Guoqiang Ren scite author profile

Crystal growth of ZnS nanoparticles during hydrothermal coarsened in 4 M NaOH occurs via a two-stage process. In the first stage, the primary particles grow into a size over hundred times of the original volume. The initial growth rate can be fitted by an asymptotic curve. High-resolution transmission electron microscope (HRTEM) data indicate that in this stage, crystal growth mainly occurs via a multistep crystallographically specific oriented attachment (OA). The higher the coarsening temperature, the earlier the first stage ends. In the second stage, an abrupt transition from asymptotic to square parabola growth kinetics occurs. The crystal growth data can be fitted by a standard Ostwald ripening (OR) model consistent with growth controlled by dissolution/precipitation of ions in solution. HRTEM data indicate that a minor amount of OA-based growth also occurs in the early period of the second stage. A new multistep OA kinetics model analogous to the reaction between molecules was proposed to illustrate the asymptotic growth in the first stage of coarsening. The effect of concentrated NaOH was discussed and proved to be the key that hindered the OR process, attributing to the almost exclusive pure OA-based growth of ZnS particles in the first stage.

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Oriented Attachment Kinetics for Ligand Capped Nanocrystals: Coarsening of Thiol-PbS Nanoparticles

Zhang

Wang

Zheng

et al. 2007

J. Phys. Chem. B

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In this work, the growth kinetics of thiol-capped PbS nanoparticles was studied. Two-stage growth process was observed, which was controlled first by oriented attachment (OA) mechanism and then by the hybrid Ostwald ripening (OR) and OA mechanism. Different from the NaOH-ZnS system, where OA will occur between any two multilevel nanoparticles, an OA kinetic model only considering the attachment related to original particles was fitted well with the experimental results. Analysis reveals that this model may be a universal one to describe the OA crystal growth process of nanocrystals capped with easily destroyed ligands, such as thiol-ZnS in the previous report. The OA crystal growth characteristics determined by the surface agent were discussed and compared. We propose that with stronger surface capping, the OR growth of nanocrystals is hindered, which facilitates the size controlling via OA kinetics during nanosynthesis.

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Valence-band structure of wurtzite GaN including the spin-orbit interaction

Ren

Liu

Blood

1999

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Optical absorption in semiconductor quantum dots coupling to dispersive phonons of infinite modes J. Appl. Phys. 112, 074324 (2012) Electronic structures of single-layer boron pnictides Appl. Phys. Lett. 101, 153109 (2012) The direct and indirect bandgaps of unstrained SixGe1−x−ySny and their photonic device applications J. Appl. Phys. 112, 073106 (2012) Structural, elastic, and polarization parameters and band structures of wurtzite ZnO and MgO J. Appl. Phys. 112, 073503 (2012) Full-zone k.p model for the electronic structure of unstrained GaAs1−xPx and strained AlxIn1−xAs alloys

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Guoqiang Ren

A Multistep Oriented Attachment Kinetics: Coarsening of ZnS Nanoparticle in Concentrated NaOH

Oriented Attachment Kinetics for Ligand Capped Nanocrystals: Coarsening of Thiol-PbS Nanoparticles

Valence-band structure of wurtzite GaN including the spin-orbit interaction

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