Landolt-Börnstein - Group III Condensed Matter
DOI: 10.1007/10426818_10
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3 Diffusion in compound semiconductors

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Cited by 12 publications
(14 citation statements)
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“…Relative to their bulk crystalline analogues, the reduced volume of nanoscale materials significantly relaxes the kinetic demands of solid-state diffusion. For example, using bulk diffusion coefficients, Ag + , Cu + , and Au + ions can diffuse the entire length of a 5 nm diameter InAs crystal in less than a second at ambient temperature. , Thus, the diffusion-mediated propagation of the reaction zone may no longer be rate limiting for many nanoscale cation exchange reactions . Indeed, time-resolved micro-X-ray absorption spectroscopy (XAS) and stopped flow absorption measurements of the topotaxial Ag + exchange of 3.5 nm CdSe nanocrystals indicate rapid conversion ( t 1/2 < 100 ms), a strong dependence on the concentration of the coordinating ligand, and second-order kinetics consistent with a rate-limiting surface reaction step .…”
Section: Mechanistic Insights Into Nanoscale Cation Exchangementioning
confidence: 99%
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“…Relative to their bulk crystalline analogues, the reduced volume of nanoscale materials significantly relaxes the kinetic demands of solid-state diffusion. For example, using bulk diffusion coefficients, Ag + , Cu + , and Au + ions can diffuse the entire length of a 5 nm diameter InAs crystal in less than a second at ambient temperature. , Thus, the diffusion-mediated propagation of the reaction zone may no longer be rate limiting for many nanoscale cation exchange reactions . Indeed, time-resolved micro-X-ray absorption spectroscopy (XAS) and stopped flow absorption measurements of the topotaxial Ag + exchange of 3.5 nm CdSe nanocrystals indicate rapid conversion ( t 1/2 < 100 ms), a strong dependence on the concentration of the coordinating ligand, and second-order kinetics consistent with a rate-limiting surface reaction step .…”
Section: Mechanistic Insights Into Nanoscale Cation Exchangementioning
confidence: 99%
“…Relative to their bulk crystalline analogues, the reduced volume of nanoscale materials significantly relaxes the kinetic demands of solid-state diffusion. For example, using bulk diffusion coefficients, 17 Ag + , Cu + , and Au + ions can diffuse the entire length of a 5 nm diameter InAs crystal in less than a second at ambient temperature. 40,41 Thus, the diffusionmediated propagation of the reaction zone may no longer be rate limiting for many nanoscale cation exchange reactions.…”
Section: ■ Mechanistic Insights Into Nanoscale Cation Exchangementioning
confidence: 99%
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“…Thicker samples result in decreasing energy of the electron beams and increasing the scattering as well as complexity from the bigger distribution of energy and at the end declined resolution is obtained. Most of the synthetic chalcogen materials or metal chalcogenides are firstly being visualized with the aid of SEM and TEM before any other theoretical modeling or use of methods for analysis [15,20,24,50,56,62,[68][69][70].…”
Section: Methods For Chalcogen Materials Characterizationmentioning
confidence: 99%
“…An appropriate quantity of heavily doped GaAs:Te was added to introduce the dopant. Te was chosen as the dopant because of its low diffusivity in the solid phase 7 and its relatively low vapor pressure 8 . The crucible was contained inside a silica process tube with Pd-diffused flowing hydrogen gas at 1 atmosphere.…”
mentioning
confidence: 99%