Synthesis, toxicity, biocompatibility, and biomedical applications of graphene and graphene-related materials
S Gurunathan, JH Kim - International journal of nanomedicine, 2016 - Taylor & Francis
Graphene is a two-dimensional atomic crystal, and since its development it has been
applied in many novel ways in both research and industry. Graphene possesses unique …
applied in many novel ways in both research and industry. Graphene possesses unique …
Manipulation of stem cells fates: the master and multifaceted roles of biophysical cues of biomaterials
X Wan, Z Liu, L Li - Advanced Functional Materials, 2021 - Wiley Online Library
Owing to their self‐renewal and differentiation ability, stem cells are conducive for repairing
injured tissues, making them a promising source of seed cells for tissue engineering. The …
injured tissues, making them a promising source of seed cells for tissue engineering. The …
Additively manufactured porous metallic biomaterials
AA Zadpoor - Journal of Materials Chemistry B, 2019 - pubs.rsc.org
Additively manufactured (AM,= 3D printed) porous metallic biomaterials with topologically
ordered unit cells have created a lot of excitement and are currently receiving a lot of …
ordered unit cells have created a lot of excitement and are currently receiving a lot of …
Membrane curvature underlies actin reorganization in response to nanoscale surface topography
Surface topography profoundly influences cell adhesion, differentiation, and stem cell fate
control. Numerous studies using a variety of materials demonstrate that nanoscale …
control. Numerous studies using a variety of materials demonstrate that nanoscale …
Nanotopographical surfaces for stem cell fate control: engineering mechanobiology from the bottom
During embryogenesis and tissue maintenance and repair in an adult organism, a myriad of
stem cells are regulated by their surrounding extracellular matrix (ECM) enriched with …
stem cells are regulated by their surrounding extracellular matrix (ECM) enriched with …
Nano-bio interactions of 2D molybdenum disulfide
Abstract Two-dimensional (2D) molybdenum disulfide (MoS 2) is an ultrathin nanomaterial
with a high degree of anisotropy, surface-to-volume ratio, chemical functionality and …
with a high degree of anisotropy, surface-to-volume ratio, chemical functionality and …
Trends in mechanobiology guided tissue engineering and tools to study cell-substrate interactions: a brief review
AK Rajendran, D Sankar, S Amirthalingam… - Biomaterials …, 2023 - Springer
Sensing the mechanical properties of the substrates or the matrix by the cells and the
tissues, the subsequent downstream responses at the cellular, nuclear and epigenetic levels …
tissues, the subsequent downstream responses at the cellular, nuclear and epigenetic levels …
Graphene-based scaffolds for regenerative medicine
P Bellet, M Gasparotto, S Pressi, A Fortunato, G Scapin… - Nanomaterials, 2021 - mdpi.com
Leading-edge regenerative medicine can take advantage of improved knowledge of key
roles played, both in stem cell fate determination and in cell growth/differentiation, by …
roles played, both in stem cell fate determination and in cell growth/differentiation, by …
Mechanotransduction in neuronal cell development and functioning
Although many details remain still elusive, it became increasingly evident in recent years
that mechanosensing of microenvironmental biophysical cues and subsequent …
that mechanosensing of microenvironmental biophysical cues and subsequent …
Regulation and directing stem cell fate by tissue engineering functional microenvironments: scaffold physical and chemical cues
F Xing, L Li, C Zhou, C Long, L Wu, H Lei… - Stem cells …, 2019 - Wiley Online Library
It is well known that stem cells reside within tissue engineering functional
microenvironments that physically localize them and direct their stem cell fate. Recent efforts …
microenvironments that physically localize them and direct their stem cell fate. Recent efforts …