Using Two-Stage Chemical Amplification To Determine the Density of Defects in Self-Assembled Monolayers of Alkanethiolates on Gold

Zhao, Xiaomei; Wilbur, James L.; Whitesides, George M.

doi:10.1021/la960044e

Cited by 116 publications

(136 citation statements)

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“…We show that polymer brushes synthesized by surfaceinitiated polymerization that present short oligo(ethylene glycol) side chains are exceptionally resistant to protein adsorption and cell adhesion. [26][27][28] and the propensity of the chemisorbed thiolate to oxidize. [29,30] Nevertheless, OEG-SH SAMs yielded two important insights into the protein resistance of PEGylated surfaces.…”

Section: à2mentioning

confidence: 99%

In Pursuit of Zero: Polymer Brushes that Resist the Adsorption of Proteins

2009

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Protein resistant or “non‐fouling” surfaces are of great interest for a variety of biomedical and biotechnology applications. This article briefly reviews the development of protein resistant surfaces, followed by recent research on a new methodology to fabricate non‐fouling surfaces by surface‐initiated polymerization. We show that polymer brushes synthesized by surface‐initiated polymerization that present short oligo(ethylene glycol) side chains are exceptionally resistant to protein adsorption and cell adhesion. The importance of the protein and cell resistance conferred by these polymer brushes is illustrated by their use as substrates for the fabrication of antibody microarrays that exhibit femtomolar limits of detection in complex fluids such as serum and blood with relaxed requirements for intermediate wash steps. This example highlights the important point that the reduction in background noise afforded by protein‐resistant surfaces can greatly simplify the development of ultrasensitive heterogeneous, surface‐based clinical and proteomic assays with increased sensitivity and utility.

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Section: à2mentioning

confidence: 99%

In Pursuit of Zero: Polymer Brushes that Resist the Adsorption of Proteins

2009

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“…5,6 compared with their SAMs counterparts. [7][8][9] For example, SAM often has the imperfect package arising from grain boundaries of substrate. [10][11][12] The resulted structural defects even a molecular missing can lead to etching resistance failure.…”

Section: Introductionmentioning

confidence: 99%

Chemically attaching polyhydroxyethylmethacrylate brush on substrate surface, derivation, and the role in differential etching

Zhou

Wang

et al. 2007

J of Applied Polymer Sci

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This article reports the preparation and derivation of chemically tethered polyhydroxyethylmethacrylate (PHEMA) brush and its application in microfabrication. PHEMA brush was prepared by the surface-initiated atomic transfer radical polymerization and derived by either organic reaction or sequence polymerization. The differential etching process was studied by atomic force microscope (AFM) and optical micrograph. PHEMA brush cannot prevent the underlying gold from dissolving in aqueous etchant KI/I 2 solution. Differential etching of UVpatterned PHEMA template resulted in metal (gold) rings.

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“…12.15 ) [60] . The main essence of dynamic self -assembly is to mimic the reactions and structures that enable the continuity of life in nature.…”

Section: General Self -Assembly Techniquesmentioning

confidence: 97%

“…The strengths of microcontact imprinting for fabricating nanoscale structures are that the minimum feature size on the pattern depends on the physical dimensions of the step (instead of optical diffraction), that the stamp provides mechanical fl exibility, and that various types of materials can be used as inks on different materials. Blurring of pattern by lateral diffusion of the ink, the deformation in the pattern refl ecting deformations in the stamp, and high number of defects in the fi lm are, on the other hand, the disadvantages of this technique [60] .…”

Section: C) This Technique Is Used Formentioning

confidence: 99%