Abstract
Direct-write patterning of multiple proteins on surfaces is of tremendous interest for a myriad of applications. Precise arrangement of different proteins at increasingly smaller dimensions is a fundamental challenge to apply the materials in tissue engineering, diagnostics, proteomics and biosensors. Herein we present a new resist that protects proteins during electron beam exposure and its application in direct-write patterning of multiple proteins. Polymers with pendant trehalose units are shown to effectively cross-link to surfaces as negative resists, while at the same time providing stabilization to proteins during the vacuum and electron beam irradiation steps. In this manner, arbitrary patterns of several different classes of proteins such as enzymes, growth factors and immunoglobulins are realized. Utilizing the high precision alignment capability of electron-beam lithography, surfaces with complex patterns of multiple proteins are successfully generated at the micrometer and nanometer scale without requiring cleanroom conditions.
Highlights
Direct-write patterning of multiple proteins on surfaces is of tremendous interest for a myriad of applications
electron-beam lithography (EBL) offers nanometre-scale alignment capability, which enables interfeature spacings that are so small that different protein features may be touching or arrayed one on top of the other allowing for complex, multiplexed patterns[6]
We describe a resist material, a trehalose glycopolymer that stabilizes a variety of proteins including antibodies and sensitive growth factors to repeated exposure to vacuum and to electron beams allowing for direct write by EBL, as well as multiplexing
Summary
Direct-write patterning of multiple proteins on surfaces is of tremendous interest for a myriad of applications. An aqueous solution containing the protein to be patterned and poly(SET) is first spin-coated onto silicon substrates. The poly(SET)-protein patterns are generated by EBL.
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