| Current international research into cellulose nanofibres and nanocomposites SJ Eichhorn, A Dufresne, M Aranguren, NE Marcovich, JR Capadona, ... Journal of materials science 45, 1-33, 2010 | 2787 | 2010 |
| Current characterization methods for cellulose nanomaterials EJ Foster, RJ Moon, UP Agarwal, MJ Bortner, J Bras, ... Chemical Society Reviews 47 (8), 2609-2679, 2018 | 912 | 2018 |
| Environmental science and engineering applications of nanocellulose-based nanocomposites H Wei, K Rodriguez, S Renneckar, PJ Vikesland Environmental Science: Nano 1 (4), 302-316, 2014 | 359 | 2014 |
| Supramolecular structure characterization of molecularly thin cellulose I nanoparticles Q Li, S Renneckar Biomacromolecules 12 (3), 650-659, 2011 | 289 | 2011 |
| Nanocellulose life cycle assessment Q Li, S McGinnis, C Sydnor, A Wong, S Renneckar ACS Sustainable Chemistry & Engineering 1 (8), 919-928, 2013 | 249 | 2013 |
| A new bio-based nanocomposite: fibrillated TEMPO-oxidized celluloses in hydroxypropylcellulose matrix RK Johnson, A Zink-Sharp, SH Renneckar, WG Glasser Cellulose 16, 227-238, 2009 | 219 | 2009 |
| Biomimetic calcium phosphate crystal mineralization on electrospun cellulose-based scaffolds K Rodríguez, S Renneckar, P Gatenholm ACS applied materials & interfaces 3 (3), 681-689, 2011 | 180 | 2011 |
| Enzyme mediated nanofibrillation of cellulose by the synergistic actions of an endoglucanase, lytic polysaccharide monooxygenase (LPMO) and xylanase J Hu, D Tian, S Renneckar, JN Saddler Scientific reports 8 (1), 3195, 2018 | 177 | 2018 |
| Electrospinning cellulosic nanofibers for biomedical applications: structure and in vitro biocompatibility K Rodríguez, P Gatenholm, S Renneckar Cellulose 19, 1583-1598, 2012 | 117 | 2012 |
| np Heterojunction of TiO2-NiO core-shell structure for efficient hydrogen generation and lignin photoreforming H Zhao, CF Li, LY Liu, B Palma, ZY Hu, S Renneckar, S Larter, Y Li, ... Journal of Colloid and Interface Science 585, 694-704, 2021 | 104 | 2021 |
| Preparation and evaluation of nanocellulose–gold nanoparticle nanocomposites for SERS applications H Wei, K Rodriguez, S Renneckar, W Leng, PJ Vikesland Analyst 140 (16), 5640-5649, 2015 | 95 | 2015 |
| Sources of lignin S Haghdan, S Renneckar, GD Smith Lignin in polymer composites 1, 1-11, 2016 | 84 | 2016 |
| Nanocomposite-based lignocellulosic fibers 1. Thermal stability of modified fibers with clay-polyelectrolyte multilayers Z Lin, S Renneckar, DP Hindman Cellulose 15, 333-346, 2008 | 84 | 2008 |
| Molecularly thin nanoparticles from cellulose: isolation of sub-microfibrillar structures Q Li, S Renneckar Cellulose 16 (6), 1025-1032, 2009 | 81 | 2009 |
| Surface modification of cellulose fibers: towards wood composites by biomimetics SE Gradwell, S Renneckar, AR Esker, T Heinze, P Gatenholm, ... Comptes Rendus Biologies 327 (9-10), 945-953, 2004 | 80 | 2004 |
| Compositional analysis of thermoplastic wood composites by TGA S Renneckar, AG Zink‐Sharp, TC Ward, WG Glasser Journal of applied polymer science 93 (3), 1484-1492, 2004 | 79 | 2004 |
| A simple route to synthesize esterified lignin derivatives LY Liu, Q Hua, S Renneckar Green Chemistry 21 (13), 3682-3692, 2019 | 78 | 2019 |
| Nanocomposites prepared by in situ enzymatic polymerization of phenol with TEMPO-oxidized nanocellulose Z Li, S Renneckar, JR Barone Cellulose 17, 57-68, 2010 | 76 | 2010 |
| Uniform chemical functionality of technical lignin using ethylene carbonate for hydroxyethylation and subsequent greener esterification LY Liu, MJ Cho, N Sathitsuksanoh, S Chowdhury, S Renneckar ACS Sustainable Chemistry & Engineering 6 (9), 12251-12260, 2018 | 75 | 2018 |
| Cation− π interactions as a mechanism in technical lignin adsorption to cationic surfaces KV Pillai, S Renneckar Biomacromolecules 10 (4), 798-804, 2009 | 75 | 2009 |
