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Design of Multifunctional Materials: Chalcogenides and Chalcopyrites (2017)

Arnold, Brad ; Su, Ching Hua ; Choa, Fow-Sen ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: There is a strong need for developing multifunctional materials to reduce the cost of applied material without compromising the performance of the detectors, devices and sensors. The materials design, processing, growth and fabrication of bulk and nanocrystals and fabrication into devices and sensors involve huge cost and resources including a multidisciplinary team of experts. Because of this reason, prediction of multifunctionality of materials before design and development should be evaluated. Chalcogenides and chalcopyrites are a very exciting class of materials for developing multifunctionality. Materials such as Gallium selenide GaSe and zinc selenide ZnSe have been proven to be excellent examples. GaSe is a layered material and very difficult to grow in large crystal. However, it's ternary and quaternary analogs such as thallium gallium selenide TlGaSe2, thallium gallium selenide sulfide TlGaSe2-xSs, thallium arsenic selenide Tl3AsSe3, silver gallium selenide AgGaGe3Se8, AgGaGe5Se12 and several others have shown great promise for multifunctionality. Several of these materials have shown good efficiency for frequency conversion (nonlinear optical NLO), electro-optic modulation, and acousto-optic tunable filters and imagers suitable for the visible, near-infrared wavelength, mid wave infrared (MWIR), long wave infrared (LWIR) and even up to Tera hertz wavelength (THW) regions. In addition, this class of materials have demonstrated low absorption coefficients and power handling capability in the systems. Also, these crystals do not require post growth annealing, show very large transparency range and fabricability.

Keywords: Metals and Metallic Materials; Chemistry and Materials (General)

Type: M17-6098 , Annual Materials Science &amp; Technology (MS&amp;T) Conference 2017; Oct 08, 2017 - Oct 12, 2017; Pittsburg, PA; United States

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Solidification and Morphological Evolution of Al-Si Eutectics in Convector-Diffusive Conditions (2017)

Mandal, K. D. ; Arnold, Brad ; Su, Ching Hua ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: The Al-Si material system is an important and has been studied for over half century with a focus on industrial applications in high strength and high conductivity alloys. A great deal of researches have been focused on controlling the morphology and hence performance through the addition of small impurities and by processing conditions. Most of the structure-property correlations are based on the post solidified micromorphology and growth conditions. This material system is unique and has been explored for heat spreader, controlling coefficient of expansion by adjusting composition of silicon and in designing composites. The Al-Si system is very interesting system for understanding the dendritic (Al-rich side) eutectic transition. Recently this system has been of great interest because of its applications in designing heat spreader, low temperature flux to grow SiC large substrates and in controlling the coefficient of expansion of Al-based alloys. We have performed extensive experiments to understand eutectic transition and to understand the morphological evolution in presence of impurities. We will discuss the results of dendritic transition into faceted long grains in convector-diffusive conditions. In this presentation we will present morphological transition in presence of carbon impurity and development of novel morphology.

Keywords: Metals and Metallic Materials

Type: M17-6099 , Materials Science &amp; Technology 2017 (MS&amp;T-17); Oct 09, 2017 - Oct 12, 2017; Pittsburgh, PA; United States

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Ionizing Organic Compound Based Nanocomposites for Efficient Gamma-Ray Sensor (2017)

Singh, N. B. ; Dayal, Vishall ; House, David ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: Thin film and nanocrystalline materials of oxides have been very attractive choice as low cost option for gamma-ray detection and have shown great promise. Our studies on pure oxide films indicated that thickness and microstructure have pronounced effect on sensitivity. Since the interaction of gamma-ray with composites involves all three interaction processes; photoelectric effect, Compton scattering, and pair production, composites containing ionic organics have better chance for enhancing sensitivity. In the composites of ionizing organics oxidation effect of unusual oxides changes much faster and hence increases the sensitivity of radiation. In this study, we have used nickel oxide and titanium oxide in ionic organics to develop composite materials for low energy gamma-ray sensing. We prepared composites containing ethylene carbonate and evaluated the effect of commercial Cs-137 radiation source by studying current-voltage relationship at several frequencies. Radiated samples showed higher resistivity compared to as prepared composites.

Keywords: Chemistry and Materials (General); Electronics and Electrical Engineering

Type: M17-6170 , SPIE Optics -Photonics (International Society for Optics and Photonics) 2017; Aug 06, 2017 - Aug 10, 2017; San Diego, CA; United States

Format: application/pdf

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