Microfluidics in Polymers
Role of Polymers in Microfluidic Devices - PMC - NCBI
Recent advances in microfluidic technology allow the fabrication of polymeric matrix to construct microfluidic scaffolds for tissue engineering.
Polymer microfluidic devices - ScienceDirect.com
In this article, we present a review of polymer-based microfluidic systems including their material properties, fabrication methods, device applications,
Fabrication of Polymer Microfluidics: An Overview - MDPI
In this paper, the primary fabrication techniques for polymer microfluidics were reviewed and classified into two categories, eg, mold-based and non-mold-based ...
Microfluidics in Polymers, Paper, and Thread
Microfluidics is a field of research that explores the handling of minute amounts of liquids in tiny micrometer scale channels. This approach can reduce ...
Polymer‐based microfluidic devices: A comprehensive review on ...
This article reviews the basic preparation methods of polymer microfluidic systems and their applications in biology, medicine, and life in recent years.
Microfluidics: Innovations in Materials and Their Fabrication and ...
In this review, we describe recent advances in microfluidics with a focus on materials, and their fabrication and functionalization methods.
Microfluidic Combinatorial Polymer Research - TSAPPS at NIST
In this preprint, we review three microfluidics initiatives in the. Polymers Division at NIST: (a) device fabrication compatible with polymer formulations, (b) ...
We offer a large choice of different materials, ranging from a wide variety of polymers, via glass or silicon, to ceramics or metals.
Materials for microfluidic chips fabrication : a review 2017 - Elveflow
These materials can be classified as inorganic, polymeric, paper, hydrogels, and composites. This review mainly focuses on their properties for the fabrication ...
Polymer Microparticles Synthesis | Dolomite Microfluidics
Microfluidic droplet production methods for polymer microparticle generation include emulsifying polymers in solvent, or using the monomer mix followed by a ...
Developing Polymer Microfluidic Consumables - Micronit
Polymer is the most used material for microfluidic devices due to their lower cost, versatile manufacturing methods, biocompatibility, and repeatability.
(PDF) Fabrication of Polymer Microfluidics: An Overview
To fabricate microfluidic chips, silicon was the first to be used as a substrate material because its processing is highly correlated to ...
Polymers used in microfluidics are mainly transparent thermoplastic polymers. Most popular are PMMA (Polymethylmetacrylate), COC (Cyclo-olefin-copolymer, ...
Polymers for Microfluidic Devices: Surface Functionalization
At the same time, the surface of SEBS is inert and ideal for surface functionalization such as bioactive molecule immobilization. SEBS surface ...
Microfluidics Manufacturing - Glass v Polymers
Organic polymers have fast become more viable materials than silicon or glass since they exhibit excellent material properties while also being less expensive.
Rapid prototyping polymers for microfluidic devices and high ...
Multiple methods of fabrication exist for microfluidic devices, with different advantages depending on the end goal of industrial mass production or rapid ...
Developing advanced polymer films based on microfluidic laminar flow
In this review, we summarize the development of advanced polymer films with accurately controlled thickness in micro/nanometer, and heterogeneous structures ...
Polymer Microfluidics: Simple, Low-Cost Fabrication Process ... - MDPI
Using polymer materials to fabricate microfluidic devices provides simple, cost effective, and disposal advantages for both lab-on-a-chip ...
Role of polymers in microfluidic devices - University of Strathclyde
Indeed, recent advances in microfluidic technology allow the fabrication of polymeric matrix to construct microfluidic scaffolds for tissue ...
Biodegradable Polymers for Micro Elastofluidics - Wiley Online Library
This article provides an insightful and systematic review of the utilization of biodegradable polymers in digital and continuous-flow micro elastofluidics.