{"id":"00954517","next":"","publications":{"selected_publication":[{"html":"

Mattsson J; Wyss HM; Fernandez-Nieves A; Miyazaki K; Hu ZB; Reichman DR; Weitz DA<\/span> (2009)<\/span> Soft colloids make strong glasses<\/span>. NATURE<\/span>, 462<\/span>, (7269)<\/span>, pp. 83-86<\/span>. <\/a><\/p>","publicationid":"137652","date":"2009-11-05","publicationtype":"Journal article","isfavourite":"1"},{"html":"

Mattsson J; Bergman R; Jacobsson P; B\u00f6rjesson L<\/span> (2008)<\/span> Effects of hydrogen bonding on supercooled liquid dynamics and the implications for supercooled water<\/span>. Physical Review B<\/span>, 79<\/span>, (17)<\/span>, pp. 174205<\/span>. <\/a><\/p>","publicationid":"137653","date":"2008-03-24","publicationtype":"Journal article","isfavourite":"1"}],"favourites":[],"journal_article":[{"html":"

Hobbs J; Mandle RJ; Mattsson J; Nagaraj M<\/span> (2026)<\/span> The effect of molecular shape and chemical structure on the photo-physical properties of liquid crystals<\/span>. Soft Matter<\/span>, 22<\/span>, (12)<\/span>, pp. 2350-2363<\/span>. <\/a> <\/a><\/p>","publicationid":"1268292","date":"2026-03-25","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Reynolds M; Baker DL; Olmsted PD; Mattsson J<\/span> (2025)<\/span> Chain-Length-Dependent Correlated Molecular Motion in Polymers<\/span>. Phys Rev Lett<\/span>, 135<\/span>, (21)<\/span>, pp. 218101<\/span>. <\/a> <\/a><\/p>","publicationid":"1128809","date":"2025-11-21","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Elliott RJ; Cutillo L; Das C; Mattsson J; Read DJ<\/span> (2025)<\/span> Using neural networks to deduce polymer molecular weight distributions from linear rheology<\/span>. Journal of Rheology<\/span>, 69<\/span>, (6)<\/span>, pp. 955-972<\/span>. <\/a> <\/a><\/p>","publicationid":"1106319","date":"2025-11-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Brierley-Croft S; Olmsted PD; Hine PJ; Mandle RJ; Chaplin A; Grasmeder J; Mattsson J<\/span> (2025)<\/span> Polymer Informatics Method for Fast and Accurate Prediction of the Glass Transition Temperature from Chemical Structure<\/span>. Macromolecules<\/span>, 58<\/span>, (13)<\/span>, pp. 6407-6417<\/span>. <\/a> <\/a><\/p>","publicationid":"1043548","date":"2025-07-08","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Street A; Mistry D; Mattsson J; Gleeson HF<\/span> (2025)<\/span> Geometry-Dependent Adhesion in Transparent Monodomain Liquid Crystal Elastomers<\/span>. Advanced Functional Materials<\/span>. <\/a> <\/a><\/p>","publicationid":"1139669","date":"2025-01-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Hobbs J; Mattsson J; Nagaraj M<\/span> (2024)<\/span> Analysing the Photo-Physical Properties of Liquid Crystals<\/span>. Crystals<\/span>, 14<\/span>, (4)<\/span>, pp. 362<\/span>. <\/a> <\/a><\/p>","publicationid":"654076","date":"2024-04-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

O'Connell A; Gonz\u00e1lez-Espinosa Y; Goycoolea FM; Schuetz P; Mattsson J<\/span> (2023)<\/span> Characterisation of locust bean gum with asymmetric flow field-flow fractionation (AF4) and light scattering<\/span>. Carbohydr Polym<\/span>, 322<\/span>, pp. 121286<\/span>. <\/a> <\/a><\/p>","publicationid":"629939","date":"2023-12-15","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Hobbs J; Reynolds M; Krishnappa Srinatha M; Shanker G; Mattsson J; Nagaraj M<\/span> (2023)<\/span> The relaxation dynamics and dielectric properties of cyanobiphenyl-based nematic tripod liquid crystals<\/span>. Journal of Molecular Liquids<\/span>, 391<\/span>, (Part A)<\/span>, pp. 123069<\/span>. <\/a> <\/a><\/p>","publicationid":"632760","date":"2023-12-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

O'Connell A; Goycoolea FM; Gulotta A; Holmqvist P; Schuetz P; Mattsson J<\/span> (2023)<\/span> The structure and dynamics of locust bean gum in aqueous solution<\/span>. Food Hydrocolloids<\/span>, 138<\/span>, pp. 108446<\/span>. <\/a> <\/a><\/p>","publicationid":"611478","date":"2023-05-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Pabst F; Kraus J; Reynolds M; Mattsson J; Blochowicz T<\/span> (2023)<\/span> Preserving fast ion dynamics while introducing mechanical rigidity in gelatin-based ionogels<\/span>. Soft Matter<\/span>, 19<\/span>, (7)<\/span>, pp. 1418-1428<\/span>. <\/a> <\/a><\/p>","publicationid":"612355","date":"2023-02-15","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Baker DL; Reynolds M; Masurel R; Olmsted PD; Mattsson J<\/span> (2022)<\/span> Cooperative Intramolecular Dynamics Control the Chain-Length-Dependent Glass Transition in Polymers<\/span>. Physical Review X<\/span>, 12<\/span>, (2)<\/span>, pp. 021047<\/span>. <\/a> <\/a><\/p>","publicationid":"587262","date":"2022-06-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Raistrick T; Reynolds M; Gleeson HF; Mattsson J<\/span> (2021)<\/span> Influence of Liquid Crystallinity and Mechanical Deformation on the Molecular Relaxations of an Auxetic Liquid Crystal Elastomer<\/span>. Molecules<\/span>, 26<\/span>, (23)<\/span>, pp. 7313<\/span>. <\/a> <\/a><\/p>","publicationid":"573642","date":"2021-12-02","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Raistrick T; Zhang Z; Mistry D; Mattsson J; Gleeson HF<\/span> (2021)<\/span> Understanding the physics of the auxetic response in a liquid crystal elastomer<\/span>. Physical Review Research<\/span>, 3<\/span>, (2)<\/span>, pp. 023191<\/span>. <\/a> <\/a><\/p>","publicationid":"560399","date":"2021-06-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Coubrough HM; Reynolds M; Goodchild JA; Connell SDA; Mattsson J; Wilson AJ<\/span> (2020)<\/span> Assembly of miscible supramolecular network blends using DDA\u00b7AAD hydrogen-bonding interactions of pendent side-chains<\/span>. Polymer Chemistry<\/span>, 11<\/span>, (21)<\/span>, pp. 3593-3604<\/span>. <\/a> <\/a><\/p>","publicationid":"522573","date":"2020-06-07","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Baker DL; Reynolds M; Masurel R; Olmsted PD; Mattsson J<\/span> (2019)<\/span> Cooperative intramolecular dynamics control the chain-length-dependent glass transition in polymers<\/span>. Physical Review X<\/span>, 12<\/span>, pp. 021047<\/span>. <\/a><\/p>","publicationid":"529159","date":"2019-11-29","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Behra JS; Mattsson J; Cayre OJ; Robles ESJ; Tang H; Hunter TN<\/span> (2019)<\/span> Characterization of Sodium Carboxymethyl Cellulose Aqueous Solutions to Support Complex Product Formulation: A Rheology and Light Scattering Study<\/span>. ACS Applied Polymer Materials<\/span>, 1<\/span>, (3)<\/span>, pp. 344-358<\/span>. <\/a> <\/a><\/p>","publicationid":"491895","date":"2019-03-08","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Cui G; Boudara VAH; Huang Q; Baeza GP; Wilson AJ; Hassager O; Read DJ; Mattsson J<\/span> (2018)<\/span> Linear shear and nonlinear extensional rheology of unentangled supramolecular side-chain polymers<\/span>. Journal of Rheology<\/span>, 62<\/span>, (5)<\/span>, pp. 1155-1174<\/span>. <\/a> <\/a><\/p>","publicationid":"477310","date":"2018-09-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Aufderhorst-Roberts A; Baker D; Foster RJ; Cayre O; Mattsson J; Connell SD<\/span> (2018)<\/span> Nanoscale mechanics of microgel particles<\/span>. Nanoscale<\/span>, 10<\/span>, (34)<\/span>, pp. 16050-16061<\/span>. <\/a> <\/a><\/p>","publicationid":"470255","date":"2018-08-30","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Fahimi Z; Aangenendt FJ; Voudouris P; Mattsson J; Wyss HM<\/span> (2017)<\/span> Diffusing-wave spectroscopy in a standard dynamic light scattering setup<\/span>. Phys Rev E<\/span>, 96<\/span>, (6-1)<\/span>, pp. 062611<\/span>. <\/a> <\/a><\/p>","publicationid":"454910","date":"2017-12-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Aangenendt FJ; Mattsson J; Ellenbroek WG; Wyss HM<\/span> (2017)<\/span> Mechanics from Calorimetry: Probing the Elasticity of Responsive Hydrogels<\/span>. Physical Review Applied<\/span>, 8<\/span>, (1)<\/span>, pp. 014003<\/span>. <\/a> <\/a><\/p>","publicationid":"436454","date":"2017-07-10","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Price HC; Mattsson J; Murray BJ<\/span> (2016)<\/span> Sucrose diffusion in aqueous solution<\/span>. Phys Chem Chem Phys<\/span>, 18<\/span>, (28)<\/span>, pp. 19207-19216<\/span>. <\/a> <\/a><\/p>","publicationid":"360074","date":"2016-07-28","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Price HC; Mattsson J; Zhang Y; Bertram AK; Davies JF; Grayson JW; Martin ST; O'Sullivan D; Reid JP; Rickards AMJ; Murray BJ<\/span> (2015)<\/span> Water diffusion in atmospherically relevant \u03b1-pinene secondary organic material<\/span>. Chem Sci<\/span>, 6<\/span>, (8)<\/span>, pp. 4876-4883<\/span>. <\/a> <\/a><\/p>","publicationid":"324957","date":"2015-08-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Price HC; Murray BJ; Mattsson J; O'Sullivan D; Wilson TW; Baustian KJ; Benning LG<\/span> (2014)<\/span> Quantifying water diffusion in high-viscosity and glassy aqueous solutions using a raman isotope tracer method<\/span>. Atmospheric Chemistry and Physics<\/span>, 14<\/span>, (8)<\/span>, pp. 3817-3830<\/span>. <\/a> <\/a><\/p>","publicationid":"290024","date":"2014-04-16","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Sillr\u00e9n P; Matic A; Karlsson M; Koza M; Maccarini M; Fouquet P; G\u00f6tz M; Bauer T; Gulich R; Lunkenheimer P; Loidl A; Mattsson J; Gainaru C; Vynokur E; Schildmann S; Bauer S; B\u00f6hmer R<\/span> (2014)<\/span> Liquid 1-propanol studied by neutron scattering, near-infrared, and dielectric spectroscopy<\/span>. The Journal of chemical physics<\/span>, 140<\/span>, (12)<\/span>, pp. 124501<\/span>. <\/a><\/p>","publicationid":"282630","date":"2014-03-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Price HC; Murray BJ; Mattsson J; O'Sullivan D; Wilson TW; Baustian KJ; Benning LG<\/span> (2013)<\/span> Quantifying water diffusion in high-viscosity and glassy aqueous solutions using a Raman isotope tracer method<\/span>. 13<\/span>, (11)<\/span>, pp. 29375-29411<\/span>. <\/a><\/p>","publicationid":"511697","date":"2013-11-08","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Sillr\u00e9n P; Swenson J; Mattsson J; Bowron D; Matic A<\/span> (2013)<\/span> The temperature dependent structure of liquid 1-propanol as studied by neutron diffraction and EPSR simulations<\/span>. The Journal of chemical physics<\/span>, 138<\/span>, (21)<\/span>, pp. 214501<\/span>. <\/a><\/p>","publicationid":"260093","date":"2013-06-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Sillr\u00e9n P; Bielecki J; Mattsson J; B\u00f6rjesson L; Matic A<\/span> (2012)<\/span> A statistical model of hydrogen bond networks in liquid alcohols<\/span>. The Journal of chemical physics<\/span>, 136<\/span>, (9)<\/span>, pp. 094514<\/span>. <\/a><\/p>","publicationid":"207825","date":"2012-03-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Muluneh M; Sprakel J; Wyss HM; Mattsson J; Weitz DA<\/span> (2011)<\/span> Direct visualization of pH-dependent evolution of structure and dynamics in microgel suspensions<\/span>. Journal of physics. Condensed matter : an Institute of Physics journal<\/span>, 23<\/span>, (50)<\/span>, pp. 505101<\/span>. <\/a><\/p>","publicationid":"155738","date":"2011-12-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Sjostrom J; Mattsson J; Bergman R; Swenson J<\/span> (2011)<\/span> Hydrogen Bond Induced Nonmonotonic Composition Behavior of the Glass Transition in Aqueous Binary Mixtures<\/span>. J PHYS CHEM B<\/span>, 115<\/span>, (33)<\/span>, pp. 10013-10017<\/span>. <\/a><\/p>","publicationid":"146508","date":"2011-08-25","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Sjostrom J; Bergman R; Wadell C; Moberg T; Swenson J; Mattsson J<\/span> (2011)<\/span> Effects of Water Contamination on the Supercooled Dynamics of a Hydrogen-Bonded Model Glass Former<\/span>. J PHYS CHEM B<\/span>, 115<\/span>, (8)<\/span>, pp. 1842-1847<\/span>. <\/a><\/p>","publicationid":"137817","date":"2011-03-03","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Fernandez-Nieves A; Wyss HM; Mattsson J; Weitz DA<\/span> (2011)<\/span> Microgel Suspensions: Fundamentals and Applications<\/span>. Microgel Suspensions Fundamentals and Applications<\/span>. <\/a><\/p>","publicationid":"277376","date":"2011-02-02","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Fernandez-Nieves A; Wyss HM; Mattsson J; Weitz DA<\/span> (2011)<\/span> Preface<\/span>. Microgel Suspensions: Fundamentals and Applications<\/span>, pp. xiii-xv<\/span>. <\/a><\/p>","publicationid":"270621","date":"2011-02-02","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Wyss HM; Mattsson J; Franke T; Fernandez\u2010Nieves A; Weitz DA<\/span> (2011)<\/span> Mechanics of Single Microgel Particles<\/span>. pp. 311-325<\/span>. <\/a><\/p>","publicationid":"270622","date":"2011-01-14","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Fernandez-Nieves A; Wyss HM; Mattsson J; Weitz DA<\/span> (2011)<\/span> Microgel Suspensions<\/span>. Microgel Suspensions: Fundamentals and Applications<\/span>. <\/a><\/p>","publicationid":"270620","date":"2011-01-14","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Eisenmann C; Kim C; Mattsson J; Weitz DA<\/span> (2010)<\/span> Shear Melting of a Colloidal Glass<\/span>. PHYS REV LETT<\/span>, 104<\/span>, (3)<\/span>, pp. 035502<\/span>. <\/a><\/p>","publicationid":"137651","date":"2010-01-22","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Eisenmann, C; Kim, C; Mattsson KJL; Weitz, DA<\/span> (2010)<\/span> Shear melting of a colloidal glass<\/span>. Physical Review Letters<\/span>, 104<\/span>, pp. 035502<\/span>. <\/a><\/p>","publicationid":"137853","date":"2010-01-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Sj\u00f6str\u00f6m, J; Mattsson, J; Bergman, R; Johansson, E; Josefsson, K; Svantesson, D; Swenson, J<\/span> (2010)<\/span> Dielectric secondary relaxation of water in aqueous binary glass-formers<\/span>. Physical Chemistry Chemical Physics<\/span>, 12<\/span>, pp. 10452<\/span>.<\/p>","publicationid":"137852","date":"2010-01-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Mattsson J; Wyss HM; Fernandez-Nieves A; Miyazaki K; Hu ZB; Reichman DR; Weitz DA<\/span> (2009)<\/span> Soft colloids make strong glasses<\/span>. NATURE<\/span>, 462<\/span>, (7269)<\/span>, pp. 83-86<\/span>. <\/a><\/p>","publicationid":"137652","date":"2009-11-05","publicationtype":"Journal article","isfavourite":"1"},{"html":"

Mattsson KJL; Bergman R; Jacobsson P; B\u00f6rjesson L<\/span> (2009)<\/span> Effects of hydrogen bonding on supercooled liquid dynamics and the implications for supercooled water<\/span>. Physical Review B<\/span>, 79<\/span>, pp. 174205<\/span>. <\/a><\/p>","publicationid":"137855","date":"2009-01-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Mattsson KJL; Wyss HM; Fernandez-Nieves A; Miyazaki K; Hu Z; Reichman DR; Weitz DA<\/span> (2009)<\/span> Soft colloids make strong glasses<\/span>. Nature<\/span>, 462<\/span>, pp. 83-86<\/span>. <\/a><\/p>","publicationid":"137854","date":"2009-01-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Mattsson J; Bergman R; Jacobsson P; B\u00f6rjesson L<\/span> (2008)<\/span> Effects of hydrogen bonding on supercooled liquid dynamics and the implications for supercooled water<\/span>. Physical Review B<\/span>, 79<\/span>, (17)<\/span>, pp. 174205<\/span>. <\/a><\/p>","publicationid":"137653","date":"2008-03-24","publicationtype":"Journal article","isfavourite":"1"},{"html":"

Roland CM; Casalini R; Bergman R; Mattsson J<\/span> (2008)<\/span> Role of hydrogen bonds in the supercooled dynamics of glass-forming liquids at high pressures<\/span>. Physical Review B Condensed Matter and Materials Physics<\/span>, 77<\/span>, (1)<\/span>, pp. 012201<\/span>. <\/a><\/p>","publicationid":"137818","date":"2008-01-23","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Wyss HM; Miyazaki K; Mattsson J; Hu ZB; Reichman DR; Weitz DA<\/span> (2007)<\/span> Strain-rate frequency superposition: A rheological probe of structural relaxation in soft materials<\/span>. PHYS REV LETT<\/span>, 98<\/span>, (23)<\/span>, pp. 238303<\/span>. <\/a><\/p>","publicationid":"137816","date":"2007-06-08","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Mattsson J; Bergman R; Jacobsson P; Borjesson L<\/span> (2005)<\/span> Influence of chain length on the alpha-beta bifurcation in oligomeric glass formers<\/span>. PHYS REV LETT<\/span>, 94<\/span>, (16)<\/span>, pp. 165701<\/span>. <\/a><\/p>","publicationid":"137815","date":"2005-04-29","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Cerveny S; Mattsson J; Swenson J; Bergman R<\/span> (2004)<\/span> Relaxations of hydrogen-bonded liquids confined in two-dimensional vermiculite clay<\/span>. Journal of Physical Chemistry B<\/span>, 108<\/span>, (31)<\/span>, pp. 11596-11603<\/span>. <\/a><\/p>","publicationid":"137821","date":"2004-08-05","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Bergman R; Mattsson J; Svanberg C; Schwartz GA; Swenson J<\/span> (2003)<\/span> Confinement effects on the excess wing in the dielectric loss of glass-formers<\/span>. Europhysics Letters<\/span>, 64<\/span>, (5)<\/span>, pp. 675-681<\/span>. <\/a><\/p>","publicationid":"137823","date":"2003-12-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Brodin A; Bergman R; Mattsson J; R\u00f6ssler EA<\/span> (2003)<\/span> Light scattering and dielectric manifestations of secondary relaxations in molecular glassformers<\/span>. European Physical Journal B<\/span>, 36<\/span>, (3)<\/span>, pp. 349-357<\/span>. <\/a><\/p>","publicationid":"137822","date":"2003-12-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Schwartz GA; Bergman R; Mattsson J; Swenson J<\/span> (2003)<\/span> Dielectric relaxation studies of poly(propylene glycol) confined in vermiculite clay<\/span>. EUR PHYS J E<\/span>, 12<\/span>, (S1)<\/span>, pp. S113-S116<\/span>. <\/a><\/p>","publicationid":"137814","date":"2003-11-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Herminghaus S; Jacobs K; Seemann R<\/span> (2003)<\/span> Viscoelastic dynamics of polymer thin films and surfaces<\/span>. Eur Phys J E Soft Matter<\/span>, 12<\/span>, (1)<\/span>, pp. 101-110<\/span>. <\/a><\/p>","publicationid":"193037","date":"2003-09-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Mattson J; Bergman R; Jacobsson P; B\u00f6rjesson L<\/span> (2003)<\/span> Chain-length-dependent relaxation scenarios in an oligomeric glass-forming system: From merged to well-separated \u03b1 and \u03b2 loss peaks<\/span>. Physical Review Letters<\/span>, 90<\/span>, (7)<\/span>, pp. 075702\/4<\/span>.<\/p>","publicationid":"572651","date":"2003-02-21","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Mattsson J; Bergman R; Jacobsson P; Borjesson L<\/span> (2003)<\/span> Chain-length-dependent relaxation scenarios in an oligomeric glass-forming system: From merged to well-separated alpha and beta loss peaks<\/span>. PHYS REV LETT<\/span>, 90<\/span>, (7)<\/span>, pp. 075702<\/span>. <\/a><\/p>","publicationid":"137813","date":"2003-02-21","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Forrest JA; Mattsson J; B\u00f6rjesson L<\/span> (2002)<\/span> Using adhesion to probe viscoelasticity of polymer film surfaces: a quartz crystal microbalance study<\/span>. Eur Phys J E Soft Matter<\/span>, 8<\/span>, (2)<\/span>, pp. 129-136<\/span>. <\/a><\/p>","publicationid":"137825","date":"2002-05-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Mattsson J<\/span> (2002)<\/span> Glass transition dynamics in soft condensed matter<\/span>. Doktorsavhandlingar Vid Chalmers Tekniska Hogskola<\/span>, (1896)<\/span>.<\/p>","publicationid":"189838","date":"2002-01-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Mattsson J; Forrest JA; Borjesson L<\/span> (2000)<\/span> Quantifying glass transition behavior in ultrathin free-standing polymer films<\/span>. PHYS REV E<\/span>, 62<\/span>, (4)<\/span>, pp. 5187-5200<\/span>. <\/a><\/p>","publicationid":"137812","date":"2000-10-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Forrest JA; Mattsson J<\/span> (2000)<\/span> Using polymer films to probe finite size effects in glass forming materials<\/span>. Journal De Physique IV JP<\/span>, 10<\/span>, (7)<\/span>, pp. Pr7<\/span>. <\/a><\/p>","publicationid":"188686","date":"2000-01-01","publicationtype":"Journal article","isfavourite":"0"},{"html":"

Forrest JA; Mattsson J<\/span> (2000)<\/span> Reductions of the glass transition temperature in thin polymer films: probing the length scale of cooperative dynamics<\/span>. Phys Rev E Stat Phys Plasmas Fluids Relat Interdiscip Topics<\/span>, 61<\/span>, (1)<\/span>, pp. R53-R56<\/span>. <\/a><\/p>","publicationid":"137829","date":"2000-01-01","publicationtype":"Journal article","isfavourite":"0"}],"conference_paper":[{"html":"

Bergman R; Mattsson J; Svanberg C<\/span> (2004)<\/span> Different routes to an understanding of the excess wing in the dielectric loss of glass-formers<\/span>. Aip Conference Proceedings<\/span>, pp. 615-618<\/span>. <\/a><\/p>","publicationid":"137820","date":"2004-04-30","publicationtype":"Conference paper","isfavourite":"0"},{"html":"

Matic A; Mattsson J; Bergman R<\/span> (2004)<\/span> Dynamics around the sol-gel transition in thermoreversible atactic polystyrene gels<\/span>. Aip Conference Proceedings<\/span>, pp. 72-75<\/span>. <\/a><\/p>","publicationid":"137819","date":"2004-04-30","publicationtype":"Conference paper","isfavourite":"0"},{"html":"

Mattson J; Matic A; Monaco G; Engberg D; B\u00f6rjesson L<\/span> (2003)<\/span> High-frequency collective excitations in a molecular glass-former<\/span>. Journal of Physics Condensed Matter<\/span>, pp. S1259-S1267<\/span>. <\/a><\/p>","publicationid":"137824","date":"2003-03-26","publicationtype":"Conference paper","isfavourite":"0"},{"html":"

Mattsson J; Forrest JA; Krozer A; S\u00f6dervall U; Wennerberg A; Torell LM<\/span> (2000)<\/span> Characterisation of sub micron salt-doped polymer electrolyte films<\/span>. Electrochimica Acta<\/span>, pp. 1453-1461<\/span>. <\/a><\/p>","publicationid":"137830","date":"2000-01-03","publicationtype":"Conference paper","isfavourite":"0"},{"html":"

Forrest JA; Mattsson J<\/span> (2000)<\/span> Using polymer films to probe finite size effects in glass forming materials<\/span>. JOURNAL DE PHYSIQUE IV<\/span>, pp. 251-254<\/span>. <\/a><\/p>","publicationid":"137828","date":"2000-01-01","publicationtype":"Conference paper","isfavourite":"0"}],"presentation_conference_workshop_etc_":[],"book":[{"html":"

Mattsson J; Fernandez-Nieves A; Mattsson J; Weitz DA eds<\/span> (2011)<\/span> Microgel Suspensions<\/span>. VCH<\/span>.<\/p>","publicationid":"137856","date":"2011-01-01","publicationtype":"Book","isfavourite":"0"}],"chapter":[{"html":"

Mattsson J<\/span> (2018)<\/span> The glass transition<\/span>. Fluids Colloids and Soft Materials an Introduction to Soft Matter Physics<\/span>, John Wiley & Sons, Inc<\/a>, pp. 249-278<\/span>. <\/a><\/p>","publicationid":"434134","date":"2018-01-01","publicationtype":"Chapter","isfavourite":"0"}],"conference_abstract":[],"preprint":[{"html":"

Street A; Berrow S; Wang Z; Cooper E; Mattsson J; Gleeson H<\/span> (2026)<\/span> Frustrated Smectic Liquid Crystal Elastomers as Multifunctional Mechanical Metamaterials<\/span>. Springer Science and Business Media LLC<\/span>. <\/a><\/p>","publicationid":"1277330","date":"2026-02-06","publicationtype":"Preprint","isfavourite":"0"},{"html":"

Zhao J; Warren NJ; Mandle R; Hine P; Read DJ; Wilson AJ; Mattsson J<\/span> (2025)<\/span> Ultra-stretchable and Self-Healable Vitrimers with Tuneable Damping and Mechanical Response<\/span>. arXiv<\/span>. <\/a><\/p>","publicationid":"987928","date":"2025-03-05","publicationtype":"Preprint","isfavourite":"0"},{"html":"

Brierley-Croft S; Olmsted PD; Hine PJ; Mandle RJ; Chaplin A; Grasmeder J; Mattsson J<\/span> (2024)<\/span> A fast transferable method for predicting the glass transition temperature of polymers from chemical structure<\/span>. arXiv<\/span>. <\/a><\/p>","publicationid":"885131","date":"2024-11-10","publicationtype":"Preprint","isfavourite":"0"},{"html":"

Reynolds M; Baker DL; Olmsted PD; Mattsson J<\/span> (2024)<\/span> Chain-length-dependent correlated molecular motion in polymers<\/span>. arXiv<\/span>. <\/a><\/p>","publicationid":"657155","date":"2024-05-04","publicationtype":"Preprint","isfavourite":"0"}],"report":[],"internet_publication":[],"performance":[],"composition":[],"exhibition":[],"poster":[],"artefact":[],"design":[],"patent":[],"scholarly_edition":[],"software_code":[],"thesis_dissertation":[],"other":[],"dataset":[{"html":"

Price H; Mattsson J; Murray B<\/span> (2016)<\/span> Datasets associated with \u2019Sucrose diffusion in aqueous solution\u2019<\/span>. <\/a><\/p>","publicationid":"381573","date":"2016-01-01","publicationtype":"Dataset","isfavourite":"0"}],"media":[],"working_paper":[]}}