Early Onset of Kinetic Roughening due to a Finite Step Width in Hematin Crystallization

Olafson, Katy N.; Rimer, Jeffrey D.; Vekilov, Peter G.

doi:10.1103/physrevlett.119.198101

Cited by 22 publications

(14 citation statements)

References 53 publications

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“…This is according to the classical nucleation growth mechanism, which involves a layer-bylayer evolution in a supersaturated condition. [29][30][31][32] Meanwhile, no obvious distortion points were found on the flat ZnO ladder surface in both TEM and SEM images in Figures S4 and S5. Moreover, an optimal precursor dosage m 0 is crucial, since ZnO ladders with larger sizes of approximately 250 nm (Figures 2F, S6, and S7) and 400 nm (Figures 2G and S10) are observed when the precursors are 1.5 and 2.5 times (1.5m 0 and 2.5m 0 ) referring to the initial concentration.…”

Section: Morphological Evolutions and Characterization Of Zno Laddersmentioning

confidence: 96%

One-Dimensional Segregated Single Au Sites on Step-Rich ZnO Ladder for Ultrasensitive NO2 Sensors

Xue

Yan

et al. 2020

Chem

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Section: Morphological Evolutions and Characterization Of Zno Laddersmentioning

confidence: 96%

One-Dimensional Segregated Single Au Sites on Step-Rich ZnO Ladder for Ultrasensitive NO2 Sensors

Xue

Yan

et al. 2020

Chem

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“…It is expected that growth occurs by burst nucleation because the NSs become detectable after a very short time 27,28 . The nucleation phase is still unclear in our study limited by the resolution of the optical microscope 29 . Figure 2a shows the real-time growth evolution of NSs observed with an optical microscope, where we can observe the nucleation and growth of an individual NS identified by the white dotted circle.…”

Section: Crystallization Model For Lead Bromide Single-crystal Ns Growthmentioning

confidence: 85%

Synthesis of centimeter-size free-standing perovskite nanosheets from single-crystal lead bromide for optoelectronic devices

Zheng

Manning

Zhang

et al. 2019

Sci Rep

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Considerable attention has been drawn to the lead halide perovskites (LHPs) because of their outstanding optoelectronic characteristics. LHP nanosheets (NSs) grown from single crystalline lead halide possess advantages in device applications as they provide the possibility for control over morphology, composition, and crystallinity. Here, free-standing lead bromide (PbBr 2 ) single-crystalline NSs with sizes up to one centimeter are synthesized from solution. These NSs can be converted to LHP while maintaining the NS morphology. We demonstrate that these perovskite NSs can be processed directly for fabrication of photodetector and laser arrays on a large scale. This strategy will allow high-yield synthesis of large-size perovskite NSs for functional devices in an integrated photonics platform.

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“…Importantly, our findings demonstrate that solvent structuring may be upheld by bonds distinct from the hydrogen bonds, as on the apolar (010) face, and may be a general feature of all solvents in contact with periodic crystal surfaces. The slow solvent dynamics in the vicinity of the crystal faces retards the diffusion of hematin molecules along the surface en route to their incorporation sites ,, and suggests a pathway to control hematin crystallization using additives that disrupt or reinforce solvent structures.…”

Section: Conclusion and Implicationsmentioning

confidence: 99%

“…The synthetic analogue of hemozoin is known as β-hematin (Figure c). To explore the crystallization of β-hematin, the mixture of neutral lipids found in the parasite’s digestive vacuole is typically replaced with normal 1-octanol, which saturates with water at about 5 wt %. ,,,, Despite many years of research on hemozoin and β-hematin crystallization ,,− ,,,,− ,, and the activity of antimalarial drugs, ,,− ,,− ,,,,− fundamental understanding of the structures and dynamics at both the crystal–solution interface and in the solution bulk, and on their correlation to the crystallization mechanism and the activity of the antimalarials, remains elusive.…”

Section: Introductionmentioning

confidence: 99%

“…We explore the properties of a 5 wt % water–octanol mixture; owing to the lower molecular weight of water, the number of water molecules in this mixture is ∼28% of the total number of molecules. This solvent composition was chosen to model the majority components in the solution used to precipitate β-hematin in recent experiments. ,,,,− …”

Section: Introductionmentioning

confidence: 99%

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Solvent Structure and Dynamics near the Surfaces of β-Hematin Crystals

2021

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Hematin crystallization, which is an essential component of the physiology of malaria parasites and the most successful target for antimalarial drugs, proceeds in mixed organic−aqueous solvents both in vivo and in vitro. Here we employ molecular dynamics simulations to examine the structuring and dynamics of a water−normal octanol mixture (a solvent that mimics the environment hosting hematin crystallization in vivo) in the vicinity of the typical faces in the habit of a hematin crystal. The simulations reveal that the properties of the solvent in the layer adjacent to the crystal are strongly impacted by the distinct chemical and topological features presented by each crystal face. The solvent organizes into at least three distinct layers. We also show that structuring of the solvent near the different faces of β-hematin strongly impacts the interfacial dynamics. The relaxation time of n-octanol molecules is longest in the contact layers and correlates with the degree of structural ordering at the respective face. We show that the macroscopically homogeneous water−octanol solution holds clusters of water and n-octanol connected by hydrogen bonds that entrap the majority of the water but are mostly smaller than 30 water molecules. Near the crystal surface the clusters anchor on hematin carboxyl groups. These results provide a direct example that solvent structuring is not restricted to aqueous and other hydrogen-bonded solutions. Our findings illuminate two fundamental features of the mechanisms of hematin crystallization: the elongated shapes of natural and synthetic hematin crystals and the stabilization of charged groups of hematin and antimalarials by encasing in water clusters. In addition, these findings suggest that hematin crystallization may be controlled by additives that disrupt or reinforce solvent structuring.

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Early Onset of Kinetic Roughening due to a Finite Step Width in Hematin Crystallization

Cited by 22 publications

References 53 publications

One-Dimensional Segregated Single Au Sites on Step-Rich ZnO Ladder for Ultrasensitive NO2 Sensors

One-Dimensional Segregated Single Au Sites on Step-Rich ZnO Ladder for Ultrasensitive NO2 Sensors

Synthesis of centimeter-size free-standing perovskite nanosheets from single-crystal lead bromide for optoelectronic devices

Solvent Structure and Dynamics near the Surfaces of β-Hematin Crystals

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