COvalent monolayer patterns in Microfluidics by PLasma etching Open Technology – COMPLOT

文献信息

发布日期 2020-01-13

DOI 10.1039/C9AN02407G

影响因子 4.616

作者

Jaccoline Zegers, R. Martijn Wagterveld, Vittorio Saggiomo

查看原文

摘要

Plasma microcontact patterning (PμCP) and replica molding were combined to make PDMS/glass microfluidic devices with β-cyclodextrin (β-CD) patterns attached covalently on the glass surface inside microchannels. The supramolecular reactivity, reusability and association constant of β-CD with Cy5–Ad2 was tested by analyzing signal-to-noise ratios of patterns vs. spacing with fluorescence microscopy.

期刊推荐

Colloid Journal

Critical Reviews in Solid State and Materials Sciences

Topics in Catalysis

Main Group Chemistry

Acta Metallurgica Sinica-English Letters

Biocatalysis and Biotransformation

Bioorganic & Medicinal Chemistry Letters

Herald of the Russian Academy of Sciences

NDT & E International

Bioorganic & Medicinal Chemistry

来源期刊

Analyst

CiteScore: 7.8

自引率: 5.6%

年发文量: 653

Analyst publishes analytical and bioanalytical research that reports premier fundamental discoveries and inventions, and the applications of those discoveries, unconfined by traditional discipline barriers.

COvalent monolayer patterns in Microfluidics by PLasma etching Open Technology – COMPLOT

文献信息

期刊推荐

相关文献

Tumor microenvironment-responsive degradable silica nanoparticles: design principles and precision theranostic applications

Multistate switching of scanning tunnelling microscopy machined polyoxovanadate–dysprosium–phthalocyanine nanopatterns on graphite

Role of Er doping on isoamyl alcohol sensing performance of LaFeO3 microspheres and its prospects in wheat mildew detection

Inside back cover

Building fast and selective Zn ion channels for highly stable quasi-solid-state Zn-ion batteries

Insights into the local structure evolution and thermophysical properties of NaCl–KCl–MgCl2–LaCl3 melt driven by machine learning

A bio-inspired multifunctional interface layer for high performance zinc-ion batteries via novel in situ electropolymerization

NIR-activated quercetin-based nanogels embedded with CuS nanoclusters for the treatment of drug-resistant biofilms and accelerated chronic wound healing

Polyurethane-based nanocomposite film with thermal deicing capability and anti-erosion for wind turbine blades protection in extreme environments

Enabling isotropic Li growth via Li foil facet-engineering for high-performance Li metal batteries

您可能还喜欢

什么是2,6-二溴-4,8-双[(2-乙基己基)氧基]苯并[1,2-b:4,5-b']二噻吩(CAS号：1226782-13-3)？

木聚硫钠(CAS号：37319-17-8)的物理化学性质是什么？

2-甲氧基-4-(三氟甲基)苄溴, JRD(CAS号：886500-59-0)适用哪些法规指南？

1,4-Diazoniabicyclo[2.2.2]octane-1,4-disulfinate(CAS号：119752-83-9)的主要用途是什么？

如何处理含有4-(Bromomethyl)-2-fluorobenzenesulphonamide(CAS号：1645275-47-3)的废料？

Loureiriol(CAS号：479195-44-3)的物理化学性质是什么？

在合成中是否有3-氨基苯甲酰苯胺(CAS号：14315-16-3)的替代品？

4-异氰酰苯基硼酸频哪醇酯(CAS号：380430-64-8)的市场或研究趋势如何？

如何储存3β-乙酰氧基-7,25-甘遂二烯-24(R)-醇(CAS号：1352001-09-2)？

如何储存4-氟-2-甲基-1H-吲哚(CAS号：1260383-51-4)？

来源期刊

Analyst

推荐化合物

(R)-N-[(S)-1-[2-(Diphenylphosphino)phenyl]ethyl]-2-methylpropane-2-sulfinamide

[(2R)-6,6-Dimethyl-2-morpholinyl]methanol hydrochloride (1:1)

(1R,5R)-3-{[(2-Methyl-2-propanyl)oxy]carbonyl}-3-azabicyclo[3.1.0]hexane-1-carboxylic acid

2-Cyano-2-methylpropanamide

Benzeneacetic acid, 2-bromo-α-[[(1,1-dimethylethoxy)carbonyl]amino]-, (αS)-

推荐供应商