Microfluidics is used in many different fields from industrial production to academic research and represent an important and relevant growing market. The microfluidic device market is expected to grow quickly, from $2.56B in 2015 to $5.95B in 2020. This annual 18% growth will still be mainly d...
Healthcare technology, or “healthtech,” refers to the use of technologies developed for the purpose of improving any and all aspects of the healthcare system. From telehealth to robotic-assisted surgery, our guide will walk you through what it is and how it’s being used. ...
A brief theory of the relevant microfluidics with reasons for miniaturization is given. A Manz,JCT Eijkel - 《Pure & Applied Chemistry》 被引量: 95发表: 2001年 Dynamic Scoring: An Introduction to the Issues The controversy over dynamic scoring in the United States is not new. But the ...
“Transporting fluids is much harder than transporting electricity,” Ahrar said. “Every person who has worked on microfluidics learns this the hard way.” Frequently Asked Questions What does lab on a chip mean? Lab on a chip refers to compact devices capable of performing a number of laborat...
aInsert molding has become a popular process for several applications such as composite fabrication [2], packaging [3], microfluidics [4], etc. 插入物造型成为了一个普遍的过程为几种应用例如综合制造(2),包装(3), microfluidics (4)等等。[translate] ...
Hybridization kinetics Microfluidics 1. Introduction Fluorescence in situ hybridization is a technique that is used for the spatial detection and quantification of nucleic acids in their cellular environment. It has emerged as a powerful cytogenetic method for the analysis of cells and tissues on the ...
Relating to biology, what is melanoma? What major problems in translational stem-cell biology can be addressed using microfluidics tools? Describe lab safety and Scientific method. What is a biological attack? How might Xylene be used in a histology laboratory? What would be a suitable alternative...
Diagnostic assays Microarrays and microfluidics using engineered molecules to detect diseases Biotechnology Biotechnological developments have been at the heart of molecular engineering since its inception. Drexler compared classic engineering components to biological components in his seminal work on nanotechnology...
Microfluidics have, indeed, proven to be an indispensable toolkit for biological and biomedical research and development. Through accessibility to such methodologies for relatively fast and easy prototyping, PAP has the potential to considerably accelerate the impacts of microfluidics on the biological ...
Why is forensic chemistry primarily analytical chemistry? Why is it important that experiments be replicable? How have microfluidics revolutionized analytical chemistry? Why is stoichiometry important? What is the role of analytical chemistry in the petroleum industry?