design for manufacture

Feasability study for a 4M microfluidic mcirodosing application in the field of lubrication dosing for an industrial application is required.

This will be carried out as a 4M RAS Project.

The study requested is a preparation for a possible research and development project of a product that can perform fast separation and inactivation of biological fluids. Proteins, peptides and metabolites are rapidly degraded after extraction, which causes large problems for both academic and industrial protein research. In this study, Imego will investigate the feasibility of fabricating low-cost glass and polymer chips that combine microfluidic separation with Denator’s proprietary preservation technology.

FEMTO-ST has fully equipped clean room equipment (laser mask writer; photolithography; RIE and DRIE); hot embossing; ultrasonic machining.

For more information about the facilities available, visit the FEMTO-ST website at:

Electrical Discharge machine (IT Elektronika), Waterjet and Abrasive Waterjet machine (OMAX), Waterjet Incremental Sheet Metal Forming machine (Hefajst), Contact surface roughness measurement (Perthometer), various metrology equipment.down to 0.1nm

our research and advisory potential: http://www.s3.kth.se/mst/research/index.shtml.
For our cleanroom facilities: http://www.electrumlaboratoriet.se/.

The Microsystem Technology lab (MST) is a part of the department of Signals, Sensors and Systems (S3). Our research is mainly centered around Microelectromechanical Systems (MEMS) and its applications, with a focus on silicon-based applied sensor and actuator technology. Our research staff has developed a significant number of devices with promising performance. The group fabricates its silicon structures and devices at the KTH microelectronics laboratory, comprising 1200m2 of cleanroom area with all the facilities of small-scale microelectronics and for research on and development of special purpose structures and components in silicon. The group works on applications in the medical field (MedMEMS), the biotechnology field (BioMEMS), optical components (OptoMEMS) and radio frequency signal components (RFMEMS).