多层石墨烯涂层的多功能无悬臂扫描探针阵列。

Multifunctional cantilever-free scanning probe arrays coated with multilayer graphene.

机构信息

Department of Materials Science and Engineering, Northwestern University, Evanston, IL 60208, USA.

出版信息

Proc Natl Acad Sci U S A. 2012 Nov 6;109(45):18312-7. doi: 10.1073/pnas.1216183109. Epub 2012 Oct 18.

DOI:10.1073/pnas.1216183109

PMID:23086161

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3494923/

Abstract

Scanning probe instruments have expanded beyond their traditional role as imaging or "reading" tools and are now routinely used for "writing." Although a variety of scanning probe lithography techniques are available, each one imposes different requirements on the types of probes that must be used. Additionally, throughput is a major concern for serial writing techniques, so for a scanning probe lithography technique to become widely applied, there needs to be a reasonable path toward a scalable architecture. Here, we use a multilayer graphene coating method to create multifunctional massively parallel probe arrays that have wear-resistant tips of uncompromised sharpness and high electrical and thermal conductivities. The optical transparency and mechanical flexibility of graphene allow this procedure to be used for coating exceptionally large, cantilever-free arrays that can pattern with electrochemical desorption and thermal, in addition to conventional, dip-pen nanolithography.

摘要

扫描探针仪器已经超越了其作为成像或“读取”工具的传统角色，现在通常用于“写入”。虽然有多种扫描探针光刻技术可用，但每种技术都对必须使用的探针类型提出了不同的要求。此外，对于串行写入技术来说，吞吐量是一个主要关注点，因此，要使扫描探针光刻技术得到广泛应用，就需要有一条合理的途径来实现可扩展的架构。在这里，我们使用多层石墨烯涂覆方法来制造多功能大规模并行探针阵列，这些探针阵列具有耐磨的、尖锐的、高导电性和导热性的尖端。石墨烯的光学透明性和机械柔韧性使得这种方法可以用于涂覆非常大的、无悬臂的阵列，这些阵列除了传统的浸笔纳米光刻技术之外，还可以通过电化学解吸和热来进行图案化。

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