Spatiotemporally controlled photoresponsive hydrogels: design and predictive modeling from processing through application
Photoresponsive hydrogels (PRHs) are soft materials whose mechanical and chemical
properties can be tuned spatially and temporally with relative ease. Both photo …
properties can be tuned spatially and temporally with relative ease. Both photo …
Mechanical characterization and design of biomaterials for nucleus pulposus replacement and regeneration
ZL Li, Q Lu, JR Honiball, SHT Wan… - … Research Part A, 2023 - Wiley Online Library
Biomaterials for nucleus pulposus (NP) replacement and regeneration have great potential
to restore normal biomechanics in degenerated intervertebral discs following nucleotomy …
to restore normal biomechanics in degenerated intervertebral discs following nucleotomy …
Dual-layered approach of ovine collagen-gelatin/cellulose hybrid biomatrix containing graphene oxide-silver nanoparticles for cutaneous wound healing: fabrication …
Tissue engineering products have grown rapidly as an alternative solution available for
chronic wound and burn treatment. However, some drawbacks include additional …
chronic wound and burn treatment. However, some drawbacks include additional …
Embedded 3D printing of ultrasound‐compatible arterial phantoms with biomimetic elasticity
Here, a class of ink materials and an embedded 3D printing strategy for the fabrication of
macroscale elastic tissue‐mimetic constructs are presented. Novel inks composed of 10 wt …
macroscale elastic tissue‐mimetic constructs are presented. Novel inks composed of 10 wt …
[HTML][HTML] Measuring the elastic modulus of soft biomaterials using nanoindentation
D Xu, T Harvey, E Begiristain, C Domínguez… - Journal of the …, 2022 - Elsevier
The measurement of the elastic modulus of soft biomaterials via nanoindentation relies on
the accurate determination of the zero-point of the tip-sample interaction on which the depth …
the accurate determination of the zero-point of the tip-sample interaction on which the depth …
Doubly cross-linked nanocellulose hydrogels with excellent mechanical properties
H Xu, Y Liu, Y Xie, E Zhu, Z Shi, Q Yang, C Xiong - Cellulose, 2019 - Springer
Hydrogels are mostly used in biomedical sciences such as tissue engineering, drug
delivery, and in vitro diagnostics. Nanocellulose hydrogels have multiple advantages …
delivery, and in vitro diagnostics. Nanocellulose hydrogels have multiple advantages …
Graphene oxide-reinforced poly (2-hydroxyethyl methacrylate) hydrogels with extreme stiffness and high-strength
AT Pereira, PC Henriques, PC Costa… - … Science and Technology, 2019 - Elsevier
Designing hydrogels with high-strength and stiffness remains a challenge, limiting their
usage in several applications that involve load-bearing. In this work, in situ incorporation of …
usage in several applications that involve load-bearing. In this work, in situ incorporation of …
Silk granular hydrogels self-reinforced with regenerated silk fibroin fibers
Granular hydrogels with high stability, strength, and toughness are laborious to develop.
Post-curing is often employed to bind microgels chemically and enhance mechanical …
Post-curing is often employed to bind microgels chemically and enhance mechanical …
Tough and anisotropic Janus hydrogel for tendon injury repair with controlled release of bFGF in tendon microenvironment
Y Jiang, C Zhu, X Ma, D Fan - Chemical Engineering Journal, 2024 - Elsevier
To address the high complexity and challenging nature of large-scale tendon injury repair,
an innovative Janus structured hydrogel patch (JAHP@ bFGF) was designed in this study …
an innovative Janus structured hydrogel patch (JAHP@ bFGF) was designed in this study …
Characterization of Dual-Layer Hybrid Biomatrix for Future Use in Cutaneous Wound Healing
A skin wound without immediate treatment could delay wound healing and may lead to
death after severe infection (sepsis). Any interruption or inappropriate normal wound …
death after severe infection (sepsis). Any interruption or inappropriate normal wound …