浸笔纳米光刻(DPN):从微/纳米模式到生物传感。

IF 3.1 4区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Chemical Research in Chinese Universities Pub Date : 2021-01-01 Epub Date: 2021-07-05 DOI:10.1007/s40242-021-1197-0
Haonan Li, Zhao Wang, Fengwei Huo, Shutao Wang
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引用次数: 5

摘要

浸入式纳米光刻技术是一种新兴的、有吸引力的表面修饰技术,它能够直接和可控地在不同的衬底上书写微/纳米阵列图案。优越的通量,分辨率和注册使DPN成为从分子水平到细胞水平的生物检测的杰出候选人。在此,我们概述了DPN的技术发展,包括其先进的衍生物和DPN支持的多功能传感模式,这些模式具有多种生物传感成分和结构。基于dpn的生物传感器具有均匀、可重复和大面积的阵列模式,在目标分析物检测和特异性细胞识别方面显示出高灵敏度、优异的选择性和快速响应。我们预计基于dpn的技术可以为制造多路复用、可编程和商业阵列传感生物芯片提供巨大的潜在机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dip-Pen Nanolithography(DPN): from Micro/Nano-patterns to Biosensing.

Dip-pen nanolithography is an emerging and attractive surface modification technique that has the capacity to directly and controllably write micro/nano-array patterns on diverse substrates. The superior throughput, resolution, and registration enable DPN an outstanding candidate for biological detection from the molecular level to the cellular level. Herein, we overview the technological evolution of DPN in terms of its advanced derivatives and DPN-enabled versatile sensing patterns featuring multiple compositions and structures for biosensing. Benefitting from uniform, reproducible, and large-area array patterns, DPN-based biosensors have shown high sensitivity, excellent selectivity, and fast response in target analyte detection and specific cellular recognition. We anticipate that DPN-based technologies could offer great potential opportunities to fabricate multiplexed, programmable, and commercial array-based sensing biochips.

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来源期刊
CiteScore
5.30
自引率
6.50%
发文量
152
审稿时长
3.0 months
期刊介绍: The journal publishes research articles, letters/communications and reviews written by faculty members, researchers and postgraduates in universities, colleges and research institutes all over China and overseas. It reports the latest and most creative results of important fundamental research in all aspects of chemistry and of developments with significant consequences across subdisciplines. Main research areas include (but are not limited to): Organic chemistry (synthesis, characterization, and application); Inorganic chemistry (bio-inorganic chemistry, inorganic material chemistry); Analytical chemistry (especially chemometrics and the application of instrumental analysis and spectroscopy); Physical chemistry (mechanisms, catalysis, thermodynamics and dynamics); Polymer chemistry and polymer physics (mechanisms, material, catalysis, thermodynamics and dynamics); Quantum chemistry (quantum mechanical theory, quantum partition function, quantum statistical mechanics); Biochemistry; Biochemical engineering; Medicinal chemistry; Nanoscience (nanochemistry, nanomaterials).
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