2020
DOI: 10.1073/pnas.2008561117
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Two-step crystallization and solid–solid transitions in binary colloidal mixtures

Abstract: Crystallization is fundamental to materials science and is central to a variety of applications, ranging from the fabrication of silicon wafers for microelectronics to the determination of protein structures. The basic picture is that a crystal nucleates from a homogeneous fluid by a spontaneous fluctuation that kicks the system over a single free-energy barrier. However, it is becoming apparent that nucleation is often more complicated than this simple picture and, instead, can proceed via multiple transforma… Show more

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Cited by 42 publications
(33 citation statements)
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“…27,35 Secondly, the gas flow accelerates the removal of solvent vapors near the interface, which leads to locally increased concentration at the interface. Hence, the crystallization starts at the solvent/air interface where the gas flow hits the sample first, as mentioned by Chen et al 36 Thirdly, the gas flow induces a higher nucleation rate leading to the formation of a highly oriented metastable crystal phase distributed across the wet film surface, 37 from where crystallites grow homogeneously as indicated by the red-shift of the PL peak and the narrow PL peak full width half maximum (Fig. 2c and Fig.…”
Section: Working Mechanism Of the Gavd Processmentioning
confidence: 79%
“…27,35 Secondly, the gas flow accelerates the removal of solvent vapors near the interface, which leads to locally increased concentration at the interface. Hence, the crystallization starts at the solvent/air interface where the gas flow hits the sample first, as mentioned by Chen et al 36 Thirdly, the gas flow induces a higher nucleation rate leading to the formation of a highly oriented metastable crystal phase distributed across the wet film surface, 37 from where crystallites grow homogeneously as indicated by the red-shift of the PL peak and the narrow PL peak full width half maximum (Fig. 2c and Fig.…”
Section: Working Mechanism Of the Gavd Processmentioning
confidence: 79%
“…The fraction of defective tubules increases as the bending modulus B decreases and the target diameter D 0 increases. To avoid conditions under which de- fective structures are too prevalent, we set the binding energy to 6 k B T and the monomer chemical potential to µ = −3 k B T , so that assembly is sufficiently reversible to allow monomer detachment and annealing [31][32][33][34]. With these parameters, the fraction of defective tubes is generally below 30%.…”
Section: B Simulation Resultsmentioning
confidence: 99%
“…Rogers et al [62][63][64][65][66] further investigated the physical behavior of the assembly of DNA-coated colloids mediated by free DNA strands. They argued that encoding information into the sequence and concentration of the free strands instead of the grafted strands could overcome the problems conventional colloidal self-assembly suffers, including uncollaborative mutual interactions and a limited number of interactions.…”
Section: Crystallization Of Dna-coated Colloidsmentioning
confidence: 99%