7 results on '"Bergren, Matthew R."'
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2. Minimizing Scaling Losses in High-Performance Quantum Dot Luminescent Solar Concentrators for Large-Area Solar Windows
- Author
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Makarov, Nikolay S., Korus, Daniel, Freppon, Daniel, Ramasamy, Karthik, Houck, Daniel W., Velarde, Andres, Parameswar, Ashray, Bergren, Matthew R., and McDaniel, Hunter
- Abstract
While luminescent solar concentrators (LSCs) have been researched for several decades, there is still a lack of commercially available systems, mostly due to scalability, performance, aesthetics, or some combination of these challenges. These obstacles can be overcome by the systematic optimization of a laminated glass LSC design, demonstrated herein. In particular, we first show that it is possible to improve optical and electrical efficiencies of an LSC by fine-tuned optimization of the constituent fluorophore-containing interlayer resin. Further still, an increased understanding of commercially available solar cells allows us to establish a direct correlation between the device’s optical and electrical efficiency. Next, optical characterization of LSCs of varying sizes allows us to elucidate the main loss mechanisms in our LSCs, as well as ways to mitigate them. Altogether these optimization steps create opportunities for high-performance multi-interlayer LSC devices with demonstrated electrical power conversion efficiency as high as 1.1% to 4.9% at visual light transmission of 74% to 5%. Furthermore, careful examination of different blue-color (red-band absorbing) dyes provides a path for color-tunability of LSC windows toward neutral regimes. Design iterations of multiple device form factors enabled a color-neutral prototype without significant performance losses by separating color-neutralizing and LSC layers into different panes of an insulated glass unit. This work demonstrates the importance of LSC design optimization in achieving high-performance solar window technology with commercially acceptable aesthetics.
- Published
- 2022
- Full Text
- View/download PDF
3. Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance
- Author
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Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry P., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, and Lunt, Richard R.
- Abstract
Fair and meaningful device performance comparison among luminescent solar concentrator-photovoltaic (LSC-PV) reports cannot be realized without a general consensus on reporting standards in LSC-PV research. Therefore, it is imperative to adopt standardized characterization protocols for these emerging types of PV devices that are consistent with other PV devices. This commentary highlights several common limitations in LSC literature and summarizes the best practices moving forward to harmonize with standard PV reporting, considering the greater nuances present with LSC-PV. Based on these practices, a checklist of actionable items is provided to help standardize the characterization/reporting protocols and offer a set of baseline expectations for authors, reviewers, and editors. The general consensus combined with the checklist will ultimately guide LSC-PV research towards reliable and meaningful advances.
- Published
- 2022
- Full Text
- View/download PDF
4. Optimizing the Aesthetics of High-Performance CuInS2/ZnS Quantum Dot Luminescent Solar Concentrator Windows.
- Author
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Velarde, Andrés R. M., Bartlett, Emily R., Makarov, Nikolay S., Castañeda, Chloe, Jackson, Aaron, Ramasamy, Karthik, Bergren, Matthew R., and McDaniel, Hunter
- Published
- 2020
- Full Text
- View/download PDF
5. Fiber-Coupled Luminescent Concentrators for Medical Diagnostics, Agriculture, and Telecommunications
- Author
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Makarov, Nikolay S., Ramasamy, Karthik, Jackson, Aaron, Velarde, Andres, Castaneda, Chloe, Archuleta, Nic, Hebert, Damon, Bergren, Matthew R., and McDaniel, Hunter
- Abstract
While luminescent concentrators (LCs) are mainly designed to harvest sunlight and convert its energy into electricity, the same concept can be advantageous in alternative applications. Examples of such applications are demonstrated here by coupling the edge-guided light of high-performance LCs based on CuInSexS2-x/ZnS quantum dots into optical fibers with emission covering visible-to-NIR spectral regions. In particular, a cost-efficient, miniature broadband light source for medical diagnostics, a spectral-conversion and light-guiding device for agriculture, and a large-area broadband tunable detector for telecommunications are demonstrated. Various design considerations and performance optimization approaches are discussed and summarized. Prototypes of the devices are manufactured and tested. Individual elements of the broadband light source show coupling efficiencies up to 1%, which is sufficient to saturate typical fiber-coupled spectrometers at a minimal integration time of 1 ms using 100 mW blue excitation. Agricultural devices are capable of delivering ∼10% of photosynthetically active radiation (per device) converted from absorbed sunlight to the lower canopy of plants, which boosted the tomato yield in a commercial greenhouse by 7% (fresh weight). Finally, large-scale prototype detectors can be used to discern time-modulated unfocused signals with an average power as low as 1 μW, which would be useful for free-space telecommunication systems. Fully optimized devices are expected to make significant impacts on speed and bandwidth of free-space telecommunication systems, medical diagnostics, and greenhouse crop yields.
- Published
- 2019
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6. Size-Dependent Exciton Formation Dynamics in Colloidal Silicon Quantum Dots
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Bergren, Matthew R., Palomaki, Peter K. B., Neale, Nathan R., Furtak, Thomas E., and Beard, Matthew C.
- Abstract
We report size-dependent exciton formation dynamics within colloidal silicon quantum dots (Si QDs) using time-resolved terahertz (THz) spectroscopy measurements. THz photoconductivity measurements are used to distinguish the initially created hot carriers from excitons that form at later times. At early pump/probe delays, the exciton formation dynamics are revealed by the temporal evolution of the THz transmission. We find an increase in the exciton formation time, from ∼500 to ∼900 fs, as the Si QD diameter is reduced from 7.3 to 3.4 nm and all sizes exhibit slower hot-carrier relaxation times compared to bulk Si. In addition, we determine the THz absorption cross section at early delay times is proportional to the carrier mobility while at later delays is proportional to the exciton polarizability, αX. We extract a size-dependent αXand find an ∼r4dependence, consistent with previous reports for quantum-confined excitons in CdSe, InAs, and PbSe QDs. The observed slowing in exciton formation time for smaller Si QDs is attributed to decreased electron–phonon coupling due to increased quantum confinement. These results experimentally verify the modification of hot-carrier relaxation rates by quantum confinement in Si QDs, which likely plays a significant role in the high carrier multiplication efficiency observed in these nanomaterials.
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- 2016
- Full Text
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7. Control of PbSe Quantum Dot Surface Chemistry and Photophysics Using an Alkylselenide Ligand
- Author
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Hughes, Barbara K., Ruddy, Daniel A., Blackburn, Jeffrey L., Smith, Danielle K., Bergren, Matthew R., Nozik, Arthur J., Johnson, Justin C., and Beard, Matthew C.
- Abstract
We have synthesized alkylselenide reagents to replace the native oleate ligand on PbSe quantum dots (QDs) in order to investigate the effect of surface modification on their stoichiometry, photophysics, and air stability. The alkylselenide reagent removes all of the oleate on the QD surface and results in Se addition; however, complete Se enrichment does not occur, achieving a 53% decrease in the amount of excess Pb for 2 nm diameter QDs and a 23% decrease for 10 nm QDs. Our analysis suggests that the Se ligand preferentially binds to the {111} faces, which are more prevalent in smaller QDs. We find that attachment of the alkylselenide ligand to the QD surface enhances oxidative resistance, likely resulting from a more stable bond between surface Pb atoms and the alkylselenide ligand compared to Pb-oleate. However, binding of the alkylselenide ligand produces a separate nonradiative relaxation route that partially quenches PL, suggesting the formation of a dark hole-trap.
- Published
- 2012
- Full Text
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