| Title | Publication
Date | Publication
Name | Author(s) | Research
Area(s) | Keywords |
|---|
| Study the Mechanical Properties of Geopolymer under Different Curing Conditions | 2023 | Minerals | Liu, J.
Shi, X.
Zhang, G.
Li, L. | Material Development & Characterization | Geopolymer |
| Impact of Aqueous Grafting of Polystyrene through Methacrylate-Modified Cellulose Nanofibrils on Emulsion Stabilization and Drying Behavior | 2023 | Langmiur | Driscoll, M. E.
Kelley, P. V.
Gramlich, W. M. | Material Development & Characterization | Cellulose Nanofibrils |
| Bioinspired design toward nanocellulose-based materials (1) | 2023 | materialstoday | Zhao, X., Bhagia, S., Gomez-Maldonado, D., Tang, X., Wasti, S., Lu, S. | Material Development & Characterization | Bioinspired nanocellulose based materials Nanocellulose |
| Bioinspired design toward nanocellulose-based materials (2) | 2023 | materialstoday | Zhao, X.
Bhagia, S.
Gomez-Maldonado, D.
Tang, X.
Wasti, S.
Lu, S.
Zhang, S.
Parit, M.
Rencheck, M. L.
Korey, M.
Jiang, H.
Zhu, J.
Meng, X.
Lamm, M. E.
Copenhaver, K.
Peresin, M. S.
Wang, L,
Tekinalp, H.
Yang, G.
Kumar, V.
Chen, G.
Nawaz, K.
Chen, C.
Vaidya, U.
Ragauskas, A. J.
Webb, E.
Gardner, D. J.
He, P.
He, X.
Li, K.
Ozcan, S. | Material Development & Characterization | Nanocellulose |
| Characterization of spray dried cellulose nanobrils produced by disk rening process at different neness levels | 2023 | | Hwanga, S., Walker, C. C., Ozcan, S.
Tekinalp, H., Han, Y., Gardner D. J. | Material Development & Characterization | Cellulose Nanofibrils |
| Adhesion Theories in Naturally-Based Bonding (1) | 2023 | Biobased Adhesives: Sources, Characteristics and Applications | Gardner D. J.
Pokhrel, G.
Collins, A. | Material Development & Characterization | Adhesive |
| Adhesion Theories in Naturally-Based Bonding (2) | 2023 | Adhesion and Surface Issues with Naturally-Based Adhesives | Gardner, D. J.
Pokhrel, G.
Collins, A. | Material Development & Characterization | adhesion sealants |
| Polymer-Grafted Cellulose Nanofibrils with Enhanced Interfacial Compatibility for Stronger Poly(lactic acid) Composites (1) | 2023 | ACS Applied Polymer Materials | Kelly, P. V.
Shams Es-haghi, S.
Lamm, M. E.
Copenhaver, K.
Ozcan, S.
Gardner, D. J.
Gramlich, W. M. | Material Development & Characterization | Cellulose Nanofibrils |
| Polymer-Grafted Cellulose Nanofibrils with Enhanced Interfacial Compatibility for Stronger Poly(lactic acid) Composites (2) | 2023 | ACS Applied Polymer Materials | Kelly, P. V.
Es-hangi, S. S.
Lamm, M. E.
Copenhaver, K.
Ozcan, S.
Gardner, D. J.
Gramlich, W. M. | Material Development & Characterization | CNFS cellulose nanofibrils poly(lactic acid) polymer composites polymer grafting thermoplastic reinforcement |
| Life Cycle Assessment of Ti3 C2 Tx MXene Synthesis | 2023 | Europe PMC | Firouzjaei, M. D.
Nemani, S. K.
Sadrzadeh, M.
Wujcik, E. K.
Elliott, M.
Anasori, B. | Material Development & Characterization | MXenes |
Advanced Structures & Composites Center