Search Results - "Procel-Moya Paul"

Indium Reduction in Bifacial Silicon Heterojunction Solar Cells with MoOx Hole Collector by Cao, Liqi, Zhao, Yifeng, Procel Moya, Paul, Han, Can, Kovačević, Katarina, Özkol, Engin, Zeman, Miro, Mazzarella, Luana, Isabella, Olindo

“…Reducing indium consumption in transparent conductive oxide (TCO) layers is crucial for mass production of silicon heterojunction (SHJ) solar cells. In this…”
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High-Efficiency Silicon Heterojunction Solar Cells: Materials, Devices and Applications by Liu, Yuqiang, Li, Yajuan, Wu, Yiliang, Yang, Guangtao, Mazzarella, Luana, Procel-Moya, Paul, Tamboli, Adele C., Weber, Klaus, Boccard, Mathieu, Isabella, Olindo, Yang, Xinbo, Sun, Baoquan

“…Photovoltaic (PV) technology offers an economic and sustainable solution to the challenge of increasing energy demand in times of global warming. The world PV…”
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The fundamental operation mechanisms of nc-SiOX≥0:H based tunnel recombination junctions revealed by de Vrijer, Thierry, van Nijen, David, Parasramka, Harsh, Procel Moya, Paul A., Zhao, Yifeng, Isabella, Olindo, Smets, Arno H.M.

“…Two terminal multi-junction (MJ) photovoltaic (PV) devices are well established concepts to increase the solar-to-electrical power conversion in reference to…”
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Low-breakdown-voltage solar cells for shading-tolerant photovoltaic modules by Calcabrini, Andres, Procel Moya, Paul, Huang, Ben, Kambhampati, Viswambher, Manganiello, Patrizio, Muttillo, Mirco, Zeman, Miro, Isabella, Olindo

“…The integration of photovoltaic (PV) technology in urban environments poses new challenges for the design of PV modules. In particular, the poor shading…”
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Transparent silicon carbide/tunnel SiO2 passivation for c‐Si solar cell front side: Enabling Jsc > 42 mA/cm2 and iVoc of 742 mV by Pomaska, Manuel, Köhler, Malte, Procel Moya, Paul, Zamchiy, Alexandr, Singh, Aryak, Kim, Do Yun, Isabella, Olindo, Zeman, Miro, Li, Shenghao, Qiu, Kaifu, Eberst, Alexander, Smirnov, Vladimir, Finger, Friedhelm, Rau, Uwe, Ding, Kaining

“…N‐type microcrystalline silicon carbide (μc‐SiC:H(n)) is a wide bandgap material that is very promising for the use on the front side of crystalline silicon…”
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Influence of passivating interlayers on the carrier selectivity of MoOx contacts for c-Si solar cells by Sen Mike Tang Soo Kiong Ah, Janssen Gaby, Mewe Agnes, Bronsveld Paula, Melskens Jimmy, Hashemi Fatemeh, Procel-Moya Paul, Weeber Arthur

“…The application of molybdenum oxide (MoOx) as a hole-selective contact for silicon-based solar cells has been explored due to superior optical transmittance…”
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The fundamental operation mechanisms of nc-SiO X ≥ 0 :H based tunnel recombination junctions revealed by de Vrijer, Thierry, van Nijen, David, Parasramka, Harsh, Procel Moya, Paul A., Zhao, Yifeng, Isabella, Olindo, Smets, Arno H.M.

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Indium Reduction in Bifacial Silicon Heterojunction Solar Cells with MoO x Hole Collector by Cao, Liqi, Zhao, Yifeng, Procel Moya, Paul, Han, Can, Kovačević, Katarina, Özkol, Engin, Zeman, Miro, Mazzarella, Luana, Isabella, Olindo

“…Reducing indium consumption in transparent conductive oxide (TCO) layers is crucial for mass production of silicon heterojunction (SHJ) solar cells. In this…”
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Influence of passivating interlayers on the carrier selectivity of MoO x contacts for c-Si solar cells by Sen, Mike Tang Soo Kiong Ah, Janssen, Gaby, Mewe, Agnes, Bronsveld, Paula, Melskens, Jimmy, Hashemi, Fatemeh, Procel-Moya, Paul, Weeber, Arthur

“…The application of molybdenum oxide (MoO x ) as a hole-selective contact for silicon-based solar cells has been explored due to superior optical transmittance…”
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Transparent silicon carbide/tunnel SiO 2 passivation for c‐Si solar cell front side: Enabling J sc > 42 mA/cm 2 and i V oc of 742 mV by Pomaska, Manuel, Köhler, Malte, Procel Moya, Paul, Zamchiy, Alexandr, Singh, Aryak, Kim, Do Yun, Isabella, Olindo, Zeman, Miro, Li, Shenghao, Qiu, Kaifu, Eberst, Alexander, Smirnov, Vladimir, Finger, Friedhelm, Rau, Uwe, Ding, Kaining

“…Abstract N‐type microcrystalline silicon carbide (μc‐SiC:H(n)) is a wide bandgap material that is very promising for the use on the front side of crystalline…”
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Poly‐SiO x Passivating Contacts with Plasma‐Assisted N 2 O Oxidation of Silicon (PANO‐SiO x ) by Yao, Zhirong, Yang, Guangtao, Han, Can, Moya, Paul Procel, Özkol, Engin, Yan, Jin, Zhao, Yifeng, Cao, Liqi, van Swaaij, René, Mazzarella, Luana, Isabella, Olindo

“…Passivating contacts are crucial for realizing high‐performance crystalline silicon solar cells. Herein, contact formation by plasma‐enhanced chemical vapor…”
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Optical Simulation-Aided Design and Engineering of Monolithic Perovskite/Silicon Tandem Solar Cells by Zhao, Yifeng, Datta, Kunal, Phung, Nga, Bracesco, Andrea E. A., Zardetto, Valerio, Paggiaro, Giulia, Liu, Hanchen, Fardousi, Mohua, Santbergen, Rudi, Moya, Paul Procel, Han, Can, Yang, Guangtao, Wang, Junke, Zhang, Dong, van Gorkom, Bas T., van der Pol, Tom P. A., Verhage, Michael, Wienk, Martijn M., Kessels, Wilhelmus M. M., Weeber, Arthur, Zeman, Miro, Mazzarella, Luana, Creatore, Mariadriana, Janssen, René A. J., Isabella, Olindo

“…Monolithic perovskite/c-Si tandem solar cells have attracted enormous research attention and have achieved efficiencies above 30%. This work describes the…”
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