Industry Directory | Research Institute / Laboratory / School
LSI studies design technologies for circuits and systems. The objective is to research the interplay of hardware and software design for traditional (computation on silicon) and non-traditional (nanotechnology and biosensors)
Industry Directory | Manufacturer
Custom High Density Flex Circuit Process Design and Manufacturing In Days, not Weeks.
Industry News | 2016-03-30 08:36:47.0
The 2016 Medical Electronics Symposium will be held at Marylhurst University near Portland, Oregon, on September 14-15, 2016. SMTA, iNEMI, and MEPTEC have again joined forces to host the International Symposium, which will focus on innovation in electronic technologies and advanced manufacturing specifically targeting medical and bioscience applications. The Symposium will be chaired by Chuck Richardson of the International Electronics Manufacturing Initiative (iNEMI).
Industry News | 2017-05-23 20:48:59.0
The 2017 Medical Electronics Symposium will be held at University of Texas at Dallas, on May 16-17, 2018. SMTA, iNEMI, and MEPTEC have again joined forces to host the International Symposium, which will focus on innovation in electronic technologies and advanced manufacturing specifically targeting medical and bioscience applications. The Symposium will be chaired by Chuck Richardson of the International Electronics Manufacturing Initiative (iNEMI).
Technical Library | 2016-10-24 15:14:23.0
Biosensors – a new Sensor Type from IST AG What are Biosensors? A biosensor is a device capable of detecting a certain substance or analyte with high specificity. Examples of such analytes are glucose, lactate, glutamine and glutamate. Most biosensors measure the concentration of an analyte in an aqueous solution, usually producing an electrical signal, which is proportional to the analyte’s concentration in its measuring range. An enzymatic biosensor comprises an enzyme, which recognizes and reacts with the target analyte generating a chemical signal, a transducer, which produces a physical signal out of that chemical one, and an electronic amplifier, which conditions and amplifies the signal. Biosensors allow the analysis in complex biological media. The detection of a large number of compounds is of great relevance not only for scientific research but also for process control in the chemical and food industry. It is also indispensable in the health care field for the diagnosis and treatment of diseases and monitoring of illnesses. The pharmaceutical and biotechnology industries greatly desire frequent to continuous analysis of biological media. Such analyses are conducted with the aid of analytical instruments like HPLC systems, which, although robust and reliable, are expensive and have a limited suitability for online operation. For this reason, the acquisition of Jobst Technologies GmbH positions IST AG as a key provider of high-performance and reliable online biosensors.
Technical Library | 2021-02-17 22:13:39.0
The development of various biosensors has revolutionized the healthcare industry by providing rapid and reliable detection capability. Printed circuit board (PCB) technology has a well-established industry widely available around the world. In addition to electronics, this technology has been utilized to fabricate electrical parts, including electrodes for different biological and chemical sensors. High reproducibility achieved through long-lasting standard processes and low-cost resulting from an abundance of competitive manufacturing services makes this fabrication method a prime candidate for patterning electrodes and electrical parts of biosensors. The adoption of this approach in the fabrication of sensing platforms facilitates the integration of electronics and microfluidics with biosensors. In this review paper, the underlying principles and advances of printed board circuit technology are discussed. In addition, an overview of recent advancements in the development of PCB-based biosensors is provided. Finally, the challenges and outlook of PCB-based sensors are elaborated. doi:10.3390/bios10110159
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