Topographical Vacuum Sealing of 3D-Printed Multiplanar Microfluidic Structures

Abstract: We demonstrate a novel way of creating three-dimensional microfluidic channels capable of following complex topographies. To this end, substrates with open channels and different geometries were 3D-printed, and the open channels were consecutively closed with a thermoplastic using a low-resolution vacuum-forming approach. This process allows the sealing of channels that are located on the surface of complex multiplanar topographies, as the thermoplastic aligns with the surface-shape (the macrostructure) of the… Show more

“…Various integration technologies are customized and developed based on specific experimental requirements and necessary adaptability adjustments. When developing systems tailored to particular requirements, researchers must contend with a multitude of challenges and issues, including avoiding leakage issues [25], ensuring pressure stability [29], and maintaining mechanical integrity [30]. This paper mainly introduces the manufacturing, integration methods, substrate materials, and the application of microfluidic technology in biosensors for miniature microfluidic biosensors.…”

Microfluidic biosensors: exploring various applications through diverse bonding methods

“…Various integration technologies are customized and developed based on specific experimental requirements and necessary adaptability adjustments. When developing systems tailored to particular requirements, researchers must contend with a multitude of challenges and issues, including avoiding leakage issues [25], ensuring pressure stability [29], and maintaining mechanical integrity [30]. This paper mainly introduces the manufacturing, integration methods, substrate materials, and the application of microfluidic technology in biosensors for miniature microfluidic biosensors.…”

Microfluidic biosensors: exploring various applications through diverse bonding methods

Sensor integration into microfluidic systems: trends and challenges

Single-use dye displacement colorimetry assay based on molecularly imprinted polymers: Towards fast and on-site detection of xylazine in alcoholic beverages