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Your search keyword '"Toberer, E. S."' showing total 14 results
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14 results on '"Toberer, E. S."'

1. Blue-Green Emission from Epitaxial Yet Cation-Disordered ZnGeN$_{2-x}$O$_x$

Author

Melamed, C. L., Tellekamp, M. B., Mangum, J. S., Perkins, J. D., Dippo, P., Toberer, E. S., and Tamboli, A. C.

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

ZnGeN$_2$ offers a low-cost alternative to InGaN with the potential for bandgap tuning to span the green gap using cation site ordering. The addition of oxygen on the anion site creates an additional degree of electronic tunability. Here, we investigate the structure and optoelectronic properties of an epitaxial ZnGeN$_{2-x}$O$_{x}$ thin film library grown by combinatorial co-sputtering on c-Al$_2$O$_3$. Samples exhibit X-ray diffraction patterns and X-ray pole figures characteristic of a wurtzite (cation-disordered) structure with the expected 6-fold in-plane symmetry. Transmission electron microscopy reveals a semi-coherent interface with periodic dislocations that relieve strain from the large lattice mismatch, and confirms the in-plane and out-of-plane crystallographic orientation. Room-temperature photoluminescence exhibits peaks between 2.4 and 2.8 eV which are consistent with a sharp absorption onset observed by UV-vis spectroscopy. These results demonstrate low-cost synthesis of optically active yet cation disordered ZnGeN$_{2-x}$O$_{x}$, indicating a path toward application as a blue-green emitter.

Published
2019
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2. Apparatus for the room temperature measurement of low field Nernst and magneto-Seebeck coefficients.

Author

Porter, C. E., Crawford, C. M., and Toberer, E. S.

Subjects
BOLTZMANN'S equation, ELECTRICAL resistivity, FERMI level, ELECTRICAL load, LOW temperatures
Abstract

Nernst coefficient measurements are a classic approach to investigate charge carrier scattering in both metals and semiconductors. However, such measurements are not commonly performed, despite the potential to inform material design strategies in applications such as thermoelectricity. As dedicated instruments are extremely scarce, we present here a room temperature apparatus to measure the low field Nernst coefficient (and magneto-Seebeck coefficient) in bulk polycrystalline samples. This apparatus is specifically designed to promote accurate and facile use, with the expectation that such an instrument will make Nernst measurements de rigueur. In this apparatus, sample loading and electrical contacts are all pressure-based and alignment is automatic. Extremely stable thermal control (10 mK of fluctuation when ΔT = 1 K) is achieved from actively cooled thermoelectric modules that operate as heaters or Peltier coolers. Magneto-Seebeck measurements are integrated into the system to correct for residual probe offsets. Data from the apparatus are provided on bulk polycrystalline samples of bismuth, InSb, and SnTe, including raw data to illustrate the process of calculating the Nernst coefficient. Finally, we review how Nernst measurements, in concert with Seebeck, Hall, and electrical resistivity, can be analyzed via the Boltzmann equation in the relaxation time approximation to self-consistently predict the Fermi level, effective mass, and energy-dependent relaxation time. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Magnetodielectric coupling in Mn3O4

Author

Tackett, R., Lawes, G., Melot, B. C., Grossman, M., Toberer, E. S., and Seshadri, R.

Subjects
Condensed Matter - Materials Science
Abstract

We have investigated the dielectric anomalies associated with spin ordering transitions in the tetragonal spinel Mn$_3$O$_4$, using thermodynamic, magnetic, and dielectric measurements. We find that two of the three magnetic ordering transitions in Mn$_3$O$_4$ lead to decreases in the temperature dependent dielectric constant at zero applied field. Applying a magnetic field to the polycrystalline sample leaves these two dielectric anomalies practically unchanged, but leads to an increase in the dielectric constant at the intermediate spin-ordering transition. We discuss possible origins for this magnetodielectric behavior in terms of spin-phonon coupling. Band structure calculations suggest that in its ferrimagnetic state, Mn$_3$O$_4$ corresponds to a semiconductor with no orbital degeneracy due to strong Jahn-Teller distortion., Comment: 6 pages, 7 figures

Published
2007
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4. Thermoelectric properties of Zn5Sb4In2-δ (δ = 0.15).

Author

Wu, Y., Litvinchuk, A. P., Toberer, E. S., Snyder, G. J., Newman, N., Fischer, A., Scheidt, E.-W., Scherer, W., and Häussermann, U.

Subjects
ZINC antimonides, INDIUM antimonide crystals, ELECTRICAL resistivity, INTERMETALLIC compounds, THERMOELECTRICITY
Abstract

The polymorphic intermetallic compound Zn5Sb4In2-δ (δ = 0.15(3)) shows promising thermoelectric properties at low temperatures, approaching a figure of merit ZT of 0.3 at 300 K. However, thermopower and electrical resistivity changes discontinuously at around 220 K. Measurement of the specific heat locates the previously unknown temperature of the order-disorder phase transition at around 180 K. Investigation of the charge carrier concentration and mobility by Hall measurements and infrared reflection spectroscopy indicate a mixed conduction behavior and the activation of charge carriers at temperatures above 220 K. Zn5Sb4In2-δ has a low thermal stability, and at temperatures above 470 K samples decompose into a mixture of Zn, InSb, and Zn4Sb3. [ABSTRACT FROM AUTHOR]

Published
2012
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5. Reduction of lattice thermal conductivity from planar faults in the layered Zintl compound SrZnSb2.

Author

Prytz, Ø., Flage-Larsen, E., Toberer, E. S., Snyder, G. J., and Taftø, J.

Subjects
TRANSMISSION electron microscopy, STRONTIUM compounds, ZINC compounds, TIN compounds, THERMAL conductivity, PHONONS
Abstract

The layered Zintl compound SrZnSb2 is investigated using transmission electron microscopy (TEM) to understand the low lattice thermal conductivity. The material displays out-of-phase boundaries with a spacing from 100 down to 2 nm. Density functional theory calculations confirm that the TEM-derived defect structure is energetically reasonable. The impact of these defects on phonon scattering is analyzed within the Debye-Callaway model, which reveals a significant reduction in the acoustic phonon mean free path. This enhancement in phonon scattering leads to an ∼30% reduction in lattice thermal conductivity at 300 K. [ABSTRACT FROM AUTHOR]

Published
2011
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6. Solar thermoelectricity via advanced latent heat storage: A cost-effective small-scale CSP application

Author

Glatzmaier, G. C., primary, Rea, J., additional, Olsen, M. L., additional, Oshman, C., additional, Hardin, C., additional, Alleman, J., additional, Sharp, J., additional, Weigand, R., additional, Campo, D., additional, Hoeschele, G., additional, Parilla, P. A., additional, Siegel, N. P., additional, Toberer, E. S., additional, and Ginley, D. S., additional

Published
2017
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8. Solar thermoelectricity via advanced latent heat storage

Author

Olsen, M. L., primary, Rea, J., additional, Glatzmaier, G. C., additional, Hardin, C., additional, Oshman, C., additional, Vaughn, J., additional, Roark, T., additional, Raade, J. W., additional, Bradshaw, R. W., additional, Sharp, J., additional, Avery, A. D., additional, Bobela, D., additional, Bonner, R., additional, Weigand, R., additional, Campo, D., additional, Parilla, P. A., additional, Siegel, N. P., additional, Toberer, E. S., additional, and Ginley, D. S., additional

Published
2016
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12. Template-Free Routes to Macroporous Monoliths of Nickel and Iron Oxides:  Toward Porous Metals and Conformally Coated Pore Walls

Author

Toberer, E. S., Joshi, A., and Seshadri, R.

Abstract

In our continuing efforts to prepare macroporous monoliths of functional inorganic materials through novel template-free routes, we present here routes to porous NiO starting from Ni−Zn oxalates, and to porous ZnFe2O4 starting from Zn−Fe oxalates. Monolithic Ni has been prepared from porous NiO by hydrogen reduction, with retention of the macropore structure. Heating porous ZnFe2O4 under high hydrogen flow rates simultaneously reduces the metals and transports zinc in the vapor phase, leaving behind a macroporous Fe monolith. Robust monoliths with pore dimensions ranging from 1 to 5 μm have been formed in all cases, with narrow pore diameter distributions. To further functionalize the porous NiO monolith, we have dip-coated a lanthanum source and fired it in air to obtain a conformal coating of La4Ni3O10 particles on the surfaces of the NiO pore walls. Unlike conventional dip-coating, the skeletal support is itself a reactant in this process, ensuring that the coating is well-dispersed on the pore walls.

Published
2005

13. Macroporous Monoliths of Functional Perovskite Materials through Assisted Metathesis

Author

Toberer, E. S., Weaver, J. C., Ramesha, K., and Seshadri, R.

Abstract

Solid-state reactions between metal sulfates and metal oxides (assisted by K2CO3) have been used to prepare two classes of important perovskite materials:  ferroelectric PbTiO3 and the catalyst/magnetic/fuel-cell material La1-xSrxMnO3 (x = 0.0 and 0.3). K2CO3 helps to drive the reaction by forming highly stable K2SO4 and CO2. Performing the reactions within solid monoliths and then dissolving out K2SO4 crystals in water permit macroporous materials to be obtained. The monoliths possess connected, open porosity with characteristic pore sizes of the order of 5−30 μm. Imprinted on this macroporous structure is a second, smaller scale of porosity arising from the sintering together of particles with sizes in the 100−300-nm range. The reaction pathways have been followed by thermodiffractometry, and the products characterized by Rietveld refinement of powder X-ray diffraction patterns, by scanning electron microscopy, and by dc magnetization measurements.

Published
2004

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