Crystallization on Confined Engineered Surfaces:  A Method to Control Crystal Size and Generate Different Polymorphs

Lee, Alfred Y.; Lee, In Sung; Dette, Severine S.; Boerner, Jana; Myerson, Allan S.

doi:10.1021/ja055416x

Cited by 153 publications

(215 citation statements)

References 15 publications

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“…For example, polymeric films containing ionizable groups, such as sulfonated polystyrene, have been tested as heterogeneous nucleation inducing surfaces for proteins, among other numerous materials and native and/or engineered surfaces [9]- [11]. Nucleation kinetics and thermodynamics studies indicated that significant conformational changes can occur as the protein interacts with these surfaces [10,12].…”

Section: Introductionmentioning

confidence: 99%

Crystallization of Lysozyme on Metal Surfaces Using a Monomode Microwave System

Mauge-Lewis¹,

Gordon²,

Syed³

et al. 2016

Nano BioMed ENG

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The effect of metal surfaces on the crystallization of lysozyme using the Metal-Assisted and Microwave-Accelerated Evaporative Crystallization (MA-MAEC) technique and a monomode microwave system is described. Our microwave system (is called the iCrystal system hereafter for brevity) is comprised of a 100 W variable power monomode microwave source, a monomode cavity, fiber optic temperature probes and digital cameras. Crystallization of lysozyme (a model protein) was conducted using the iCrystal system on four different types of circular crystallization plates with 21-well sample capacity (i.e., crystallization plates): (i) blank: a continuous surface without a metal, (ii) silver nanoparticle films (SNFs): a discontinuous metal film, (iii) iron nano-columns: a semicontinuous metal film, and (iv) indium tin oxide (ITO): a continuous metal film. Lysozyme crystals grown on all crystallization plates were characterized by X-ray crystallography and found to be X-ray diffraction quality. The use of iron nano-columns afforded for the growth of largest number of lysozyme crystals with a narrow size distribution. ITO-modified crystallization plates were deemed to be best of all the crystallization plates based on the observations that lysozyme crystals were grown at the shortest time (370 ± 36 minutes) with a narrow size distribution up to 460 m in size.

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Section: Introductionmentioning

confidence: 99%

Crystallization of Lysozyme on Metal Surfaces Using a Monomode Microwave System

Mauge-Lewis¹,

Gordon²,

Syed³

et al. 2016

Nano BioMed ENG

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“…A similar approach was previously chosen to grow crystals of glycine on patterned gold surfaces from droplets of a highly undersaturated aqueous solution. [17,18] A difficulty with small organic semiconductor molecules is their low solubility in organic solvents, which is typically of the order of a few mg mL À1 ($30 times less than glycine in water). Therefore, patterning an amount of the organic semiconductor sufficient to grow a crystal that is large enough to bridge the electrodes requires solutions that are close to saturation.…”

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confidence: 99%

Highly Efficient Patterning of Organic Single‐Crystal Transistors from the Solution Phase

et al. 2008

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“…(Lee, I.S. et al, 2008) In similar studies, Lee et al reported that the size of the glycine crystals is controlled by the dimensions of the metallic gold islands or the concentration of the solution (Lee, A.Y. et al, 2005).…”

Section: Crystallization On Patterned Samsmentioning

confidence: 94%