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Quest for Materials for Renewable Energy Applications

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Presentation on theme: "Quest for Materials for Renewable Energy Applications"— Presentation transcript:

1 Quest for Materials for Renewable Energy Applications
Stefan Stefanoski, Ph.D. Department of Electrical and Renewable Energy Engineering Oregon Institute of Technology, Wilsonville, OR TECH Talks 2016 May 6, 2016

2 Background St. Cyril and Methodius University
Natural Sciences and Mathematics Skopje, Macedonia BS in Applied Physics (2005) University of South Florida Department of Physics Tampa, FL, USA MS (2010) and PhD (2012) in Applied Physics Oregon Institute of Technology Department of EREE, Wilsonville, OR, USA MS in REE (2017) Adjunct Professor Max Planck Institute Institute for Chemical Physics of Solids Dresden, Germany Visiting Scientist (2011) Carnegie Institution for Science Geophysical Laboratory Washington, D.C. USA Postdoctoral Fellow ( ) Quest for Materials for Renewable Energy Applications S. Stefanoski

3 Why Are Materials Important?
Mars Exploration Rover: solar panels providing 600 W Wind turbine-blades: made of GRP = carbon or glass-fiber reinforced thermosetting plastic (glass fibers are 1/10 of the prices of carbon fibers Quest for Materials for Renewable Energy Applications S. Stefanoski

4 New Allotrope of Silicon, Si24
1000 ton Multianvil Press D. Y Kim, S. Stefanoski et al. Nature Materials, 14, , (2015) Temperature: 800 0C Pressure: 8 GPa Zr2O3 insulation Ta heater and capsule MgO Mixture of Na-Si in 1:6 ratio inside Ta capsule Quest for Materials for Renewable Energy Applications S. Stefanoski

5 New Allotrope of Silicon, Si24
5 m 400 K RT = 1.3 eV AM1.5 radiative limit Radiative limit with potential fluctuations D. Y Kim, S. Stefanoski et al. Nature Materials, 14, , (2015) Quest for Materials for Renewable Energy Applications S. Stefanoski

6 Thermoelectric Effect - Thermoelectricity
+ - + Quest for Materials for Renewable Energy Applications S. Stefanoski

7 Thermoelectric Generator
Seebeck Effect Peltier Effect S = Seebeck coefficient (V/T)  = electrical conductivity  = thermal conductivity (lattice + electrons) High S  generate the largest V for a given T (S = V/T); High   device carries the largest current possible for a given V; Low   heat is not conducted through the legs, and T is easily maintained. Quest for Materials for Renewable Energy Applications S. Stefanoski

8 Thermoelectric Materials for Automotive Applications
Automotive Energy Flow Diagram Quest for Materials for Renewable Energy Applications S. Stefanoski

9 Radioisotope Thermoelectric Generator (RTG)
Voyager Cassini Quest for Materials for Renewable Energy Applications S. Stefanoski

10 Thermoelectric Materials
Skutterudites Half-Heuslers Alloys Te Pb Clathrates Yb14MnSb11 Chalcogenides Quest for Materials for Renewable Energy Applications S. Stefanoski

11 Synthesis and Properties of Clathrates
X (Na-content) [1] S. Stefanoski et al. Chem. Matter. 23, 1491, (2011) [2] S. Stefanoski et al. in The Physics and Chemistry of Inorganic Clathrates, ed. G. S. Nolas, (2014) Quest for Materials for Renewable Energy Applications S. Stefanoski

12 Summary, Projections, Recommendations
Materials relevant for Renewable Energy applications are in the focus of scientific R&D: heavy funding of Universities and National Labs; multiple openings for MS/PhD positions are available. “Frontiers in Crystalline Matter: From Discovery to Technology”, National Academies Press, 2009: “ The U.S. has an urgent need for increased research and discovery and crystal growth of materials” Every technologically-relevant application starts with the synthesis and characterization (crystal structure, electrical, thermal, optical, and other properties) of materials. Global Solar Forecast Global solar installations will grow to 64.7 GW in The top countries are China, U.S. and Japan. IF materials with higher solar-absorption potential are available, industry will grow even further. Si24 is a promising candidate to replace conventional silicon for PV applications. Scaling-up is needed before commercialization. Quest for Materials for Renewable Energy Applications S. Stefanoski

13 Thank you! Quest for Materials for Renewable Energy Applications
S. Stefanoski

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