AUTHOR=Lee Seungmin , Kim Jinhwan , Lee Na Eun , Kim Kang Hyeon , Park Seong Jun , Park Jeong Soo , Kim Cheonjung , Hong Ji Hye , Yoon Dae Sung , Yoo Yong Kyoung , Lee Jeong Hoon TITLE=Three-dimensional ready-to-pick reservoir-based preconcentrator with a pillar-structured channel for miRNA applications JOURNAL=Frontiers in Sensors VOLUME=3 YEAR=2022 URL=https://www.frontiersin.org/journals/sensors/articles/10.3389/fsens.2022.1066974 DOI=10.3389/fsens.2022.1066974 ISSN=2673-5067 ABSTRACT=

A sample preconcentration technique that exceeds a microfluidic device’s limited processing volume (up to microliters) is critical for real sample pretreatment applications. Here, we have developed a 3D-printed preconcentrator with a pillar structure (3DP2) to enrich the biological samples up to hundreds of microliter scales (700 μL) within 20 min by utilizing ion concentration polarization (ICP). We designed three-dimensional ready-to-pick reservoirs serially connected with a pillar-structured channel to enable large-volume preconcentration by balancing the preconcentrating forces (depletion, electrophoretic, and electroosmotic force) generated by ICP. Using the I-t and I-V curves, we confirmed that ICP performance was enhanced due to a pillar structure’s suppression of the vortex. Finally, we preconcentrated bovine serum albumin (BSA) and micro ribonucleic acid-21 (miRNA-21) two-fold. Moreover, depending on their size and charge, these were concentrated at different locations and could be extracted easily using pipettes. We believe that this study provides a novel strategy for downstream applications.