Scott et al., 2002
| Publication | Publication Date | Title |
|---|---|---|
| Scott et al. | Biological properties of hyaluronan in aqueous solution are controlled and sequestered by reversible tertiary structures, defined by NMR spectroscopy | |
| Wolf et al. | Hyaluronic acid: incorporating the bio into the material | |
| Snetkov et al. | Hyaluronic acid: The influence of molecular weight on structural, physical, physico-chemical, and degradable properties of biopolymer | |
| Lapčík et al. | Hyaluronan: preparation, structure, properties, and applications | |
| Chen et al. | Simultaneous enhancement of stiffness and toughness in hybrid double-network hydrogels via the first, physically linked network | |
| Gatej et al. | Role of the pH on hyaluronan behavior in aqueous solution | |
| Lavertu et al. | Heat-induced transfer of protons from chitosan to glycerol phosphate produces chitosan precipitation and gelation | |
| Fallacara et al. | Hyaluronic acid in the third millennium | |
| Cowman et al. | Viscoelastic properties of hyaluronan in physiological conditions | |
| Collins et al. | Comparison of the effectiveness of four different crosslinking agents with hyaluronic acid hydrogel films for tissue‐culture applications | |
| Kong et al. | Independent control of rigidity and toughness of polymeric hydrogels | |
| Tsukeshiba et al. | Effect of polymer entanglement on the toughening of double network hydrogels | |
| Desbrieres | Viscosity of semiflexible chitosan solutions: Influence of concentration, temperature, and role of intermolecular interactions | |
| Collins et al. | Physical properties of crosslinked hyaluronic acid hydrogels | |
| Da Silva et al. | Exploring the kinetics of gelation and final architecture of enzymatically cross-linked chitosan/gelatin gels | |
| Sahoo et al. | Hydrolytically degradable hyaluronic acid hydrogels with controlled temporal structures | |
| Patenaude et al. | Tuning gelation time and morphology of injectable hydrogels using ketone–hydrazide cross-linking | |
| Tae et al. | Formation of a novel heparin-based hydrogel in the presence of heparin-binding biomolecules | |
| Sannino et al. | Cellulose derivative− hyaluronic acid-based microporous hydrogels cross-linked through divinyl sulfone (DVS) to modulate equilibrium sorption capacity and network stability | |
| Berezney et al. | Electrostatic effects on the conformation and elasticity of hyaluronic acid, a moderately flexible polyelectrolyte | |
| Cowman et al. | 13C-NMR studies of hyaluronan: conformational sensitivity to varied environments | |
| Grande et al. | Glycosaminoglycan-mimetic biomaterials. 1. Nonsulfated and sulfated glycopolymers by cyanoxyl-mediated free-radical polymerization | |
| Matsuda et al. | Preparation of vinylated polysaccharides and photofabrication of tubular scaffolds as potential use in tissue engineering | |
| Morariu et al. | The behavior of chitosan in solvents with different ionic strengths | |
| Choudhury | Synthesis and rheological characterization of a novel thermostable quick setting composite hydrogel of gellan and pullulan |