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Hummink NAZCA High-Precision Capillary Flow Printer

$354,290S10FY2025ODNIH

Duke University, Durham NC

Investigators

Abstract

ABSTRACT Controlled deposition of materials is central to realizing a wide variety of biomedically relevant devices, from immunoassays to microfluidics. Well-established printing techniques such as inkjet and aerosol jet have opened new possibilities for scaling down material consumption while boosting performance of devices; however, these printers are limited to resolutions > 10 microns with restrictions on printable ink properties that often preclude utility in many biomolecule printing applications. The Hummink NAZCA printer is a first-of-its-kind capillary flow printer that offers < 1 µm resolution and compatibility with inks spanning a broad range of viscosities. Operation of the printer is simple: A small volume of ink is loaded into a glass micropipette, which is brought into close proximity with a substrate such that deposition proceeds via capillary forces. The system borrows its core operation control from atomic force microscopy (AFM), making it possible to offer dual functionality as a deposition and imaging tool. Over the last six months, Duke University has been the first institution in the United States to test the NAZCA via a rental agreement with Hummink and already the impact on numerous NIH-funded projects has been significant. We have realized the first fully printed submicron electronic biosensing transistors, demonstrated enhanced biomarker detection with printed nanoparticles for surface-enhanced Raman spectroscopy, and shown an order of magnitude reduction in costly biomolecular (e.g., antibody) ink usage for immunoassay printing. Hence, our team of 4 Major and 5 Minor Users seeks this S10 Shared Instrumentation Grant to support the acquisition of the NAZCA to continue supporting the already impacted projects and enable numerous other NIH-relevant work. Seven NIH-funded R01 projects will immediately be impacted by the advantages the NAZCA tool provides for high-resolution printing. Long-term objectives for the NAZCA are to provide a novel, shared-use instrument for low-volume, direct deposition of materials and to facilitate new research directions in spaces such as DNA origami, biomedical wearable sensors, and nanofiber formation for nerve defect repair.

View original record on NIH RePORTER →