Reinforcement of collagen with covalently-functionalized single-walled carbon nanotube crosslinkers
暂无分享,去创建一个
[1] M. Saboungi,et al. Self-assembled lamellar structures with functionalized single wall carbon nanotubes. , 2007, Chemical communications.
[2] H. Ju,et al. Amperometric Biosensor for Hydrogen Peroxide Based on Myoglobin Doped Multiwalled Carbon Nanotube Enhanced Grafted Collagen Matrix , 2007 .
[3] H. Ju,et al. Direct Electron Transfer of Hemoglobin Immobilized in Multiwalled Carbon Nanotubes Enhanced Grafted Collagen Matrix for Electrocatalytic Detection of Hydrogen Peroxide , 2007 .
[4] J. Tour,et al. Functionalization of single-walled carbon nanotubes "on water". , 2006, Journal of the American Chemical Society.
[5] H. Sheardown,et al. Dendrimer crosslinked collagen as a corneal tissue engineering scaffold: mechanical properties and corneal epithelial cell interactions. , 2006, Biomaterials.
[6] H. Sheardown,et al. Crosslinking of collagen with dendrimers. , 2005, Journal of biomedical materials research. Part A.
[7] Jan P Stegemann,et al. Collagen-carbon nanotube composite materials as scaffolds in tissue engineering. , 2005, Journal of biomedical materials research. Part A.
[8] M. Prato,et al. Biomedical applications of functionalised carbon nanotubes. , 2005, Chemical communications.
[9] Zbigniew Ruszczak,et al. Effect of collagen matrices on dermal wound healing. , 2003, Advanced drug delivery reviews.
[10] Joel Rosenblatt,et al. Collagen gel systems for sustained delivery and tissue engineering. , 2003, Advanced drug delivery reviews.
[11] David R. Olsen,et al. Recombinant collagen and gelatin for drug delivery. , 2003, Advanced drug delivery reviews.
[12] Stephen F Badylak,et al. The extracellular matrix as a scaffold for tissue reconstruction. , 2002, Seminars in cell & developmental biology.
[13] Shawn M. Sweeney,et al. Mapping the Ligand-binding Sites and Disease-associated Mutations on the Most Abundant Protein in the Human, Type I Collagen* , 2002, The Journal of Biological Chemistry.
[14] A. Grodzinsky,et al. The effects of cross-linking of collagen-glycosaminoglycan scaffolds on compressive stiffness, chondrocyte-mediated contraction, proliferation and biosynthesis. , 2001, Biomaterials.
[15] C. W. Lin,et al. Diffusion characteristics of collagen film. , 2001, Journal of controlled release : official journal of the Controlled Release Society.
[16] Yugyung Lee,et al. Biomedical applications of collagen. , 2001, International journal of pharmaceutics.
[17] P. Avouris,et al. Nanotubes for electronics. , 2000, Scientific American.
[18] Erik Dujardin,et al. Young's modulus of single-walled nanotubes , 1998 .
[19] W. Friess,et al. Collagen--biomaterial for drug delivery. , 1998, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.
[20] M. Sheu,et al. Characterization of collagen isolation and application of collagen gel as a drug carrier , 1997 .
[21] Girardot Jm,et al. Amide cross-linking: an alternative to glutaraldehyde fixation. , 1996 .
[22] A. Huc,et al. Evaluation of different chemical methods for cros-linking collagen gel, films and sponges , 1996 .
[23] J. Feijen,et al. Tissue Regenerating Capacity of Carbodiimide-Crosslinked Dermal Sheep Collagen during Repair of the Abdominal Wall , 1994, The International journal of artificial organs.
[24] J. Feijen,et al. Relations between in vitro cytotoxicity and crosslinked dermal sheep collagens. , 1992, Journal of biomedical materials research.
[25] C. Lacabanne,et al. The effect of aluminum ions and sorbitol on collagen and skin: a thermally stimulated current spectroscopy study. , 1991, Journal of biomedical materials research.
[26] D. Speer,et al. Biological effects of residual glutaraldehyde in glutaraldehyde-tanned collagen biomaterials. , 1980, Journal of biomedical materials research.
[27] F. Leonard,et al. Prolonged resorption of collagen sponges: Vapor‐phase treatment with formaldehyde , 1973 .
[28] R. D. Harkness. BIOLOGICAL FUNCTIONS OF COLLAGEN , 1961, Biological reviews of the Cambridge Philosophical Society.
[29] P. Flory,et al. STATISTICAL MECHANICS OF CROSS-LINKED POLYMER NETWORKS II. SWELLING , 1943 .
[30] James M. Tour,et al. Dissolution of small diameter single-wall carbon nanotubes in organic solvents? , 2001 .
[31] J. M. Lee,et al. Control of pH alters the type of cross-linking produced by 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide (EDC) treatment of acellular matrix vascular grafts. , 2001, Journal of biomedical materials research.
[32] E. Khor. Methods for the treatment of collagenous tissues for bioprostheses. , 1997, Biomaterials.
[33] A. Jayakrishnan,et al. Glutaraldehyde as a fixative in bioprostheses and drug delivery matrices. , 1996, Biomaterials.
[34] J. Feijen,et al. In vitro degradation of dermal sheep collagen cross-linked using a water-soluble carbodiimide. , 1996, Biomaterials.
[35] D J Prockop,et al. Collagens: molecular biology, diseases, and potentials for therapy. , 1995, Annual review of biochemistry.
[36] J. Feijen,et al. Secondary cytotoxicity of cross-linked dermal sheep collagens during repeated exposure to human fibroblasts. , 1992, Biomaterials.