Results 291 to 300 of about 203,653 (356)
Transforming microfluidics for single-cell analysis with robotics and artificial intelligence.
Lab ChipCheng J, Anne R, Chen YC.
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Reconfigurable microfluidics [PDF]
Nature Reviews Chemistry, 2021 Lab-on-a-chip devices leverage microfluidic technologies to enable chemical and biological processes at small scales. However, existing microfluidic channel networks are typically designed for the implementation of a single function or a well-defined protocol and do not allow the flexibility and real-time experimental decision-making essential to many ...
Federico Paratore +3 more
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Emerging Droplet Microfluidics
Chemical Reviews, 2017Luoran Shang, Yuanjin Zhao
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An outlook on microfluidics: the promise and the challenge.
Lab on a Chip, 2022This perspective considers ways in which the field of microfluidics can increase its impact by improving existing technologies and enabling new functionalities.
Sarah Battat, D. Weitz, G. Whitesides
semanticscholar +1 more source
Trends in Droplet Microfluidics: From Droplet Generation to Biomedical Applications.
Langmuir, 2022Over the past decade, droplet microfluidics has attracted growing interest in biology, medicine, and engineering. In this feature article, we review the advances in droplet microfluidics, primarily focusing on the research conducted by our group ...
Zhengkun Chen +3 more
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Microfluidics for Drug Development: From Synthesis to Evaluation.
Chemical Reviews, 2021Drug development is a long process whose main content includes drug synthesis, drug delivery, and drug evaluation. Compared with conventional drug development procedures, microfluidics has emerged as a revolutionary technology in that it offers a ...
Yuxiao Liu +4 more
semanticscholar +1 more source
Lab on a Chip, 2008
Droplet-based microfluidic systems have been shown to be compatible with many chemical and biological reagents and capable of performing a variety of "digital fluidic" operations that can be rendered programmable and reconfigurable. This platform has dimensional scaling benefits that have enabled controlled and rapid mixing of fluids in the droplet ...
Shia-Yen, Teh +3 more
openaire +2 more sources
Droplet-based microfluidic systems have been shown to be compatible with many chemical and biological reagents and capable of performing a variety of "digital fluidic" operations that can be rendered programmable and reconfigurable. This platform has dimensional scaling benefits that have enabled controlled and rapid mixing of fluids in the droplet ...
Shia-Yen, Teh +3 more
openaire +2 more sources
Analytical Chemistry, 2019
As nonbiodegradable plastics continue to pollute our land and oceans, countries are starting to ban the use of single-use plastics. In this paper, we demonstrated the fabrication of wood-based microfluidic devices and their adaptability for single-use, point-of-care (POC) applications.
Abhay Andar +9 more
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As nonbiodegradable plastics continue to pollute our land and oceans, countries are starting to ban the use of single-use plastics. In this paper, we demonstrated the fabrication of wood-based microfluidic devices and their adaptability for single-use, point-of-care (POC) applications.
Abhay Andar +9 more
openaire +2 more sources
Small, 2020
Exosomes are secreted by most cell types and circulate in body fluids. Recent studies have revealed that exosomes play a significant role in intercellular communication and are closely associated with the pathogenesis of disease.
Shujing Lin +8 more
semanticscholar +1 more source
Exosomes are secreted by most cell types and circulate in body fluids. Recent studies have revealed that exosomes play a significant role in intercellular communication and are closely associated with the pathogenesis of disease.
Shujing Lin +8 more
semanticscholar +1 more source
Soft Matter, 2016
Microchannels with asymmetrically ratcheted walls are here shown to behave as effective and versatile microfluidic pumps if locally heated. When the boundary walls have different temperatures, the confined liquid experiences a temperature gradient along the sawtooth edges, which can induce a thermoosmotic flow. A mesoscale molecular simulation approach
Mingcheng, Yang, Marisol, Ripoll
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Microchannels with asymmetrically ratcheted walls are here shown to behave as effective and versatile microfluidic pumps if locally heated. When the boundary walls have different temperatures, the confined liquid experiences a temperature gradient along the sawtooth edges, which can induce a thermoosmotic flow. A mesoscale molecular simulation approach
Mingcheng, Yang, Marisol, Ripoll
openaire +2 more sources