| 1 | Prevention of postoperative abdominal adhesions by a novel, glycerol/sodium hyaluronate/carboxymethylcellulose-based bioresorbable membrane: a prospective, randomized, evaluator-blinded multicenter study. (Cohen Z, Senagore AJ, Dayton MT, Koruda MJ, Beck DE, Wolff BG, Fleshner PR, Thirlby RC, Ludwig KA, Larach SW, Weiss EG, Bauer JJ, Holmdahl L) Dis Colon Rectum 2005 Jun;48(6):1130-9 92 Citations |
| 1 | Supramolecular composite materials from cellulose, chitosan, and cyclodextrin: facile preparation and their selective inclusion complex formation with endocrine disruptors. (Duri S, Tran CD) Langmuir 2013 Apr 23;29(16):5037-49 37 Citations |
| 1 | Chitosan-cellulose composite materials: preparation, characterization and application for removal of microcystin. (Tran CD, Duri S, Delneri A, Franko M) J Hazard Mater 2013 May 15;252-253:355-66 119 Citations |
| 2 | Facile synthesis, characterization, and antimicrobial activity of cellulose-chitosan-hydroxyapatite composite material: a potential material for bone tissue engineering. (Mututuvari TM, Harkins AL, Tran CD) J Biomed Mater Res A 2013 Nov;101(11):3266-77 53 Citations |
| 2 | Cellulose-Chitosan-Keratin Composite Materials: Synthesis, Immunological and Antibacterial Properties. (Rosewald M, Hou FY, Mututuvari T, Harkins AL, Tran CD) ECS Trans 2014;64(4):499-505 15 Citations |
| 1 | Chitosan-cellulose composite for wound dressing material. Part 2. Antimicrobial activity, blood absorption ability, and biocompatibility. (Harkins AL, Duri S, Kloth LC, Tran CD) J Biomed Mater Res B Appl Biomater 2014 Aug;102(6):1199-206 103 Citations |
| 1 | Periplasmic Cytophaga hutchinsonii Endoglucanases Are Required for Use of Crystalline Cellulose as the Sole Source of Carbon and Energy. (Zhu Y, Han L, Hefferon KL, Silvaggi NR, Wilson DB, McBride MJ) Appl Environ Microbiol 2016 Aug 01;82(15):4835-4845 45 Citations |
| 1 | Cellulose, Chitosan and Keratin Composite Materials: Facile and Recyclable Synthesis, Conformation and Properties. (Tran CD, Mututuvari TM) ACS Sustain Chem Eng 2016 Mar 07;4(3):1850-1861 74 Citations |
| 1 | Synthesis, structure and antimicrobial property of green composites from cellulose, wool, hair and chicken feather. (Tran CD, Prosenc F, Franko M, Benzi G) Carbohydr Polym 2016 Oct 20;151:1269-1276 55 Citations |
| 1 | Biocompatible Copper Oxide Nanoparticle Composites from Cellulose and Chitosan: Facile Synthesis, Unique Structure, and Antimicrobial Activity. (Tran CD, Makuvaza J, Munson E, Bennett B) ACS Appl Mater Interfaces 2017 Dec 13;9(49):42503-42515 90 Citations |
| 1 | Tissue Response and Biodistribution of Injectable Cellulose Nanocrystal Composite Hydrogels (De France KJ, Badv M, Dorogin J, Siebers E, Panchal V, Babi M, Moran-Mirabal J, Lawlor M, Cranston ED, Hoare T) ACS Biomaterials Science and Engineering 13 May 2019;5(5):2235-2246 52 Citations |
| 1 | Bio-extract amalgamated sodium alginate-cellulose nanofibres based 3D-sponges with interpenetrating BioPU coating as potential wound care scaffolds. (Yadav C, Chhajed M, Choudhury P, Sahu RP, Patel A, Chawla S, Goswami L, Goswami C, Li X, Agrawal AK, Saini A, Maji PK) Mater Sci Eng C Mater Biol Appl 2021 Jan;118:111348 18 Citations |
| 1 | Separable fluorous ionic liquids for the dissolution and saccharification of cellulose (Caes, B.R., Binder, J.B., Blank, J.J., Raines, R.T. ) Green Chemistry Caes, B.R., Binder, J.B., Blank, J.J., Raines, R.T. Separable fluorous ionic liquids for the dissolution and saccharification of cellulose. Green Chemistry. 2010; 13: 2719-22. |
© 2026 Clinical & Translational Science Institute