MEMS
Hybrid systems of micrometer details and nanometer coatings, as well as their macro-scale interfaces, can be precisely designed and implemented to meet the new generation miniaturization needs of modern medical instruments. Hard, flexible, or injection molding, photolithography, hot or cold embossing, thin film coating and lamination techniques could be utilized to create the MEMS device.
SensCoat
2020-2023
Development of innovative coatings and functional surfaces for Point of Care (POC) molecular in-vitro medical diagnosis.
ManuMEMS
2016-2018
The optimization and automation of the manufacturing process of smart BioMEMS devices with electrochemical sensor technology for rapid, quantitative and affordable HIV diagnosis.
GeneonCard
2016-2018
A disposable platform for fast molecular genetic analysis. Gold-standard quantitative PCR technology on a credit card size single-use platform. From DNA to result in less than 15 minutes.
Robots
SolarBiotec provides customized solutions for automating medical laboratory applications. Our custom-made robotic platforms work directly for your purpose, minimizing errors as well as the hands-on time.
Protocols involving sensitive liquid handling, transfer, mixing, magnetic separation, thermal incubation, cycling, shaking, absorbance and fluorescence measurement and other optical image analysis can be fully automated in a single robotic instrument.
X16
2016-2018
A fully automated nucleic acid extraction platform for low to medium throughput laboratories, capable of 16 parallel nucleic acid isolations from blood. The device uses its dedicated single-use pre-filled reagent cartridges.
MekGer
2016-2018
A servo motor controlled system for applying stretch on cells, which can be fine tuned in amplitude and frequency via a touch-screen remote interface. The device was suitable for functioning in 100% humidity and hot environment and for real time monitoring of cell status through a microscope.
Sensors
SolarBiotec provides customized solutions for automating medical laboratory applications. Our custom-made robotic platforms work directly for your purpose, minimizing errors as well as the hands-on time.
Protocols involving sensitive liquid handling, transfer, mixing, magnetic separation, thermal incubation, cycling, shaking, absorbance and fluorescence measurement and other optical image analysis can be fully automated in a single robotic instrument.
GalvanoPlot
2016-2018
Stand-alone mini-potentiostat module for voltametric and amperometric experiments on micro-electrochemical cells.
RapiTest
2015-2016
An electroptical Rapid-Test reader module dedicated to quantitative reading of standard reflective photometric and fluorescent IA strip testing.
FluoroPlot
2014-2016
Two channel stand-alone module for sensitive micro-fluorometric measurement. Small and energy saver with LED excitation and diode detection.