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22 results on '"Bierman, David M."'

1. Efficient and Scalable GaInAs Thermophotovoltaic Devices

Author

Tervo, Eric J., France, Ryan M., Friedman, Daniel J., Arulanandam, Madhan K., King, Richard R., Narayan, Tarun C., Luciano, Cecilia, Nizamian, Dustin P., Johnson, Benjamin A., Young, Alexandra R., Kuritzky, Leah Y., Perl, Emmett E., Limpinsel, Moritz, Kayes, Brendan M., Ponec, Andrew J., Bierman, David M., Briggs, Justin A., and Steiner, Myles A.

Subjects
Physics - Applied Physics
Abstract

Thermophotovoltaics are promising solid-state energy converters for a variety of applications such as grid-scale energy storage, concentrating solar-thermal power, and waste heat recovery. Here, we report the design, fabrication, and testing of large area (0.8 cm$^2$), scalable, single junction 0.74-eV GaInAs thermophotovoltaic devices reaching an efficiency of 38.8$\pm$2.0% and an electrical power density of 3.78 W/cm$^2$ at an emitter temperature of 1850{\deg}C. Reaching such a high emitter temperature and power density without sacrificing efficiency is a direct result of combining good spectral management with a highly optimized cell architecture, excellent material quality, and very low series resistance. Importantly, fabrication of 12 high-performing devices on a two-inch wafer is shown to be repeatable, and the cell design can be readily transferred to commercial epitaxy on even larger wafers. Further improvements in efficiency can be obtained by using a multijunction architecture, and early results for a two-junction 0.84-eV GaInPAs / 0.74-eV GaInAs device illustrate this promise., Comment: 27 pages, 15 figures

Published
2022

2. Radiative thermal runaway due to negative differential thermal emission across a solid-solid phase transition

Author

Bierman, David M., Lenert, Andrej, Kats, Mikhail A., Zhou, You, Zhang, Shuyan, De La Ossa, Matthew, Ramanathan, Shriram, Capasso, Federico, and Wang, Evelyn N.

Subjects
Physics - Applied Physics
Abstract

Thermal runaway occurs when a rise in system temperature results in heat generation rates exceeding dissipation rates. Here we demonstrate that thermal runaway occurs in thermal radiative systems, given a sufficient level of negative differential thermal emission. By exploiting the insulator-to-metal phase transition of vanadium dioxide, we show that a small increase in heat generation (e.g., 10 nW/mm2) can result in a large change in surface temperature (e.g., ~35 K), as the thermal emitter switches from high emissivity to low emissivity. While thermal runaway is typically associated with catastrophic failure mechanisms, detailed understanding and control of this phenomenon may give rise to new opportunities in infrared sensing, camouflage, and rectification.

Published
2017
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3. Efficient and scalable GaInAs thermophotovoltaic devices

Author

Tervo, Eric J., primary, France, Ryan M., additional, Friedman, Daniel J., additional, Arulanandam, Madhan K., additional, King, Richard R., additional, Narayan, Tarun C., additional, Luciano, Cecilia, additional, Nizamian, Dustin P., additional, Johnson, Benjamin A., additional, Young, Alexandra R., additional, Kuritzky, Leah Y., additional, Perl, Emmett E., additional, Limpinsel, Moritz, additional, Kayes, Brendan M., additional, Ponec, Andrew J., additional, Bierman, David M., additional, Briggs, Justin A., additional, and Steiner, Myles A., additional

Published
2022
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4. Platform for Accurate Efficiency Quantification of > 35% Efficient Thermophotovoltaic Cells

Author

Narayan, Tarun C., primary, Nizamian, Dustin P., additional, Luciano, Cecilia, additional, Johnson, Benjamin A., additional, Limpinsel, Moritz, additional, Young, Alexandra R., additional, Briggs, Justin A., additional, Kuritzky, Leah Y., additional, Ponec, Andrew J., additional, Perl, Emmett E., additional, Kayes, Brendan M., additional, Tervo, Eric J., additional, Arulanandam, Madhan K., additional, France, Ryan M., additional, King, Richard R., additional, Steiner, Myles A., additional, and Bierman, David M., additional

Published
2021
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5. World record demonstration of > 30% thermophotovoltaic conversion efficiency

Author

Narayan, Tarun C., primary, Kuritzky, Leah Y., additional, Nizamian, Dustin P., additional, Johnson, Benjamin A., additional, Tervo, Eric J., additional, Young, Alexandra R., additional, Luciano, Cecilia, additional, Arulanandam, Madhan K., additional, Kayes, Brendan M., additional, Perl, Emmett E., additional, Limpinsel, Moritz, additional, Santhanam, Parthiban, additional, Slack, Jonathan, additional, Olavarria, Waldo, additional, Carapella, Jeffrey, additional, Young, Michelle, additional, Wu, Cheng-Lun, additional, Yu, Zhengshan J., additional, Holman, Zachary C., additional, King, Richard R., additional, Steiner, Myles A., additional, Bierman, David M., additional, Ponec, Andrew J., additional, and Briggs, Justin A., additional

Published
2020
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6. Full spectrum utilization for high-efficiency solar energy conversion

Author

Evelyn N. Wang., Massachusetts Institute of Technology. Department of Mechanical Engineering., Bierman, David M. (David Matthew), Evelyn N. Wang., Massachusetts Institute of Technology. Department of Mechanical Engineering., and Bierman, David M. (David Matthew)

Abstract

Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2017., Cataloged from PDF version of thesis., Includes bibliographical references (pages 88-97)., Today, two dominant strategies for solar energy harvesting exist: solar thermal and photovoltaic. Solar thermal energy harvesting offers the distinct ability to both utilize the full solar spectrum and provide dispatchable electrical power to the grid. By contrast, the generation of power via the photovoltaic effect can reduce the complexity of a system by eliminating moving parts. Conversion strategies which use both thermal and photovoltaic principles capitalize on the advantages of each. This thesis explores the potential of these technologies through both experimental and theoretical device-level studies. First, we explored solar thermophotovoltaic devices (STPVs) which convert broadband sunlight to narrow-band thermal radiation tuned for a photovoltaic cell. We demonstrated the highest STPV efficiency to date through the suppression of 80% of sub-bandgap blackbody radiation by pairing a one-dimensional photonic-crystal selective emitter with a tandem plasma-interference optical filter. We measured a solar-to-electrical conversion rate of 6.8%, exceeding the performance of the photovoltaic cell alone. Additionally, we show experimentally that STPVs can reduce the heat generation rates in the photovoltaic cell by a factor of two for the same power density. Next, we explored the use of spectral splitting as a different strategy to use both thermal and photovoltaic technologies. A model of an ideal solar spectral-splitting converter was developed to determine the conversion efficiency limit as well as the corresponding optimum spectral bandwidth of sunlight which should illuminate the photovoltaic cell. This bandwidth was also obtained analytically through an entropy minimization scheme and matches well with our model. We show that the maximum efficiency of the system occurs when it minimizes the spectral entropy generation. Beyond solar energy harvesting, we investigated the radiation dynamics of vanadium dioxide (VO2 ), which is of interest because of the abrupt, by David M. Bierman., Ph. D.

Published
2018

13. Nanoengineered Surfaces for Thermal Energy Conversion

Author

Bhatia, Bikram, primary, Preston, Daniel J, additional, Bierman, David M, additional, Miljkovic, Nenad, additional, Lenert, Andrej, additional, Enright, Ryan, additional, Nam, Youngsuk, additional, Lopez, Ken, additional, Dou, Nicholas, additional, Sack, Jean, additional, Chan, Walker R, additional, Celanović, Ivan, additional, Soljačić, Marin, additional, and Wang, Evelyn N, additional

Published
2015
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14. Concentrating Solar Power

Author

Weinstein, Lee A., primary, Loomis, James, additional, Bhatia, Bikram, additional, Bierman, David M., additional, Wang, Evelyn N., additional, and Chen, Gang, additional

Published
2015
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18. Metallic Photonic Crystal Absorber-Emitter for Efficient Spectral Control in High-Temperature Solar Thermophotovoltaics

Author

Rinnerbauer, Veronika, primary, Lenert, Andrej, additional, Bierman, David M., additional, Yeng, Yi Xiang, additional, Chan, Walker R., additional, Geil, Robert D., additional, Senkevich, Jay J., additional, Joannopoulos, John D., additional, Wang, Evelyn N., additional, Soljačić, Marin, additional, and Celanovic, Ivan, additional

Published
2014
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