Peter Podbršček scite author profile

Peter Podbršček

3Publications

58Citation Statements Received

104Citation Statements Given

How they've been cited

How they cite others

104

Affiliations

National Institute of Chemistry, Texas Christian University, Austin College

Publications

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Correlation between Morphology and Defect Luminescence in Precipitated ZnO Nanorod Powders

Bitenc

Podbršček

Orel

et al. 2009

Crystal Growth & Design

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ZnO nanorods were prepared at relatively low temperatures by homogeneous precipitation from zinc nitrate and urea in a water/ethylene glycol mixture. Crystal size and morphology are controlled by growth time and solvent composition. We observed a strong correlation between nanocrystals’ size/morphology and their optoelectronic defect-related properties. Smaller crystallites exhibited intense deep-defect luminescence and enhanced emission related to near-surface excitonic recombination. Longer growth times lead to formation of well-defined nanorods with hexagonal symmetry exhibiting reduced defect emission.

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In and Ex Situ Studies of the Formation of Layered Microspherical Hydrozincite as Precursor for ZnO

Bitenc

Podbršček

Dubček

et al. 2010

Chemistry A European J

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Layered ZnO microspheric particles were prepared by the thermal decomposition of layered hydrozincite (LZnHC), which was synthesized from zinc nitrate and urea in a water/PEG400 mixture. The influence of the starting reagents, their concentrations, and the amount of PEG in the water/PEG400 mixture on the particle growth was observed. The chemical aspect of the particle growth was proposed in the frame of the partial charge model (PCM), and the formation of [Zn(OH)(2)(OH(2))(4)](0) and [Zn(OH)(HCO(3))(OH(2))(3)](0) was predicted for the solid phase. The assumed growth mechanism, which follows the "nonclassical crystallization" concept of a self-assembling mechanism, was observed in situ by small-angle X-ray scattering (SAXS) and predicts the rapid formation of approximately 6 nm sized building units. The size of these nano building units, stable only in the reaction medium, remains nearly constant during the synthesis, as the concentration of the nano building units increases throughout the reaction. The nano building units connect into leaves of LZnHC with a thickness of 20 nm. These leaves of LZnHC are further agglomerated into porous, microsphere-like particles with sizes up to 4 μm.

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The preparation of zinc silicate/ZnO particles and their use as an efficient UV absorber

Podbršček¹,

Dražić²,

Anžlovar³

et al. 2011

Materials Research Bulletin

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