In either form, some new unpublished research may be included. Key Features Provides a quick introduction into the different aspects of this field Describes technology that has already revolutionized the world of chemical and biochemical analysis and synthesis All contributions are written by leading researchers in their respective fields Show more Provides a quick introduction into the different aspects of this field Describes technology that has already revolutionized the world of chemical and biochemical analysis and synthesis All contributions are written by leading researchers in their respective fields Details.
Later on, we can expect that lab-on-a-chip technologies will be able to provide real-time monitoring of health at home. Overcoming interfacing issues by adding fumed silica 21 November Read the latest issue of Highlights in Chemical Biology 13 December The latest developments in chemical biology - Issue 12 now available as an e-magazine!
The RapiDx lab-on-a-chip system from Sandia National Laboratories can analyze microlitre samples of blood or saliva for protein signatures for biotoxins at the point-of-care.
According to the developers, this device can significantly cut costs related to lab tests for diseases such as HIV, syphilis, and Lyme disease. Without a precise system to inject, split and control the positioning of samples, labs-on-a-chip are useless.
All the biomolecular operations done in labs-on-a-chip show great potential for ultra fast bacteria and virus detection, but also for disease biomarker identification DNA and RNA.
Thermoplastic polymers are widely used by researchers to fabricate labs-on-a-chip. Researchers that use your designs will be asked to acknowledge them through appropriate citation. The new LOC device employs microfluidics technology and makes these lab tests more affordable for researchers as well as patients.
The added value was not only limited to integration of lab processes for analysis but also the characteristic possibilities of individual components and the application to other, non-analysis, lab processes.
The emergence of the lab-on-a-chip field mainly relies on two core technologies: Initially most processes were in silicon, as these well-developed technologies were directly derived from semiconductor fabrication. Please note that for any manuscript with more than 10 co-authors the corresponding author must provide the editor with a statement to specify the contribution of each author.
Custom made production of cheap Luer lock adapters for chip-to-syringe interfacing 20 November Claudio Nastruzzi and colleagues demonstrate "custom made" production of cheap Luer lock adapters Making microfluidic membranes US scientists have made biocompatible membranes in microfluidic chips Seeing inside droplets Single molecules trapped in tiny droplets can be detected and counted Palmtop PCR 12 November Scientists in Korea are using convection to power a palmtop device for genetic point of care diagnostics Interview: At home with microfluidics 16 December Andrew deMello discusses lab-on-a-chip devices, the changing face of medicine and spin-out companies Emerging Investigators Call for Papers 14 December A call for papers for the special issue has been announced.
Typical advantages  are: As mentioned above, a big motivation for development of these is that they can potentially be manufactured at very low cost. As well as the analytical chemistry community, synthetic chemists, chemical engineers, biochemists and biomedical engineers are now also becoming more and more interested in using new micro- and nanotechnological techniques.
Bever, Siyuan Xing, Bruce D. Besides further application developments, research in LOC systems is expected to extend towards downscaling of fluid handling structures as well, by using nanotechnology. This adaptation of microfabrication techniques to polymers took the name of soft-lithography.
The first human genome projects took years and required the work of hundreds of researchers to sequence the human genome.
For some applications, lab-on-a-chip not only shows the capacity of integration and parallelization, but also demonstrates superior performance compared to conventional technologies.
Diagnostics using lab-on-a-chip will require a lot less handling and complex operations and in most cases, they will be able to be performed on site by a nurse.
Although the application of LOCs is still novel and modest, a growing interest of companies and applied research groups is observed in different fields such as analysis e.Jul 25, · Advances in the field of nanotechnology have led to the development of miniaturized devices called lab-on-a-chip (LOC).
Lithography, in particular, has helped create nanoscale impressions on the 4/4(1). Lab on a Chip provides a unique forum for the publication of significant and original work related to miniaturisation, at the micro- and nano-scale, of interest to a multidisciplinary readership.
The journal seeks to publish work at the interface between physical technological advancements and high. A lab-on-a-chip is a miniaturized device that integrates onto a single chip one or several analyses which are usually done in a laboratory, analyses such as DNA sequencing or biochemical detection.
A lab-on-a-chip (LOC) is a device that integrates one or several laboratory functions on a single integrated circuit (commonly called a "chip") of only millimeters to a few square centimeters to achieve automation and high-throughput screening.
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