| Preparation and characterization of TEMPO-oxidized cellulose nanofibril films with free carboxyl groups S Fujisawa, Y Okita, H Fukuzumi, T Saito, A Isogai Carbohydrate polymers 84 (1), 579-583, 2011 | 462 | 2011 |
| Ultrastrong and high gas-barrier nanocellulose/clay-layered composites CN Wu, T Saito, S Fujisawa, H Fukuzumi, A Isogai Biomacromolecules 13 (6), 1927-1932, 2012 | 349 | 2012 |
| Nanocellulose-stabilized Pickering emulsions and their applications S Fujisawa, E Togawa, K Kuroda Science and Technology of advanced MaTerialS 18 (1), 959-971, 2017 | 260 | 2017 |
| Catalytic oxidation of cellulose with nitroxyl radicals under aqueous conditions A Isogai, T Hänninen, S Fujisawa, T Saito Progress in Polymer Science 86, 122-148, 2018 | 258 | 2018 |
| Surface engineering of ultrafine cellulose nanofibrils toward polymer nanocomposite materials S Fujisawa, T Saito, S Kimura, T Iwata, A Isogai Biomacromolecules 14 (5), 1541-1546, 2013 | 204 | 2013 |
| Superior reinforcement effect of TEMPO-oxidized cellulose nanofibrils in polystyrene matrix: optical, thermal, and mechanical studies S Fujisawa, T Ikeuchi, M Takeuchi, T Saito, A Isogai Biomacromolecules 13 (7), 2188-2194, 2012 | 177 | 2012 |
| The crystallinity of nanocellulose: dispersion-induced disordering of the grain boundary in biologically structured cellulose K Daicho, T Saito, S Fujisawa, A Isogai ACS Applied Nano Materials 1 (10), 5774-5785, 2018 | 160 | 2018 |
| TEMPO-oxidized cellulose nanofibrils dispersed in organic solvents Y Okita, S Fujisawa, T Saito, A Isogai Biomacromolecules 12 (2), 518-522, 2011 | 134 | 2011 |
| Facile route to transparent, strong, and thermally stable nanocellulose/polymer nanocomposites from an aqueous Pickering emulsion S Fujisawa, E Togawa, K Kuroda Biomacromolecules 18 (1), 266-271, 2017 | 101 | 2017 |
| Dual functions of tempo-oxidized cellulose nanofibers in oil-in-water emulsions: a pickering emulsifier and a unique dispersion stabilizer Y Goi, S Fujisawa, T Saito, K Yamane, K Kuroda, A Isogai Langmuir 35 (33), 10920-10926, 2019 | 92 | 2019 |
| Selective permeation of hydrogen gas using cellulose nanofibril film H Fukuzumi, S Fujisawa, T Saito, A Isogai Biomacromolecules 14 (5), 1705-1709, 2013 | 83 | 2013 |
| Mechanically strong, scalable, mesoporous xerogels of nanocellulose featuring light permeability, thermal insulation, and flame self-extinction W Sakuma, S Yamasaki, S Fujisawa, T Kodama, J Shiomi, K Kanamori, ... ACS nano 15 (1), 1436-1444, 2021 | 70 | 2021 |
| Comparison of mechanical reinforcement effects of surface-modified cellulose nanofibrils and carbon nanotubes in PLLA composites S Fujisawa, T Saito, S Kimura, T Iwata, A Isogai Composites Science and Technology 90, 96-101, 2014 | 70 | 2014 |
| Nanocellulose xerogels with high porosities and large specific surface areas S Yamasaki, W Sakuma, H Yasui, K Daicho, T Saito, S Fujisawa, A Isogai, ... Frontiers in Chemistry 7, 316, 2019 | 67 | 2019 |
| Nanocellulose film properties tunable by controlling degree of fibrillation of TEMPO-oxidized cellulose M Wakabayashi, S Fujisawa, T Saito, A Isogai Frontiers in Chemistry 8, 37, 2020 | 58 | 2020 |
| Low-birefringent and highly tough nanocellulose-reinforced cellulose triacetate H Soeta, S Fujisawa, T Saito, L Berglund, A Isogai ACS Applied Materials & Interfaces 7 (20), 11041-11046, 2015 | 55 | 2015 |
| Crystallinity-independent yet modification-dependent true density of nanocellulose K Daicho, K Kobayashi, S Fujisawa, T Saito Biomacromolecules 21 (2), 939-945, 2019 | 49 | 2019 |
| Improvement of mechanical and oxygen barrier properties of cellulose films by controlling drying conditions of regenerated cellulose hydrogels Q Yang, S Fujisawa, T Saito, A Isogai Cellulose 19, 695-703, 2012 | 47 | 2012 |
| Nano-dispersion of TEMPO-oxidized cellulose/aliphatic amine salts in isopropyl alcohol S Fujisawa, T Saito, A Isogai Cellulose 19, 459-466, 2012 | 44 | 2012 |
| Temperature and pH stability of cellouronic acid S Fujisawa, T Isogai, A Isogai Cellulose 17, 607-615, 2010 | 41 | 2010 |
