleimide for Protein Conjugation by Charge Reduction Mass Spectrometry Coupled to Two-Dimensional Liquid Chromatography. , 2020, Analytical chemistry.

[25]  S. Zimmerman,et al.  Intramolecularly Cross-Linked Polymers: From Structure to Function with Applications as Artificial Antibodies and Artificial Enzymes. , 2020, Accounts of chemical research.

[26]  C. Hawker,et al.  The Beauty of Branching in Polymer Science , 2020 .

[27]  Scott M. Grayson,et al.  The synthesis, properties and potential applications of cyclic polymers , 2020, Nature Chemistry.

[28]  R. R. Steiner,et al.  Differentiating Nylons Using Direct Analysis in Real Time Coupled to an AccuTOF Time-of-Flight Mass Spectrometer. , 2020, Journal of the American Society for Mass Spectrometry.

[29]  H. Cooper,et al.  In situ mass spectrometry analysis of intact proteins and protein complexes from biological substrates , 2020, Biochemical Society transactions.

[30]  D. Douce,et al.  Atmospheric Solids Analysis Probe Coupled to a Portable Mass Spectrometer for Rapid Identification of Bulk Drug Seizures. , 2020, Journal of the American Society for Mass Spectrometry.

[31]  T. Begley,et al.  Rapid identification of polyamides using direct analysis in real-time mass spectrometry. , 2019, Rapid communications in mass spectrometry : RCM.

[32]  J. Brodbelt,et al.  Ultraviolet Photodissociation Mass Spectrometry for Analysis of Biological Molecules. , 2019, Chemical reviews.

[33]  T. Fouquet The Kendrick analysis for polymer mass spectrometry. , 2019, Journal of mass spectrometry : JMS.

[34]  P. Bonnesen,et al.  Entropy and Enthalpy Mediated Segregation of Bottlebrush Copolymers to Interfaces , 2019, Macromolecules.

[35]  J. Dodds,et al.  Ion Mobility Spectrometry: Fundamental Concepts, Instrumentation, Applications, and the Road Ahead , 2019, Journal of The American Society for Mass Spectrometry.

[36]  S. Grayson,et al.  Elucidating Branching Topology and Branch Lengths in Star-Branched Polymers by Tandem Mass Spectrometry , 2019, Journal of The American Society for Mass Spectrometry.

[37]  C. Wesdemiotis,et al.  Sequencing of Side-Chain Liquid Crystalline Copolymers by Matrix-Assisted Laser Desorption/Ionization Tandem Mass Spectrometry , 2019, Polymers.

[38]  J. Prell,et al.  Computational Insights into Compaction of Gas-Phase Protein and Protein Complex Ions in Native Ion Mobility-Mass Spectrometry. , 2019, Trends in analytical chemistry : TRAC.

[39]  J. Town,et al.  Tandem Mass Spectrometry for Polymeric Structure Analysis: A Comparison of Two Common MALDI-ToF/ToF Techniques. , 2019, Macromolecular rapid communications.

[40]  Meifang Zhu,et al.  Synthesis, Self-Assembly and Characterization of Tandem Triblock BPOSS-PDI-X Shape Amphiphiles , 2019, Molecules.

[41]  Yifu Ding,et al.  Impact of the Pendant Group on the Chain Conformation and Bulk Properties of Norbornene Imide-Based Polymers. , 2019, Macromolecules.

[42]  A. Wójtowicz,et al.  DESI-MS analysis of human fluids and tissues for forensic applications , 2019, Applied Physics A.

[43]  Q. Ma,et al.  Characterization and analysis of non-ionic surfactants by supercritical fluid chromatography combined with ion mobility spectrometry-mass spectrometry , 2019, Analytical and Bioanalytical Chemistry.

[44]  Wei Zhang,et al.  Analysis of monodisperse, sequence-defined, and POSS-functionalized polyester copolymers by MALDI tandem mass spectrometry , 2019, European journal of mass spectrometry.

[45]  W. Buchmann,et al.  Study of the gas-phase decomposition of multiply lithiated polycaprolactone, polytetrahydrofurane and their copolymer by two different activation methods: Collision-induced dissociation and electron transfer dissociation. , 2019, Analytica chimica acta.

[46]  B. Salih,et al.  Characterization of supramolecular peptide-polymer bioconjugates using multistage tandem mass spectrometry , 2019, International Journal of Mass Spectrometry.

[47]  W. Peng,et al.  Forced dried droplet method for MALDI sample preparation. , 2018, Analytica chimica acta.

[48]  M. Foster,et al.  Surface Layer Matrix-Assisted Laser Desorption Ionization Mass Spectrometry Imaging: A Surface Imaging Technique for the Molecular-Level Analysis of Synthetic Material Surfaces. , 2018, Analytical chemistry.

[49]  S. Perrier,et al.  Coupling Electron Capture Dissociation and the Modified Kendrick Mass Defect for Sequencing of a Poly(2-ethyl-2-oxazoline) Polymer. , 2018, Analytical chemistry.

[50]  Wei Gao,et al.  Separation and identification of polymeric dispersants in detergents by two-dimensional liquid chromatography. , 2018, Journal of chromatography. A.

[51]  M. Sussman,et al.  Comparison of Vacuum MALDI and AP-MALDI Platforms for the Mass Spectrometry Imaging of Metabolites Involved in Salt Stress in Medicago truncatula , 2018, Front. Plant Sci..

[52]  William R. Dichtel,et al.  Approaches to Sustainable and Continually Recyclable Cross-Linked Polymers , 2018 .

[53]  Peng Xiao,et al.  Gas-phase complexation of α-/β-cyclodextrin with amino acids studied by ion mobility-mass spectrometry and molecular dynamics simulations. , 2018, Talanta.

[54]  L. Konermann,et al.  Chain Ejection Model for Electrospray Ionization of Unfolded Proteins: Evidence from Atomistic Simulations and Ion Mobility Spectrometry. , 2018, Analytical chemistry.

[55]  M. Foster,et al.  Subtle End Group Functionalization of Polymer Chains Drives Surface Depletion of Entire Polymer Chains. , 2018, ACS macro letters.

[56]  C. Wesdemiotis,et al.  Sequence analysis of cyclic polyester copolymers using ion mobility tandem mass spectrometry , 2018, International Journal of Mass Spectrometry.

[57]  Christine Carapito,et al.  Cleavable Binary Dyads: Simplifying Data Extraction and Increasing Storage Density in Digital Polymers. , 2018, Angewandte Chemie.

[58]  F. Rosu,et al.  Optimizing Native Ion Mobility Q-TOF in Helium and Nitrogen for Very Fragile Noncovalent Structures , 2018, Journal of The American Society for Mass Spectrometry.

[59]  B. Staal,et al.  Two-Dimensional Liquid Chromatography Analysis of Polystyrene/Polybutadiene Block Copolymers. , 2018, Analytical chemistry.

[60]  M. Foster,et al.  Detection of Surface Enrichment Driven by Molecular Weight Disparity in Virtually Monodisperse Polymers. , 2018, ACS macro letters.

[61]  Xinqiao Jia,et al.  Sequence and Conformational Analysis of Peptide-Polymer Bioconjugates by Multidimensional Mass Spectrometry. , 2018, Biomacromolecules.

[62]  B. Musselman,et al.  Direct analysis in real time-Mass spectrometry (DART-MS) in forensic and security applications. , 2018, Mass spectrometry reviews.

[63]  Tibor Nagy,et al.  Mass-Remainder Analysis (MARA): a New Data Mining Tool for Copolymer Characterization. , 2018, Analytical chemistry.

[64]  Xin Lu,et al.  Ionization Mechanism of Positive-Ion Nitrogen Direct Analysis in Real Time , 2018, Journal of The American Society for Mass Spectrometry.

[65]  Erik Marklund,et al.  Fundamentals of ion mobility spectrometry. , 2017, Current opinion in chemical biology.

[66]  W. Romão,et al.  Application of Atmospheric Solids Analysis Probe Mass Spectrometry (ASAP-MS) in Petroleomics: Analysis of Condensed Aromatics Standards, Crude Oil, and Paraffinic Fraction , 2017, Journal of The American Society for Mass Spectrometry.

[67]  R. Mülhaupt,et al.  Polymers for 3D Printing and Customized Additive Manufacturing , 2017, Chemical reviews.

[68]  Hiroaki Sato,et al.  Extension of the Kendrick Mass Defect Analysis of Homopolymers to Low Resolution and High Mass Range Mass Spectra Using Fractional Base Units. , 2017, Analytical chemistry.

[69]  E. Uliyanchenko Applications of Hyphenated Liquid Chromatography Techniques for Polymer Analysis , 2017, Chromatographia.

[70]  C. Wesdemiotis,et al.  Chain-end and backbone analysis of poly( N -isopropylacrylamide)s using sequential electron transfer dissociation and collisionally activated dissociation , 2017 .

[71]  C. Wesdemiotis Multidimensional Mass Spectrometry of Synthetic Polymers and Advanced Materials. , 2017, Angewandte Chemie.

[72]  H. Maynard,et al.  Trehalose Glycopolymer Enhances Both Solution Stability and Pharmacokinetics of a Therapeutic Protein. , 2017, Bioconjugate chemistry.

[73]  R. Rodgers,et al.  Comparison of Atmospheric Pressure Ionization for the Analysis of Heavy Petroleum Fractions with Ion Mobility-Mass Spectrometry , 2016 .

[74]  C. Wesdemiotis,et al.  Controlled Interconversion of Superposed-Bistriangle, Octahedron, and Cuboctahedron Cages Constructed Using a Single, Terpyridinyl-Based Polyligand and Zn(2.). , 2016, Journal of the American Chemical Society.

[75]  U. Schubert,et al.  Polymer architectures via mass spectrometry and hyphenated techniques: A review. , 2016, Analytica chimica acta.

[76]  C. Wesdemiotis,et al.  Ultrahigh Performance Liquid Chromatography Interfaced with Mass Spectrometry and Orthogonal Ion Mobility Separation for the Microstructure Characterization of Amphiphilic Block Copolymers , 2016, Chromatographia.

[77]  C. Wesdemiotis,et al.  Multidimensional Mass Spectrometry Coupled with Separation by Polarity or Shape for the Characterization of Sugar-Based Nonionic Surfactants. , 2016, Analytical chemistry.

[78]  H. Arlinghaus,et al.  Rewritable Polymer Brush Micropatterns Grafted by Triazolinedione Click Chemistry. , 2015, Angewandte Chemie.

[79]  Xinqiao Jia,et al.  Top-down mass spectrometry of hybrid materials with hydrophobic peptide and hydrophilic or hydrophobic polymer blocks. , 2015, The Analyst.

[80]  D. Lebeau,et al.  Direct characterization of polyurethanes and additives by atmospheric solid analysis probe with time-of-flight mass spectrometry (ASAP-TOF-MS) , 2015, Analytical and Bioanalytical Chemistry.

[81]  S. Grayson,et al.  Use of Ion Mobility Spectrometry-Mass Spectrometry to Elucidate Architectural Dispersity within Star Polymers. , 2015, ACS macro letters.

[82]  C. Afonso,et al.  Atmospheric solid analysis probe mass spectrometry vs electrospray tandem mass spectrometry of polydimethylsiloxanes in positive and negative ionization modes. , 2015, Rapid communications in mass spectrometry : RCM.

[83]  Jean-François Lutz,et al.  Design and synthesis of digitally encoded polymers that can be decoded and erased , 2015, Nature Communications.

[84]  Erik G Marklund,et al.  Bayesian deconvolution of mass and ion mobility spectra: from binary interactions to polydisperse ensembles. , 2015, Analytical chemistry.

[85]  C. Wesdemiotis,et al.  Electron transfer dissociation of sodium cationized polyesters: Reaction time effects and combination with collisional activation and ion mobility separation , 2015 .

[86]  John A. McLean,et al.  Ion Mobility-Mass Spectrometry: Time-Dispersive Instrumentation , 2014, Analytical chemistry.

[87]  P. Dugourd,et al.  Electron photodetachment dissociation for structural characterization of synthetic and bio-polymer anions. , 2014, Mass spectrometry reviews.

[88]  L. Charles MALDI of synthetic polymers with labile end-groups. , 2014, Mass spectrometry reviews.

[89]  Lukáš Václavík,et al.  Mass spectrometric analysis of pharmaceutical adulterants in products labeled as botanical dietary supplements or herbal remedies: a review , 2014, Analytical and Bioanalytical Chemistry.

[90]  E. De Pauw,et al.  Polymer topology revealed by ion mobility coupled with mass spectrometry. , 2014, Analytical chemistry.

[91]  P. Heide Secondary Ion Mass Spectrometry: An Introduction to Principles and Practices , 2014 .

[92]  C. Wesdemiotis,et al.  Sequence analysis of styrenic copolymers by tandem mass spectrometry. , 2014, Analytical chemistry.

[93]  C. Afonso,et al.  Rapid analysis of lubricants by atmospheric solid analysis probe-ion mobility mass spectrometry. , 2014, Journal of mass spectrometry : JMS.

[94]  Hiroaki Sato,et al.  Structural Characterization of Polymers by MALDI Spiral-TOF Mass Spectrometry Combined with Kendrick Mass Defect Analysis , 2014, Journal of The American Society for Mass Spectrometry.

[95]  P. Schoenmakers,et al.  Multi-dimensional separations of polymers. , 2014, Analytical chemistry.

[96]  V. Thakur,et al.  Progress in Green Polymer Composites from Lignin for Multifunctional Applications: A Review , 2014 .

[97]  Jennifer S Brodbelt,et al.  Photodissociation mass spectrometry: new tools for characterization of biological molecules. , 2014, Chemical Society reviews.

[98]  D. Hercules,et al.  Collision induced dissociation study of ester-based polyurethane fragmentation reactions. , 2014, Analytica chimica acta.

[99]  C. Wesdemiotis,et al.  Characterization of polysorbate 85, a nonionic surfactant, by liquid chromatography vs. ion mobility separation coupled with tandem mass spectrometry. , 2014, Analytica chimica acta.

[100]  M. Bridoux,et al.  Capabilities and limitations of direct analysis in real time orbitrap mass spectrometry and tandem mass spectrometry for the analysis of synthetic and natural polymers. , 2013, Rapid communications in mass spectrometry : RCM.

[101]  William H. Heath,et al.  MALDI–TOF/TOF CID Study of Polycarbodiimide Branching Reactions , 2013 .

[102]  C. Werner,et al.  Characterization of polymer membranes by MALDI mass-spectrometric imaging techniques. , 2013, Analytical chemistry.

[103]  H. Pasch Hyphenated separation techniques for complex polymers , 2013 .

[104]  C. Boyer,et al.  Soft ionization mass spectroscopy: insights into the polymerization mechanism , 2013 .

[105]  Lars Konermann,et al.  Unraveling the mechanism of electrospray ionization. , 2013, Analytical chemistry.

[106]  E. Tőke,et al.  Collision-induced dissociation study of poly(2-ethyl-2-oxazoline) using survival yields and breakdown curves. , 2013, Journal of mass spectrometry : JMS.

[107]  C. Wesdemiotis,et al.  Electron transfer dissociation versus collisionally activated dissociation of cationized biodegradable polyesters. , 2012, Journal of mass spectrometry : JMS.

[108]  C. Afonso,et al.  Atmospheric solid analysis probe-ion mobility mass spectrometry of polypropylene. , 2012, Analytical chemistry.

[109]  P. Schoenmakers,et al.  Comprehensive two-dimensional ultrahigh-pressure liquid chromatography for separations of polymers. , 2012, Analytical chemistry.

[110]  Xiaopeng Li,et al.  Interfacing Multistage Mass Spectrometry with Liquid Chromatography or Ion Mobility Separation for Synthetic Polymer Analysis , 2012, European journal of mass spectrometry.

[111]  C. McEwen,et al.  Rapid screening of chemical warfare nerve agent metabolites in urine by atmospheric solids analysis probe-mass spectroscopy (ASAP-MS). , 2012, Drug testing and analysis.

[112]  Shibdas Banerjee,et al.  Electrospray Ionization Mass Spectrometry: A Technique to Access the Information beyond the Molecular Weight of the Analyte , 2011, International journal of analytical chemistry.

[113]  M. Becker,et al.  Strain-Promoted Crosslinking of PEG-based Hydrogels via Copper-Free Cycloaddition. , 2012, ACS macro letters.

[114]  U. Schubert,et al.  Tandem mass spectrometry of poly(ethylene imine)s by electrospray ionization (ESI) and matrix-assisted laser desorption/ionization (MALDI). , 2012, Journal of mass spectrometry : JMS.

[115]  Shih-fan Wang,et al.  Differentiation of Linear and Cyclic Polymer Architectures by MALDI Tandem Mass Spectrometry (MALDI-MS2) , 2012, Journal of The American Society for Mass Spectrometry.

[116]  K. Håkansson,et al.  Structural Characterization of Carbohydrates by Fourier Transform Tandem Mass Spectrometry. , 2011, Current proteomics.

[117]  P. Dugourd,et al.  End-group characterization of poly(styrene sulfonate sodium salt) by activated electron photo-detachment dissociation. , 2011, Rapid communications in mass spectrometry : RCM.

[118]  R. Cooks,et al.  Desorption electrospray ionization mass spectrometry for lipid characterization and biological tissue imaging. , 2011, Biochimica et biophysica acta.

[119]  Ulrich S Schubert,et al.  Application of matrix-assisted laser desorption/ionization mass spectrometric imaging to monitor surface changes of UV-irradiated poly(styrene) films. , 2011, Rapid communications in mass spectrometry : RCM.

[120]  Scott M. Grayson,et al.  Architectural Differentiation of Linear and Cyclic Polymeric Isomers by Ion Mobility Spectrometry-Mass Spectrometry , 2011 .

[121]  Xiaopeng Li,et al.  Design, synthesis, and traveling wave ion mobility mass spectrometry characterization of iron(II)- and ruthenium(II)-terpyridine metallomacrocycles. , 2011, Journal of the American Chemical Society.

[122]  C. Wesdemiotis,et al.  Fragmentation pathways of polymer ions. , 2011, Mass spectrometry reviews.

[123]  Sebastian Böcker,et al.  Analysis of different synthetic homopolymers by the use of a new calculation software for tandem mass spectra. , 2011, Rapid communications in mass spectrometry : RCM.

[124]  Donghui Zhang,et al.  Top-Down Multidimensional Mass Spectrometry Methods for Synthetic Polymer Analysis , 2011 .

[125]  C. Higginbotham,et al.  Polymer Molecular Weight Analysis by 1H NMR Spectroscopy , 2011 .

[126]  N. Lockyer,et al.  TOF-SIMS with argon gas cluster ion beams: a comparison with C60+. , 2011, Analytical chemistry.

[127]  Xiaopeng Li,et al.  Gradient tandem mass spectrometry interfaced with ion mobility separation for the characterization of supramolecular architectures. , 2011, Analytical chemistry.

[128]  P. Dugourd,et al.  Efficient Structural Characterization of Poly(Methacrylic Acid) by Activated-Electron Photodetachment Dissociation , 2011, Journal of The American Society for Mass Spectrometry.

[129]  Craig J. Hawker,et al.  Interdiffusion of PCBM and P3HT Reveals Miscibility in a Photovoltaically Active Blend , 2011 .

[130]  M. Sharman,et al.  An assessment of atmospheric-pressure solids-analysis probes for the detection of chemicals in food , 2010 .

[131]  C. R. Becer,et al.  Block Length Determination of the Block Copolymer mPEG-b-PS Using MALDI-TOF MS/MS , 2010 .

[132]  S. Trimpin,et al.  Rapid methods of polymer and polymer additives identification: multi-sample solvent-free MALDI, pyrolysis at atmospheric pressure, and atmospheric solids analysis probe mass spectrometry. , 2009, Analytica chimica acta.

[133]  J. Reilly,et al.  Peptide photodissociation with 157 nm light in a commercial tandem time-of-flight mass spectrometer. , 2009, Analytical chemistry.

[134]  U. Schubert,et al.  Tandem mass spectrometry of synthetic polymers. , 2009, Journal of mass spectrometry : JMS.

[135]  J. Simal-Gándara,et al.  A Review of Synthetic Polymer Characterization by Pyrolysis–GC–MS , 2009 .

[136]  John C. Vickerman,et al.  Surface analysis : the principal techniques , 2009 .

[137]  J. Banoub,et al.  Mass Spectrometry, Review of the Basics: Electrospray, MALDI, and Commonly Used Mass Analyzers , 2009 .

[138]  S. Weidner,et al.  Imaging mass spectrometry for examining localization of polymeric composition in matrix-assisted laser desorption/ionization samples. , 2009, Rapid communications in mass spectrometry : RCM.

[139]  Gavin E. Reid,et al.  Complementary precursor ion and neutral loss scan mode tandem mass spectrometry for the analysis of glycerophosphatidylethanolamine lipids from whole rat retina , 2009, Analytical and bioanalytical chemistry.

[140]  A. Marshall,et al.  Petroleomics: Chemistry of the underworld , 2008, Proceedings of the National Academy of Sciences.

[141]  K. Thalassinos,et al.  Structural analysis of synthetic polymer mixtures using ion mobility and tandem mass spectrometry. , 2008, Analytical chemistry.

[142]  L. Charles,et al.  Microstructural study of a nitroxide-mediated poly(ethylene oxide)/polystyrene block copolymer (PEO-b-PS) by electrospray tandem mass spectrometry , 2008, Journal of the American Society for Mass Spectrometry.

[143]  Steven J Ray,et al.  Atmospheric pressure chemical ionization source. 1. Ionization of compounds in the gas phase. , 2008, Analytical chemistry.

[144]  C. Wesdemiotis,et al.  Anionic Synthesis of Trialkoxysilyl-Functionalized Polymers , 2008 .

[145]  C. Wesdemiotis,et al.  Tandem mass spectrometry characteristics of silver-cationized polystyrenes: backbone degradation via free radical chemistry. , 2008, Analytical chemistry.

[146]  Michelle L. Reyzer,et al.  MALDI imaging mass spectrometry: molecular snapshots of biochemical systems , 2007, Nature Methods.

[147]  Rebecca L. Orndorff,et al.  MALDI-TOF/TOF CID Study of Polystyrene Fragmentation Reactions , 2007 .

[148]  Philipp Vana,et al.  Electrospray ionization mass spectrometric end-group analysis of PMMA produced by radical polymerization using diacyl peroxide initiators , 2007 .

[149]  Konstantinos Thalassinos,et al.  Novel software for the assignment of peaks from tandem mass spectrometry spectra of synthetic polymers , 2007, Journal of the American Society for Mass Spectrometry.

[150]  P. Gijsman,et al.  Photodegradation of bisphenol A polycarbonate , 2007 .

[151]  K. Thalassinos,et al.  An investigation of the mobility separation of some peptide and protein ions using a new hybrid quadrupole/travelling wave IMS/oa-ToF instrument , 2007 .

[152]  Huan-Cheng Chang,et al.  Matrix-assisted laser desorption/ionization (MALDI) mechanism revisited. , 2007, Analytica chimica acta.

[153]  C. Block,et al.  Identification of polymer additives by liquid chromatography–mass spectrometry , 2006 .

[154]  A. Beale,et al.  A combined SAXS/WAXS/XAFS setup capable of observing concurrent changes across the nano-to-micrometer size range in inorganic solid crystallization processes. , 2006, Journal of the American Chemical Society.

[155]  S Kim Ratanathanawongs Williams,et al.  Field-flow fractionation of proteins, polysaccharides, synthetic polymers, and supramolecular assemblies. , 2006, Journal of separation science.

[156]  Béla Paizs,et al.  Scrambling of sequence information in collision-induced dissociation of peptides. , 2006, Journal of the American Chemical Society.

[157]  G. Adamus,et al.  Sequence distribution in microbial poly(3-hydroxybutyrate-co-3-hydroxyvalerate) co-polyesters determined by NMR and MS. , 2006, Biomacromolecules.

[158]  K. Müllen,et al.  Solvent-free MALDI-MS: Developmental improvements in the reliability and the potential of MALDI in the analysis of synthetic polymers and giant organic molecules , 2006, Journal of the American Society for Mass Spectrometry.

[159]  G. Adamus,et al.  Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry with size-exclusion chromatographic fractionation for structural characterization of synthetic aliphatic copolyesters. , 2006, Rapid communications in mass spectrometry : RCM.

[160]  M. Montaudo,et al.  Characterization of synthetic polymers by MALDI-MS , 2006 .

[161]  Dietrich A. Volmer,et al.  Ion suppression: A major concern in mass spectrometry , 2006 .

[162]  C. McEwen,et al.  Analysis of solids, liquids, and biological tissues using solids probe introduction at atmospheric pressure on commercial LC/MS instruments. , 2005, Analytical chemistry.

[163]  H. Kim,et al.  Anionic Synthesis of Primary Amine Functionalized Polystyrenes via Hydrosilation of Allylamines with Silyl Hydride Functionalized Polystyrenes , 2005 .

[164]  R. Cody,et al.  Versatile new ion source for the analysis of materials in open air under ambient conditions. , 2005, Analytical chemistry.

[165]  A. Striegel Multiple Detection in Size-Exclusion Chromatography of Macromolecules , 2005 .

[166]  J. Kennedy,et al.  Synthesis and mass spectrometry characterization of centrally and terminally amine‐functionalized polyisobutylenes , 2005 .

[167]  J. Antignac,et al.  The ion suppression phenomenon in liquid chromatography–mass spectrometry and its consequences in the field of residue analysis , 2005 .

[168]  S. Hanton,et al.  Extending the solvent-free MALDI sample preparation method , 2005, Journal of the American Society for Mass Spectrometry.

[169]  K. Owens,et al.  MALDI PSD of low molecular weight ethoxylated polymers , 2004 .

[170]  R. Cooks,et al.  Mass Spectrometry Sampling Under Ambient Conditions with Desorption Electrospray Ionization , 2004, Science.

[171]  I. Teraoka Calibration of retention volume in size exclusion chromatography by hydrodynamic radius , 2004 .

[172]  Haifeng He,et al.  Quantitative analysis of synthetic polymers using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. , 2003, Analytical chemistry.

[173]  S. Williams,et al.  Coupling thermal field-flow fractionation with matrix-assisted laser desorption/ionization time-of-flight mass spectrometry for the analysis of synthetic polymers. , 2003, Analytical chemistry.

[174]  Nicholas Lockyer,et al.  A C60 primary ion beam system for time of flight secondary ion mass spectrometry: its development and secondary ion yield characteristics. , 2003, Analytical chemistry.

[175]  G. Hopfgartner,et al.  Rapid screening and characterization of drug metabolites using a new quadrupole-linear ion trap mass spectrometer. , 2003, Journal of mass spectrometry : JMS.

[176]  Klaus Dreisewerd,et al.  The desorption process in MALDI. , 2003, Chemical reviews.

[177]  Michael Karas,et al.  Ion formation in MALDI: the cluster ionization mechanism. , 2003, Chemical reviews.

[178]  C. Ho,et al.  Electrospray ionisation mass spectrometry: principles and clinical applications. , 2003, The Clinical biochemist. Reviews.

[179]  F. McLafferty,et al.  Sequencing of specific copolymer oligomers by electron-capture-dissociation mass spectrometry. , 2002, Journal of the American Chemical Society.

[180]  L. Cohen,et al.  Small molecule analysis by MALDI mass spectrometry , 2002, Analytical and bioanalytical chemistry.

[181]  M. Arnould,et al.  Investigation of ethylene oxide oligomerization during functionalization of poly(styryl)lithium using MALDI-TOF MS and NMR , 2002 .

[182]  S. Matsuyama,et al.  Evaluation of mass discrimination effects in the quantitative analysis of polydisperse polymers by matrix‐assisted laser desorption/ionization time‐of‐flight mass spectrometry using uniform oligostyrenes , 2001 .

[183]  R. Cotter,et al.  Atmospheric pressure MALDI/ion trap mass spectrometry. , 2000, Analytical chemistry.

[184]  Zenobi,et al.  A MALDI sample preparation method suitable for insoluble polymers , 2000, Analytical chemistry.

[185]  L. Prokai,et al.  Gel permeation chromatography coupled to fourier transform mass spectrometry for polymer characterization. , 1999, Analytical chemistry.

[186]  M. Nielen,et al.  Polymer Analysis by Liquid Chromatography/Electrospray Ionization Time-of-Flight Mass Spectrometry. , 1999, Analytical chemistry.

[187]  M. Hassellöv,et al.  Electrospray Mass Spectrometry as Online Detector for Low Molecular Weight Polymer Separations with Flow Field-Flow Fractionation , 1997 .

[188]  T. Selby,et al.  Dissociation characteristics of [M + X]+ ions (X = H, Li, Na, K) from linear and cyclic polyglycols , 1994, Journal of the American Society for Mass Spectrometry.

[189]  A. Benninghoven Surface analysis by Secondary Ion Mass Spectrometry (SIMS) , 1994 .

[190]  Michael G. Ikonomou,et al.  Electrospray-ion spray: a comparison of mechanisms and performance , 1991 .

[191]  M. Mann,et al.  Electrospray ionization for mass spectrometry of large biomolecules. , 1989, Science.

[192]  Koichi Tanaka,et al.  Protein and polymer analyses up to m/z 100 000 by laser ionization time-of-flight mass spectrometry , 1988 .

[193]  Dudley H. Williams,et al.  FAST ATOM BOMBARDMENT MASS SPECTROMETRY: A POWERFUL TECHNIQUE FOR THE STUDY OF POLAR MOLECULES , 1982 .

[194]  B. Munson,et al.  Pyrolysis/chemical ionization mass spectrometry of polymers , 1979 .

[195]  W. E. Wolstenholme Correlation of physical and polymer chain properties , 1968 .

[196]  E. Kendrick A Mass Scale Based on CH2 = 14.0000 for High Resolution Mass Spectrometry of Organic Compounds. , 1963 .