Search Results - "Colegrove, E."

Exceeding 20% efficiency with in situ group V doping in polycrystalline CdTe solar cells by Metzger, W. K., Grover, S., Lu, D., Colegrove, E., Moseley, J., Perkins, C. L., Li, X., Mallick, R., Zhang, W., Malik, R., Kephart, J., Jiang, C.-S., Kuciauskas, D., Albin, D. S., Al-Jassim, M. M., Xiong, G., Gloeckler, M.

“…CdTe-based solar technology has achieved one of the lowest levelized costs of electricity among all energy sources as well as state-of-the-art field stability…”
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Recombination and bandgap engineering in CdSeTe/CdTe solar cells by Zheng, X., Kuciauskas, D., Moseley, J., Colegrove, E., Albin, D. S., Moutinho, H., Duenow, J. N., Ablekim, T., Harvey, S. P., Ferguson, A., Metzger, W. K.

“…Selenium compositional grading in CdTe-based thin-film solar cells substantively improves carrier lifetime and performance. However, where and how…”
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Imaging hole-density inhomogeneity in arsenic-doped CdTe thin films by scanning capacitance microscopy by Jiang, C.-S., Moseley, J., Xiao, C., Harvey, S., Farrell, S., Colegrove, E., Metzger, W.K., Al-Jassim, M.M.

“…We report nanometer-scale hole-density imaging in As-doped CdTe films by scanning capacitance microscopy (SCM). The hole-density profiling is validated by…”
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CdTe synthesis and crystal growth using the high-pressure Bridgman technique by Al-Hamdi, Tawfeeq K., McPherson, Seth W., Swain, Santosh K., Jennings, Joshah, Duenow, Joel N., Zheng, X., Albin, D.S., Ablekim, T., Colegrove, E., Amarasinghe, M., Ferguson, Andrew, Metzger, Wyatt K., Szeles, Csaba, Lynn, Kelvin G.

“…•High pressure Bridgman technique is suitable to synthesize CdTe from elemental sources.•Highly volatile dopants can be efficiently incorporated into melt…”
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Atomic-resolution characterization of the effects of CdCl2 treatment on poly-crystalline CdTe thin films by Paulauskas, T, Buurma, C, Colegrove, E, Guo, Z, Sivananthan, S, Chan M K Y, Klie, R F

“…Poly-crystalline CdTe thin films on glass are used in commercial solar-cell superstrate devices. It is well known that post-deposition annealing of the CdTe…”
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Simulation of Current Transport in Polycrystalline CdTe Solar Cells by Troni, F., Menozzi, R., Colegrove, E., Buurma, C.

“…Polycrystalline thin-film CdTe solar cells have demonstrated laboratory efficiency exceeding 17% and are nowadays a commercial technology (albeit with somewhat…”
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Incorporation and Activation of Arsenic Dopant in Single-Crystal CdTe Grown on Si by Molecular Beam Epitaxy by Park, J.H., Farrell, S., Kodama, R., Blissett, C., Wang, X., Colegrove, E., Metzger, W.K., Gessert, T.A., Sivananthan, S.

“…We report the use of molecular beam epitaxy to achieve p -type doping of CdTe grown on Si(211) substrates, by use of an arsenic cracker and post-growth…”
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High-Efficiency Polycrystalline CdS/CdTe Solar Cells on Buffered Commercial TCO-Coated Glass by Colegrove, E., Banai, R., Blissett, C., Buurma, C., Ellsworth, J., Morley, M., Barnes, S., Gilmore, C., Bergeson, J. D., Dhere, R., Scott, M., Gessert, T., Sivananthan, Siva

“…Multiple polycrystalline CdS/CdTe solar cells with efficiencies greater than 15% were produced on buffered, commercially available Pilkington TEC Glass at EPIR…”
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Nanometer-Scale Imaging of Inhomogeneous Active Charge Carriers in Arsenic-Doped CdTe Thin Films by Jiang, C.-S., Moseley, J., Xiao, C., Harvey, S., Colegrove, E., Metzger, W.K., Al-Jassim, M.M.

“…We report nanometer-scale imaging of active carrier distribution of As-doped CdTe films by scanning capacitance microscopy (SCM). We developed SCM sample…”
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Atomic-resolution characterization of the effects of CdCl{sub 2} treatment on poly-crystalline CdTe thin films by Paulauskas, T., Buurma, C., Colegrove, E., Guo, Z., Sivananthan, S., Klie, R. F., Chan, M. K. Y.

“…Poly-crystalline CdTe thin films on glass are used in commercial solar-cell superstrate devices. It is well known that post-deposition annealing of the CdTe…”
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Atomic-resolution characterization of the effects of CdCl 2 treatment on poly-crystalline CdTe thin films by Paulauskas, T., Buurma, C., Colegrove, E., Guo, Z., Sivananthan, S., Chan, M. K. Y., Klie, R. F.

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Simultaneous Examination of Grain-Boundary Potential, Recombination, and Photocurrent in CdTe Solar Cells Using Diverse Nanometer-Scale Imaging by Jiang, C.-S, Moutinho, H. R., Moseley, J., Kanevce, A., Duenow, J. N., Colegrove, E., Xiao, C., Metzger, W. K., Al-Jassim, M. M.

“…We report on the simultaneous measurements of Kelvin probe force microscopy (KPFM), cathodoluminescence (CL), and electron-beam induced current (EBIC) for…”
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Correction: Corrigendum: CdTe solar cells with open-circuit voltage breaking the 1 V barrier by Burst, J. M., Duenow, J. N., Albin, D. S., Colegrove, E., Reese, M. O., Aguiar, J. A., Jiang, C.-S., Patel, M. K., Al-Jassim, M. M., Kuciauskas, D., Swain, S., Ablekim, T., Lynn, K. G., Metzger, W. K.

“…Nature Energy 1, 16015 (2016); published 29 February 2016; corrected 11 April 2016. In the version of the Article originally published, the Figure 4 caption…”
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Corrigendum: CdTe solar cells with open-circuit voltage breaking the 1 V barrier by Burst, J M, Duenow, J N, Albin, D S, Colegrove, E, Reese, M O, Aguiar, J A, Jiang, C-s, Patel, M K, Al-jassim, M M, Kuciauskas, D, Swain, S, Ablekim, T, Lynn, K G, Metzger, W K

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CdTe solar cells with open-circuit voltage breaking the 1 V barrier by Burst, J. M., Duenow, J. N., Albin, D. S., Colegrove, E., Reese, M. O., Aguiar, J. A., Jiang, C.-S., Patel, M. K., Al-Jassim, M. M., Kuciauskas, D., Swain, S., Ablekim, T., Lynn, K. G., Metzger, W. K.

“…CdTe solar cells have the potential to undercut the costs of electricity generated by other technologies, if the open-circuit voltage can be increased beyond 1…”
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Grain boundary strain localization in CdTe solar cell revealed by Scanning 3D X-ray diffraction microscopy by Shukla, A, Wright, J, Henningsson, A, Stieglitz, H, Colegrove, E, Besley, L, Baur, C, De Angelis, S, Stuckelberger, M, Poulsen, H. F, Andreasen, J. W

“…Cadmium Telluride (CdTe) solar cell technology is a promising candidate to help boost green energy production. However, impurities and structural defects are…”
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Polycrystalline CdTe solar cells on buffered commercial TCO-coated glass with efficiencies above 15 by Banai, R., Blissett, C., Buurma, C., Colegrove, E., Bechmann, P., Ellsworth, J., Morley, M., Barnes, S., Lennon, C., Gilmore, C., Dhere, R., Bergeson, J., Scott, M., Gessert, T.

“…EPIR Technologies, Inc. reports the production of thin film polycrystalline CdTe devices with National Renewable Energy Laboratory (NREL)-verified efficiencies…”
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Notice of Removal: Interface characterization of single-crystal CdTe solar cells with Voc > 950mV by Burst, J.M., Aguiar, J.A., Moutinho, H.R., Jiang, C.S., Al-Jassim, M.M., Kanevce, A., Reese, M.O., Albin, D.S., Duenow, J.N., Colegrove, E., Ablekim, T., Swain, S.K., Lynn, K.G., Kuciauskas, D., Metzger, W.K.

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MATERIAL OF CURRENT VALUE-ITS COLLECTION AND CARE by Colegrove, Mabel E

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