A Novel Method for Fabricating Microfluidic Devices Containing Immobilized Biological Specimens

Abstract: Microfluidic devices are dominantly fabricated using the soft lithography microfabrication techniques and polydimethylsiloxane (PDMS) as a structural material. Although the technique is applicable for the majority of microfluidic devices, it has limited use for the fabrication of microfluidic devices with immobilized biological specimen due to the low biocompatibility- a consequence of the plasma-assisted bonding step during the assembly of the final device. In this step, biological specimens within the microf… Show more

“…For example, in order to manufacture robust glass-PDMS or ceramic-PDMS structures, a bonding step is required. A plasma activation is most commonly used, which is a challenging process [10,11]. Therefore, although more capable, they are incomparably more expensive in low volume manufacturing and too complex for in-house manufacturing for many biomedical researches.…”

3D-Printed Microfluidic Sensor for Fluorescence Measurements

“…For example, in order to manufacture robust glass-PDMS or ceramic-PDMS structures, a bonding step is required. A plasma activation is most commonly used, which is a challenging process [10,11]. Therefore, although more capable, they are incomparably more expensive in low volume manufacturing and too complex for in-house manufacturing for many biomedical researches.…”

3D-Printed Microfluidic Sensor for Fluorescence Measurements