"Direct Optical Energy Gap in Amorphous Silicon Quantum Dots"
written by Nidhal Mousa Abdul-Ameer, Moafak Cadim Abdulrida,
published by Journal of Modern Physics, Vol.2 No.12, 2011
has been cited by the following article(s):
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[1] Investigation of Size Dependent Thermoluminescence Emission from Amorphous Silicon Quantum Dots
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[2] Structural, electronic and optical properties of model silicon quantum dots: A computational study
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[3] Quantum Confinement in an Intrinsic a-Si: H Thin Film Deposited on Soda Lime Glass Substrate Using PECVD
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[4] Photoluminescence Spectra From The Direct Energy Gap of a-SiQDs
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[5] Influence of gamma radiation and action of neutrons on photoluminescence and the microhardness of barium silicate glass
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[6] Thermoluminescence from silicon quantum dots in the two traps–one recombination center model
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[7] Investigation of Thermoluminescence Properties of
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[8] ВЛИЯНИЕ ГАММА-РАДИАЦИИ И ВОЗДЕЙСТВИЕ НЕЙТРОНОВ НА ФОТОЛЮМИНЕСЦЕНЦИЮ И МИКРОТВЕРДОСТЬ БАРИЕВОСИЛИКАТНЫХ СТЕКОЛ
2017
[9] Formation and Photoluminescence of “Cauliflower” Silicon Nanoparticles
The Journal of Physical Chemistry C, 2015
[10] Light emitting diode package and method of manufacture
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[11] Si Quantum Dots for Solar Cells
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[12] Fabrication and Characterization of Nanostructured Silicon Films For Photovoltaic Applications
2014
[13] Ultrathin nanostructures: smaller size with new phenomena
Chemical Society Reviews, 2013