| Title | Publication
Date | Publication
Name | Author(s) | Research
Area(s) | Keywords |
|---|
| Effects of an aqueous surface modification via a grafting-through polymerization approach on the fibrillation and drying of bleached softwood kraft pulp (1) | 2022 | Cellulose | Christau, S.
Alyamac-Seydibeyoglu, E.
Thayer, K.
Gramlich, W. M. | Material Development & Characterization | polymer composites
polymerization
water retention value
WRVfiltration |
| Insight into mycelium-lignocellulosic bio-composites: Essential factors and properties | 2022 | Composites Part A: Applied Science and Manufacturing | Sun, W.
Tajvidi, M.
Howell, C.
Hunt, C. | Material Development & Characterization | bio-composites
composite systems
mycelium
yellow birch |
| Systematic Variation of Friction of Rods (1) | 2022 | Journal of Applied Mechanics | Khalil, I.
Tong, D.
Wang, G.
Jawed, M.K.
Khoda, B. | Material Development & Characterization | computational mechanics
elasticity
mechanical properties of materials |
| 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 |
| Interactions of Cellulose Nanofibrils with a Foliar Fertilizer and Wild Blueberry Leaves: Potential to Enhance Fruit Yield (1) | 2022 | ACS Agricultural Science & Technology | Tasnim, R.
Wang, L.
Parit, M.
Zhang, Y. | Material Development & Characterization | Composite Materials
Nanocellulose |
| Interactions of Cellulose Nanofibrils with a Foliar Fertilizer and Wild Blueberry Leaves: Potential to Enhance Fruit Yield (2) | 2022 | Agricultural Science & Technology | Tasnim, r.
Wang, l.
Parit, M.
Zhang, Y. | Material Development & Characterization | leaf water potential
nanomaterials
water balance
water loss
wettability
yield |
| Contact-dewatered cellulose nanomaterials for reinforced biopolymer composites | 2022 | Materials Today Communications | Collins, A.
Tajvidi, M. | Material Development & Characterization | Composite Materials Nanocellulose |
| Pretreatment of lignocellulosic feedstocks for cellulose nanofibril production | 2022 | Cellulose (2022) | MacKay, S. | Material Development & Characterization | CNF
Nanocellulose |
| Fungal and enzymatic pretreatments in hot-pressed lignocellulosic bio-composites: A critical review | 2022 | Journal of Cleaner Production | Sun, W.
Tajvidi, M.
Hunt, C.
Cole, B.
Howell, C.
Gardner, D. J.
Wang, J. | Material Development & Characterization | fungal mycelium
lignocellulosic biomass |
| Recyclable Grease-Proof Cellulose Nanocomposites
with Enhanced Water Resistance for Food Serving
Applications | 2022 | Research Square | Hossain, R.
Tajvidi, M.
Bousfield, D.
Gardner, D. J. | Material Development & Characterization | CNF
Composite Materials
Icnf |
Advanced Structures & Composites Center