| Title | Publication
Date | Publication
Name | Author(s) | Research
Area(s) | Keywords |
|---|
| Turning Recycled Cardboard Container-Derived Lignin-Containing Cellulose Nanofibrils into a Robust Gas Barrier UV-Shielding Film | 2023 | ACS Sustainable Chemical Engineering | Hasan, I.
Wang, J.
Bousfield, D.
Tajvidi, M. | Material Development & Characterization | cellulose nanofibrils
CNF |
| Aqueous-Based Polyimine Functionalization of Cellulose Nanofibrils for Effective Drying and Polymer Composite Reinforcement | 2022 | ACS Applied Polymer Materials | Lamm, M. E.
Li, K.
Copenhaver, K.
Kelly, P. V.
Senkum, H.
Tekinalp, H.
Gramlich, W. M.
Ozcan, S. | Material Development & Characterization | cellulose nanofibrils
CNF
Composite Materials
PETG
polyimine
surface treatment |
| Effects of an aqueous surface modification via a grafting?through polymerization approach on the fibrillation and drying of bleached softwood kraft pulp (2) | 2022 | Cellulose | Christau, S.
Alyamac-Seydibeyoglu, E.
Thayer, K.
Gramlich, W. M. | Wood Composites | bleached softwood kraft pulp
cellulose nanofibrils
CNF
fibrillation
grafting-through polymerization |
| Alignment of Cellulose Nanofibers: Harnessing Nanoscale Properties to Macroscale Benefits | 2021 | ACS Nano | Li, K.
Clarkson, C.
Wang, L.
Liu, Y.
Lamm, M. E.
Pang, Z.
Gardner D. J. | Material Development & Characterization | cellulose nanofibrils
CNF |
| Cellulose nanofibrils with and without nanosilica for the performance enhancement of Portland cement systems | 2021 | Construction and Building Materials | Kamasamudram, K.
Ashraf, W.
Landis, E. N. | Material Development & Characterization | cellulose nanofibrils
CNF
nanosilica |
| Aqueous Polymer Modification of Cellulose Nanofibrils by Grafting-Through a Reactive Methacrylate Group | 2021 | Macromolecular Rapid Communications | Kelly, P. V.
Cheng, P.
Gardner D. J.
Gramlich, W. M. | Material Development & Characterization | cellulose nanofibrils
CNF
IR spectrosopy
polymerization |
| Biopolymer blends of polyhydroxybutyrate and polyactic acid reinforced with cellulose nanofibrils | 2020 | Carbohydrate Polymers | Aydemir, D.
Gardner, D. J. | Material Development & Characterization | cellulose nanofibrils
Composite Materials
polyhydroxybutyrate
polylactic acid |
| Cellulose and lignocellulose nanofibril suspensions and films: A nanofibrils | 2020 | Carbohydrate Polymers | Amini, E.
Hafez, I.
Tajvidi, M.
Bousfield, D. | Material Development & Characterization | cellulose nanofibrils
CNFs
feedstock
lingocellulose nanofibrils |
| An Investigation on the Effects of Cellulose Nano-Fibrils (CNF) on the Performance of Cement Paste and Concrete (3) | 2019 | Advances in Civil Engineering Materials | Haddad Kolour, H.
Ahmed, M.
Alyaseen, E.
Landis, E. N. | Transportation Infrastrucutre Durability | bridges
cellulose nanofibrils
CNF |
| Dewatering Behavior of a Wood-Cellulose Nanofibril Particulate System | 2019 | Scientific Reports | Amini, E.
Tajvidi, M.
Bousfield, D.
Gardner, D. J.
Shaler, S. | Wood Composites | cellulose nanofibrils
CNF |
Advanced Structures & Composites Center