| Abstract: | Microfluidic chips with nano‐scale structures have shown great potential, but the fabrication and cost issues restrict their application. Herein, we propose a conceptually new “DNA nanolithography in a microfluidic chip” by using sub‐10 nm three‐dimensional DNA structures (TDNs) as frameworks with a pendant aptamer at the top vertex (ApTDN‐Chip). The nano‐scale framework ensures that the aptamer is in a highly ordered upright orientation, avoiding the undesired orientation or crowding effects caused by conventional microfluidic interface fabrication processes. Compared with a monovalent aptamer modified chip, the capture efficiency of ApTDN‐Chip was enhanced nearly 60 % due to the highly precise dimension and rigid framework of TDNs. In addition, the scaffolds make DNase I more accessible to the aptamer with up to 83 % release efficiency and 91 % cell viability, which is fully compatible with downstream molecular analysis. Overall, this strategy provides a novel perspective on engineering nano‐scaffolds to achieve a more ordered nano‐topography of microfluidic chips. |
