Aerocellulose: new highly porous cellulose prepared from cellulose− NaOH aqueous solutions R Gavillon, T Budtova Biomacromolecules 9 (1), 269-277, 2008 | 420 | 2008 |
Cellulose in NaOH–water based solvents: a review T Budtova, P Navard Cellulose 23 (1), 5-55, 2016 | 398 | 2016 |
Rheological properties of cellulose/ionic liquid solutions: from dilute to concentrated states M Gericke, K Schlufter, T Liebert, T Heinze, T Budtova Biomacromolecules 10 (5), 1188-1194, 2009 | 299 | 2009 |
Aerocellulose from cellulose–ionic liquid solutions: Preparation, properties and comparison with cellulose–NaOH and cellulose–NMMO routes R Sescousse, R Gavillon, T Budtova Carbohydrate Polymers 83 (4), 1766-1774, 2011 | 296 | 2011 |
Cellulose II aerogels: A review T Budtova Cellulose 26, 81-121, 2019 | 244 | 2019 |
Review on the production of polysaccharide aerogel particles K Ganesan, T Budtova, L Ratke, P Gurikov, V Baudron, I Preibisch, ... Materials 11 (11), 2144, 2018 | 242 | 2018 |
Cellulose aero-, cryo-and xerogels: Towards understanding of morphology control N Buchtová, T Budtova Cellulose 23, 2585-2595, 2016 | 222 | 2016 |
Aeropectin: fully biomass-based mechanically strong and thermal superinsulating aerogel C Rudaz, R Courson, L Bonnet, S Calas-Etienne, H Sallee, T Budtova Biomacromolecules 15 (6), 2188-2195, 2014 | 214 | 2014 |
Viscosity of cellulose− imidazolium-based ionic liquid solutions R Sescousse, KA Le, ME Ries, T Budtova The Journal of Physical Chemistry B 114 (21), 7222-7228, 2010 | 200 | 2010 |
Strong, thermally superinsulating biopolymer–silica aerogel hybrids by cogelation of silicic acid with pectin S Zhao, WJ Malfait, A Demilecamps, Y Zhang, S Brunner, L Huber, ... Angewandte Chemie 127 (48), 14490-14494, 2015 | 184 | 2015 |
Rheological properties and gelation of aqueous cellulose− NaOH solutions C Roy, T Budtova, P Navard Biomacromolecules 4 (2), 259-264, 2003 | 182 | 2003 |
Cellulose–silica aerogels A Demilecamps, C Beauger, C Hildenbrand, A Rigacci, T Budtova Carbohydrate polymers 122, 293-300, 2015 | 178 | 2015 |
An opinion paper on aerogels for biomedical and environmental applications CA García-González, T Budtova, L Durães, C Erkey, P Del Gaudio, ... Molecules 24 (9), 1815, 2019 | 167 | 2019 |
Morphology and molten-state rheology of polylactide and polyhydroxyalkanoate blends T Gerard, T Budtova European polymer journal 48 (6), 1110-1117, 2012 | 166 | 2012 |
Structure of aqueous solutions of microcrystalline cellulose/sodium hydroxide below 0 C and the limit of cellulose dissolution M Egal, T Budtova, P Navard Biomacromolecules 8 (7), 2282-2287, 2007 | 154 | 2007 |
The dissolution of microcrystalline cellulose in sodium hydroxide-urea aqueous solutions M Egal, T Budtova, P Navard Cellulose 15, 361-370, 2008 | 145 | 2008 |
Starch aerogels: A member of the family of thermal superinsulating materials L Druel, R Bardl, W Vorwerg, T Budtova Biomacromolecules 18 (12), 4232-4239, 2017 | 144 | 2017 |
Macroscopic and microscopic study of 1-ethyl-3-methyl-imidazolium acetate–water mixtures CA Hall, KA Le, C Rudaz, A Radhi, CS Lovell, RA Damion, T Budtova, ... The Journal of Physical Chemistry B 116 (42), 12810-12818, 2012 | 142 | 2012 |
Physically and chemically cross-linked cellulose cryogels: Structure, properties and application for controlled release D Ciolacu, C Rudaz, M Vasilescu, T Budtova Carbohydrate polymers 151, 392-400, 2016 | 128 | 2016 |
Thermal conductivity/structure correlations in thermal super-insulating pectin aerogels S Groult, T Budtova Carbohydrate Polymers 196, 73-81, 2018 | 122 | 2018 |