Universidad de Alicante posted this:Low cost sensors for the detection of gaseous hydrogen• New simple preparation method which does not require sophisticated instrumental techniques. • The procedure use low-cost materials and optimizes the loading of the metals employed. • This technology is efficient, producing robust and reliable sensors with high signal-to-response ratio and low cost. • The CNT and nanoparticle suspensions needed are stable and may be stored over long periods of time.
uacoopera posted this:Magnetic nanobeads for purification applicationsThese nanobeads combine high surface area, high affinity to metal ions and magnetic features. By merging these properties in one platform, these nanobeads provide a faster and less expensive method for the separation and enrichment of specific proteins, often present in biological media in very low concentrations, compared to conventional methods such as metal-ion affinity chromatography.
Universitat de València posted this:Passive sensor for in situ detection of amines in atmospheres Simplicity and ease of use: it is a passive colorimetric sensor that does not require any kind of pretreatment or power supply or external instrument. Low cost: simple fabrication process without high costs Low detection limits: suitable for use in real atmospheres, of the order of 3 mg/m3. Quantitative detection: direct quantitative detection can be carried out by diffuse reflectance of the sensors. Stability: against a wide range of temperatures and to humidity and solar radiation. Reversion resistance.
Universidad de Alcalá-OTRI posted this:Fully distributed temperature and strain fiber optic sensorThe sensor increases the measurement range to up to 100 km with a resolution of 2 m (50000 measurement points). It also allows dynamic strain measurements completing a full strain measurement per second in each of the 50000 measurement points.
Universidad de Alicante posted this:Novel method to fabricate highly selective sensors for different substances of interestThe research group "Electro catalysis and Electrochemistry of Polymers", Department of Physical Chemistry at the University of Alicante has developed a novel method that allows highly selective electrode manufacture biometrics to detect any biochemical substance of interest, food or environmental. The method is based on the electro assisted deposit of molecularly imprinted silica layers on different electrodes. This allows a fast and efficient detection of the molecule of interest, independently of the other interfering. In addition, allows the regeneration of the electrode in a very simple way and lets its usage almost indefinitely. Innovative aspects The biometrical electrode manufacturing method is based on a electro assisted method of molecularly imprinted silica layers on different electrodes. With this new procedure, we obtain uniform and consistent layers of silica that allow highly selective detection of any biochemical substance of interest, food or environmental when these electrodes are used as amperometric, voltammetric, impedimetric and potentiometric sensors. Main advantatges of the technology The main advantage of the electro assisted deposit respect to conventional methods of thin film deposition (spin-coating or dip-coating), lies in the control of consistency and porosity of the layers. Due to the prevention of uncontrolled pore formation, avoids the indiscriminate passage of species from the solution to the electrode surface, reducing the interference in the detection of the analyte of interest. It has a high specificity and affinity for the molecule of interest. High control on the deposition of silica when is done by electro assisted mode. The possibility of varying the thickness of the silica layer and layer morphology allows for a highly consistent and reproducible layer. Electro assisted deposit method is capable of "self-healing", i.e. prevents the formation of holes in the assisted layer that interfere with the detection of the molecule of interest. With continued use, the sensor loses its effectiveness by the collapse of the pores with the species to be determined. In this case, the regeneration process is very simple: just repeat the procedure for removing the template molecule to be performed after the gel layer (electrochemical extraction or cleaning solvents). Thus, the pores of the sensing phase are released for use again.
Technology Transfer Office
Universidade de Santiago de Compostela posted this:Sub-µL measurements of the thermal conductivity and heat capacity of liquidsThermalconductivity (K) and heat capacity (Cp) of a wide variety of liquids obtained from ≈ 0.6 μL samples. - Organic molecular solvents - Ionic liquids - Water–polymer mixtures
Small and Medium Enterprise
Creative Animodel posted this:In Vitro Pharmacological Assays at Creative AnimodelCreative Animodel is specialized in providing an integrated portfolio of qualified in vitro pharmacological assays to identify targets for drugs and screen drug candidates at an early stage. With standard and custom assays, we focus on offering our global clients cost-effective, high-quality and reproducible data and flexible solutions with a fast turnaround time.
Creative Diagnostics posted this:Rapid Test Kits at Creative DiagnosticsCreative Diagnostics is a fast developing biotech company providing products and services based on state-of-the-art technology. We offer high quality home health care kits such as HIV rapid test, Malaria rapid test, Rapid dengue test, Syphilis test and Influenza test.
RAMOT at Tel Aviv University Ltd. posted this:Compressed lightfield imagingCompressed lightfield imaging Project ID : 7-2013-577
RAMOT at Tel Aviv University Ltd. posted this:Hyperspectral detection of petroleum impurities in soilHyperspectral detection of petroleum impurities in soil Project ID : 6-2012-386
RAMOT at Tel Aviv University Ltd. posted this:Electrochemically Identifying and Measuring Genotoxins in WaterElectrochemically Identifying and Measuring Genotoxins in Water Project ID : 6-2009-48
RAMOT at Tel Aviv University Ltd. posted this:A low-complexity low-latency interactive communication system with spectral efficiency approaching the Shannon limitA low-complexity low-latency interactive communication system with spectral efficiency approaching the Shannon limit Project ID : 4-2014-792