Concentration gradient generation methods based on microfluidic systems
X Wang, Z Liu, Y Pang - RSC advances, 2017 - pubs.rsc.org
Various concentration gradient generation methods based on microfluidic systems are
summarized in this paper. The review covers typical structural characteristics, gradient …
summarized in this paper. The review covers typical structural characteristics, gradient …
Microfluidics for neuronal cell and circuit engineering
The widespread adoption of microfluidic devices among the neuroscience and neurobiology
communities has enabled addressing a broad range of questions at the molecular, cellular …
communities has enabled addressing a broad range of questions at the molecular, cellular …
Microfluidic organ/body-on-a-chip devices at the convergence of biology and microengineering
Recent advances in biomedical technologies are mostly related to the convergence of
biology with microengineering. For instance, microfluidic devices are now commonly found …
biology with microengineering. For instance, microfluidic devices are now commonly found …
Recent progress in the manipulation of biochemical and biophysical cues for engineering functional tissues
B Bakhshandeh, N Ranjbar, A Abbasi… - Bioengineering & …, 2023 - Wiley Online Library
Tissue engineering (TE) is currently considered a cutting‐edge discipline that offers the
potential for developing treatments for health conditions that negatively affect the quality of …
potential for developing treatments for health conditions that negatively affect the quality of …
Printing 3D gel polymer electrolyte in lithium-ion microbattery using stereolithography
Here we demonstrate the use of projection stereo-micro-lithography as a low-cost and high-
throughput method to fabricate three dimensional (3D) microbattery. An Ultraviolet (UV) …
throughput method to fabricate three dimensional (3D) microbattery. An Ultraviolet (UV) …
Gel integration for microfluidic applications
X Zhang, L Li, C Luo - Lab on a Chip, 2016 - pubs.rsc.org
Molecular diffusive membranes or materials are important for biological applications in
microfluidic systems. Hydrogels are typical materials that offer several advantages, such as …
microfluidic systems. Hydrogels are typical materials that offer several advantages, such as …
A review of chemical gradient systems for cell analysis
Microfluidic spatial and temporal gradient generators have played an important role in many
biological assays such as in the analysis of wound healing, inflammation, and cancer …
biological assays such as in the analysis of wound healing, inflammation, and cancer …
Methacrylate silatrane: new building block for development of functional polymeric coatings through controlled silanization
CT Chiang, VT Vu, YT Cheng… - ACS Applied Materials & …, 2023 - ACS Publications
Organosilicons are prevalent for the development of nanostructures, adhesives, fillers, and
surface functionalization due to their ease of operation, availability, and effective …
surface functionalization due to their ease of operation, availability, and effective …
Photografting of Surface‐Assembled Hydrogel Prepolymers to Elastomeric Substrates for Production of Stimuli‐Responsive Microlens Arrays
JM Kapitan, G Minnick, BP Watts… - Advanced Functional …, 2024 - Wiley Online Library
Hydrogels have emerged as prototypical stimuli‐responsive materials with potential
applications in soft robotics, microfluidics, tissue engineering, and adaptive optics. To …
applications in soft robotics, microfluidics, tissue engineering, and adaptive optics. To …
Microfluidic devices and their applications
Microfluidics and nanofluidics is a field of science that operates in the micrometer and
nanometer scale. A microfluidic–nanofluidic device consists of components such as valves …
nanometer scale. A microfluidic–nanofluidic device consists of components such as valves …