참고문헌 (31)

1. Weber, W. H., Lambe, John. Luminescent greenhouse collector for solar radiation. Applied optics, vol.15, no.10, 2299-.

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2. Goetzberger, A., Greube, W.. Solar energy conversion with fluorescent collectors. Applied physics, vol.14, no.2, 123-139.

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3. Bomm, J., Buchtemann, A., Chatten, A.J., Bose, R., Farrell, D.J., Chan, N.L.A., Xiao, Y., Slooff, L.H., Meyer, T., Meyer, A., van Sark, W.G.J.H.M., Koole, R.. Fabrication and full characterization of state-of-the-art quantum dot luminescent solar concentrators. Solar energy materials and solar cells : an international journal devoted to photovoltaic, photothermal, and photochemical solar energy conversion, vol.95, no.8, 2087-2094.

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4. Meinardi, Francesco, McDaniel, Hunter, Carulli, Francesco, Colombo, Annalisa, Velizhanin, Kirill A., Makarov, Nikolay S., Simonutti, Roberto, Klimov, Victor I., Brovelli, Sergio. Highly efficient large-area colourless luminescent solar concentrators using heavy-metal-free colloidal quantum dots. Nature nanotechnology, vol.10, no.10, 878-885.

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5. Bergren, Matthew R., Makarov, Nikolay S., Ramasamy, Karthik, Jackson, Aaron, Guglielmetti, Rob, McDaniel, Hunter. High-Performance CuInS₂ Quantum Dot Laminated Glass Luminescent Solar Concentrators for Windows. ACS energy letters, vol.3, no.3, 520-525.

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6. Needell, David R., Phelan, Megan E., Hartlove, Jason T., Atwater, Harry A.. Solar power windows: Connecting scientific advances to market signals. Energy : technologies, resources, reserves, demands, impact, conservation, management, policy, vol.219, 119567-.

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7. Klimov, Victor I., Baker, Thomas A., Lim, Jaehoon, Velizhanin, Kirill A., McDaniel, Hunter. Quality Factor of Luminescent Solar Concentrators and Practical Concentration Limits Attainable with Semiconductor Quantum Dots. ACS photonics, vol.3, no.6, 1138-1148.

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8. Velarde, Andrés R. M., Bartlett, Emily R., Makarov, Nikolay S., Castañeda, Chloe, Jackson, Aaron, Ramasamy, Karthik, Bergren, Matthew R., McDaniel, Hunter. Optimizing the Aesthetics of High-Performance CuInS₂/ZnS Quantum Dot Luminescent Solar Concentrator Windows. ACS applied energy materials, vol.3, no.9, 8159-8163.

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9. Slooff, L. H., Bende, E. E., Burgers, A. R., Budel, T., Pravettoni, M., Kenny, R. P., Dunlop, E. D., Büchtemann, A.. A luminescent solar concentrator with 7.1% power conversion efficiency. Physica status solidi. PSS-RRL. Rapid Research Letters, vol.2, no.6, 257-259.

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10. Hermann, A.M.. Luminescent solar concentrators-A review. Solar energy, vol.29, no.4, 323-329.

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11. Drake, J. M., Lesiecki, M. L., Sansregret, J., Thomas, W. R. L.. Organic dyes in PMMA in a planar luminescent solar collector: a performance evaluation. Applied optics, vol.21, no.16, 2945-.

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12. Kinderman, R., Slooff, L. H., Burgers, A. R., Bakker, N. J., Büchtemann, A., Danz, R., van Roosmalen, J. A. M.. I-V Performance and Stability Study of Dyes for Luminescent Plate Concentrators. Journal of solar energy engineering, vol.129, no.3, 277-282.

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13. Della Sala, Paolo, Buccheri, Nunzio, Sanzone, Alessandro, Sassi, Mauro, Neri, Placido, Talotta, Carmen, Rocco, Alice, Pinchetti, Valerio, Beverina, Luca, Brovelli, Sergio, Gaeta, Carmine. First demonstration of the use of very large Stokes shift cycloparaphenylenes as promising organic luminophores for transparent luminescent solar concentrators. Chemical communications : Chem comm, vol.55, no.21, 3160-3163.

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14. Li, Ziliang, Johnston, Andrew, Wei, Mingyang, Saidaminov, Makhsud I., Martins de Pina, Joao, Zheng, Xiaopeng, Liu, Jiakai, Liu, Yuan, Bakr, Osman M., Sargent, Edward H.. Solvent-Solute Coordination Engineering for Efficient Perovskite Luminescent Solar Concentrators. Joule, vol.4, no.3, 631-643.

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15. Huang, Jing, Zhou, Jingjian, Haraldsson, Tommy, Clemments, Alden, Fujii, Minoru, Sugimoto, Hiroshi, Xu, Bo, Sychugov, Ilya. Triplex Glass Laminates with Silicon Quantum Dots for Luminescent Solar Concentrators. Solar rrl, vol.4, no.9, 2000195-.

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16. Meinardi, Francesco, Ehrenberg, Samantha, Dhamo, Lorena, Carulli, Francesco, Mauri, Michele, Bruni, Francesco, Simonutti, Roberto, Kortshagen, Uwe, Brovelli, Sergio. Highly efficient luminescent solar concentrators based on earth-abundant indirect-bandgap silicon quantum dots. Nature photonics, vol.11, no.3, 177-185.

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17. Bauser, Haley C., Bukowsky, Colton R., Phelan, Megan, Weigand, William, Needell, David R., Holman, Zachary C., Atwater, Harry A.. Photonic Crystal Waveguides for @@>@@90% Light Trapping Efficiency in Luminescent Solar Concentrators. ACS photonics, vol.7, no.8, 2122-2131.

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18. Saeidi, Sahar, Rezaei, Behzad, Irannejad, Neda, Ensafi, Ali Asghar. Efficiency improvement of luminescent solar concentrators using upconversion nitrogen-doped graphene quantum dots. Journal of power sources, vol.476, 228647-.

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19. Wang, Junyu, Yuan, Yucheng, Zhu, Hua, Cai, Tong, Fang, Yin, Chen, Ou. Three-dimensional macroporous photonic crystal enhanced photon collection for quantum dot-based luminescent solar concentrator. Nano energy, vol.67, 104217-.

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20. Minei, Pierpaolo, Iasilli, Giuseppe, Ruggeri, Giacomo, Pucci, Andrea. Luminescent Solar Concentrators from Waterborne Polymer Coatings. Coatings, vol.10, no.7, 655-.

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21. Geervliet, Tristan A., Gavrila, Ionela, Iasilli, Giuseppe, Picchioni, Francesco, Pucci, Andrea. Luminescent Solar Concentrators Based on Renewable Polyester Matrices. Chemistry, an Asian journal, vol.14, no.6, 877-883.

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22. Iasilli, G., Francischello, R., Lova, P., Silvano, S., Surace, A., Pesce, G., Alloisio, M., Patrini, M., Shimizu, M., Comoretto, D., Pucci, A.. Luminescent solar concentrators: boosted optical efficiency by polymer dielectric mirrors. Materials chemistry frontiers, vol.3, no.3, 429-436.

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23. Wu, Kaifeng, Li, Hongbo, Klimov, Victor I.. Tandem luminescent solar concentrators based on engineered quantum dots. Nature photonics, vol.12, no.2, 105-110.

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24. Yang, Chenchen, Sheng, Wei, Moemeni, Mehdi, Bates, Matthew, Herrera, Christopher K., Borhan, Babak, Lunt, Richard R.. Ultraviolet and Near‐Infrared Dual‐Band Selective‐Harvesting Transparent Luminescent Solar Concentrators. Advanced energy materials, vol.11, no.12, 2003581-.

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25. Debije, Michael G., Evans, Rachel C., Griffini, Gianmarco. Laboratory protocols for measuring and reporting the performance of luminescent solar concentrators. Energy & environmental science, vol.14, no.1, 293-301.

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26. 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,. Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance. Joule, vol.6, no.1, 8-15.

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27. Specification data sheet for KXOB25-12X1F (https://ixapps.ixys.com/DataSheet/KXOB25-12X1F.pdf) and KXOB25-14X1F (https://ixapps.ixys.com/DataSheet/KXOB25_14X1F.pdf) solar cells are available at the manufacturer’s website, (accessed 2022-03-02). 

28. Hansen, Eric C., Bertram, Sophie N., Yoo, Jason J., Bawendi, Moungi G.. Zinc Thiolate Enables Bright Cu‐Deficient Cu‐In‐S/ZnS Quantum Dots. Small, vol.15, no.27, 1901462-.

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29. Material Chemistry Vercamer V. 2016 

30. Winter Los Alamos sunlight data is taken from online database at the following link: https://www2.pvlighthouse.com.au/calculators/solar%20spectrum%20calculator/solar%20spectrum%20calculator.aspx, (accessed 2022-03-02). 

31. McDaniel, Hunter, Koposov, Alexey Y., Draguta, Sergiu, Makarov, Nikolay S., Pietryga, Jeffrey M., Klimov, Victor I.. Simple yet Versatile Synthesis of CuInSe_xS_2–x Quantum Dots for Sunlight Harvesting. The journal of physical chemistry. C, Nanomaterials and Interfaces, vol.118, no.30, 16987-16994.

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