| Sun - Jun 07 | Mon - Jun 08 | Tue - Jun 09 | Wed - Jun 10 | Thu - Jun 11 | Fri - Jun 12 |
MONDAY, JUNE 8, 2026 |
|
AREA 1 |
PLENARY Chair/Organizer: Emily Warren, Rebecca Saive Celestin E |
|||||
8:30 What Defines the PV Technology of the Future?Vera Steinmann. First Solar | ||||||
|
AREA 6 |
PLENARY Chair/Organizer: Nicholas Rolston, Grace Luo Celestin E |
|||||
9:00 Perovskite Multijunction Solar CellsAnita Ho-Bailie. The University of Sydney | ||||||
|
BREAK |
COFFEE BREAK/EXHIBITS Storyville (Exhibit Hall) |
|||||
|
KEYNOTE |
OPENING / KEYNOTE / CHERRY AWARD / EDS / JPV Chair/Organizer: Karin Hinzer, Myles Steiner Celestin E |
|||||
10:00 Welcome / AnnouncementsKarin Hinzer. | ||||||
10:10 Technical Program OverviewMyles Steiner. | ||||||
10:25 KeynoteJustin Baca. Vice President of Markets and Research of the Solar Energy Industries Association (SEIA) | ||||||
11:00 Stuart Wenham Award AnnouncementAmmar Nayfeh. | ||||||
11:10 Welcome from EDS / JPVAngus Rockett. | ||||||
11:20 Introduction of Cherry AwardWilliam Shafarman. | ||||||
11:25 Cherry Award PresentationUwe Rau . | ||||||
|
AREA 1 |
ADVANCED LIGHT MANAGEMENT AND SPECTRAL SHAPING Chair/Organizer: Louise Hirst, Zhenkun Yuan Celestin B |
|||||
1:30 H13 Toward Scalable Free-Space Luminescent Solar ConcentrationMathis Van de Voorde, Twan Kalthof, Jelle Westerhof, Lisanne Einhaus, Rebecca Saive. University of Twente, Enschede, Netherlands | ||||||
1:45 H12 Optimizing Practical Applications of Downshifting Technology in Commercial Solar CellsMinh Tien Tran, Mingzhe Guo, Martin Green, Jessica Yajie Jiang. University of New South Wales, Sydney, Australia | ||||||
2:00 H10 Multifunctional luminescent coating for space photovoltaic applicationsSergey Sarkisov1, Darayas Patel2, Alexandre Fedoseyev1. 1SSS Optical Technologies, LLC, Huntsville, AL, United States, 2Oakwood University, Huntsville, AL, United States | ||||||
2:15 Titanium Dioxide Mono-Material Multilayer Optical Coatings for PhotovoltaicsEloy J Marcelis1, Jelle R. H. Ruiters1, Johan E. ten Elshof1, Monica Morales-Masis2. 1MESA+ Institute of Nanotechnology, University of Twente, Enschede, Netherlands, 2Eindhoven University of Technology, Eindhoven, Netherlands | ||||||
2:30 Light Trapping in Ultrathin III-V Tandem Solar CellsOliver Hoehn1,2, Nicolas Alt1,2, Alexis Gobe3, Sylvain Finot4,5, Jenny Norberg1,2, Simon Ryckaert4, Stéphane Collin4,5, Stéphane Lanteri3, Henning Helmers1. 1Fraunhofer Institute for Solar Energy Systems ISE, Freiburg, Germany, 2Chair of Photovoltaic Energy Conversion, Department of Sustainable Systems Engineering (INATECH), Un, Freiburg, Germany, 3Inria Center at Université Côte d’Azur, Sophia Antipoolis Cedex, France, 4Centre de Nanosciences et de Nanotechnologies (C2N), CNRS, Université Paris-Saclay, Palaiseau, France, 5Institut Photovoltaïque d’Ile-de-France (IPVF), Palaiseau, France | ||||||
2:45 UV-Downshifting Encapsulants for Power Boost and Improved Stability in Photovoltaic DevicesDana B. Kern, Peter L. Hacke, Rebecca Wai, Xavier Hanna, B. Edward Sartor, Matthew O. Reese, Emily Warren, David C. Miller. National Laboratory of the Rockies, Golden, CO, United States | ||||||
|
AREA 2 |
ABSORBER PREP AND PROPERTIES Chair/Organizer: Angus Rockett, Alex Goldstone Celestin E |
|||||
1:30 Initiation of the CdCl2 activation process for CdSeTe/CdTe photovoltaic devicesKieran M. Curson1, Pascal Jundt2, Bettina Spaeth2, Christian Drost2, Robert Arndt2, John M. Walls1. 1Loughborough University, loughbrough, United Kingdom, 2CTF Solar GmbH, Dresden, Germany | ||||||
1:45 Eutectic Enhanced CdCl2 Heat Treatment for Oxygen-free Processing of CdTe Solar CellsKara B. Kile, Zulkifl Hussain, Isuru Lakmal, Kiran Lamichhane, Prabodika N. Kaluarachchi, Manoj K. Jamarkattel, Shawn M. Wolffersdorff, Aparajita Dixit, Ebin Bastola, Randy J. Ellingson, Adam B. Phillips, Michael J. Heben. Wright Center for Photovoltaics Innovation and Commercialization (PVIC), Department of Physics and A, Toledo, OH, United States | ||||||
2:00 Supressing Sub-Bandgap Luminescence from CdSe FilmsKiran Lamichhane, Tyler Brau, Thomas Fiducia, Adam B. Phillips, Manoj K. Jamarkattel, Ebin Bastola, Isuru Lakmal, Kara B. Kile, Prabodika N. Kaluarachchi, Zulkifl Hussain, Arun Basnet, Sabin Neupane, Ujjwal Dhakal, Sanjeeb Budhathoki, Abasi Abudulimu, Yanfa Yan, Randy J. Ellingson, Michael J. Heben. Wright Center for Photovoltaic Innovation and Commercialization, Department of Physics and Astronomy, Toledo, OH, United States | ||||||
2:15 Revealing Dopant Metastability and Performance Limits in As-Doped CdSeTe Solar Cells via Operando X-ray MicroscopyNiranjana Mohan Kumar1, Arkita Chakrabarti1, Andrew Kiss2, Arun K. M. Kanakkithodi3, Dan Mao4, Eric Colegrove5, Mariana Bertoni1. 1Arizona State University, Tempe, AZ, United States, 2Brookhaven National Lab, Upton, NY, United States, 3Purdue University, West Lafayette, IN, United States, 4First Solar, Toledo, OH, United States, 5National Lab of the Rockies, Golden, CO, United States | ||||||
2:30 Thin Bilayer CdSeTe/CdTe Solar CellsLilly Quintana-Barrera, James R. Sites. Colorado State University, Fort Collins, CO, United States | ||||||
2:45 Effect of Selenium on Carrier Type in CdSeTe-Alloyed Photoabsorbers Investigated by PDL Hall EffectMustafa Togay1, Isuru Lakmal2, Ebin Bastola2, Zeyad Elsayed1, Robert D. Ellis1, Adam M. Law1, Luksa Kujovic1, Kiran Lamichhane2, Sabin Neupane2, Adam B. Phillips2, Randy J. Ellingson2, Yanfa Yan2, Michael J. Heben2, Jake W. Bowers1, J. Michael Walls1. 1CREST, Wolfson School of Mechanical, Electrical and Manufacturing Engineering, Loughborough University, Leicestershire, LE11 3TU, United Kingdom, 2Wright Center for Photovoltaics Innovation and Commercialization, University of Toledo, Toledo, OH, United States | ||||||
|
AREA 3 |
SPACE PHOTOVOLTAIC CELLS, MODULES, SYSTEMS AND FLIGHT EXPERIENCE Chair/Organizer: Bao Hoang, Ahmad Kirmani Celestin C |
|||||
1:30 D13 Radiometric Solar Simulator Calibration for Space PhotovoltaicsDon Walker, Alexandra Pettengill, John Nocerino, Yao Lao, Colin J. Mann, Simon H. Liu. The Aerospace Corporation, El Segundo, CA, United States | ||||||
1:45 Radiation Tolerance of Ultra-Thin InP Solar Cells for Space ApplicationsVenkata S. A. Chaluvadi1, Stefan Diesing1, 2, Toluwalase Agoro1, Iwan Davies3, Louise C. Hirst1. 1University of Cambridge, Cambridge, United Kingdom, 2University of Sheffield, Sheffield, United Kingdom, 3IQE plc., Cardiff, United Kingdom | ||||||
2:00 Highly radiation-resistant n-InGaP/p-GaAs heterojunction solar cellsTetsuya Nakamura1, Maui Hino2, Meita Asami3, Warakorn Yanwachirakul4, Kentaroh Watanabe2, Shota Yamasaki5, Shin-ichiro Sato5, Naotsugu Nagasawa5, Takeshi Ohshima5,6, Hidefumi Akiyama7, Yoshitaka Okada2, Masakazu Sugiyama2. 1Japan Aerospace Exploration Agency (JAXA), Tsukuba, Japan, 2Research Center for Advanced Science and Technology, The University of Tokyo, Tokyo, Japan, 3University of Miyazaki, Miyazaki, Japan, 4Chulalongkorn University, Bangkok, Thailand, 5National Institutes for Quantum Science and Technology (QST), Takasaki, Japan, 6Tohoku University, Sendai, Japan, 7Institute for Solid State Physics, The University of Tokyo, Kashiwa, Japan | ||||||
2:15 Thermal Stress Behavior of Thin-Film III-V Tandem Solar CellsJenny Norberg1,2, Joachim Herderich1,2, Alessandra Selis1, Henning Helmers1, Oliver Höhn1,2. 1Fraunhofer Institute for Solar Energy Systems ISE, Freiburg im Breisgau, Germany, 2University of Freiburg, Freiburg im Breisgau, Germany | ||||||
2:30 Modeling of Open Circuit Voltage Degradation in Thin SHJ Cells under Proton IrradiationIzak Baranowski1, Christiana Honsberg1, Stuart Bowden2, Dragica Vasileska1, Ian R. Sellers3, Vincent R. Whiteside3, Nicole Harmon3, Bibhudutta Rout4, Stephen M. Goodnick1. 1Arizona State University, Tempe, AZ, United States, 2Solestial Solar, Tempe, AZ, United States, 3University at Buffalo, Buffalo, NY, United States, 4University of North Texas, Denton, TX, United States | ||||||
2:45 D3 Large Area Ultra-Light Environmental Protection for Space Solar ArraysPilar Espinet Gonzalez, Yao Lao, Alejandro Hernandez. The Aerospace Corporation, El Segundo, CA, United States | ||||||
|
AREA 6 |
ADVANCES IN PEROVSKITE MATERIAL DEVELOPMENT Chair/Organizer: Yanqi Luo, Anita Ho-Bailie Celestin H |
|||||
1:30 M9 How Moisture and Oxygen Influence Antisolvent-Free Perovskite Crystallization PathwaysMaimur Hossain1, Connor J. Dolan1, Eric Oberholtz1, Darya Kamiyama1, Jack R. Palmer1, Paulo E. Marchezi1, Tim Kodalle2, Carolin Sutter-Fella 2, David P. Fenning1. 1University of California San Diego, San Diego, CA, United States, 2Lawrence Berkeley National Laboratory, Berkeley, CA, United States | ||||||
1:45 Lead halide seeding via vacuum deposition enables the formation of compositionally diverse 2D/3D perovskite heterostructuresElizabeth M. Wall, Quinn C. Burlingame, Yueh-Lin Loo. Princeton University, Princeton, NJ, United States | ||||||
2:00 High-frequency Ultrasound Assisted Defect Healing in Halide Perovskite Thin FilmsArkita Chakrabarti1, Farzaneh Rezaei1, Kelly Vences2, Yuxi Zhang3, Connor Dolan2, Niranjana Mohan Kumar1, Nasim Alem3, David Fenning2, Mariana Bertoni1. 1Arizona State University, Tempe, AZ, United States, 2University of California San Diego, La Jolla, CA, United States, 3Pennsylvania State University, State College, PA, United States | ||||||
2:15 Polymer-Modified Wide Bandgap Perovskites for Stable Tandem Top Cell Deposited in Open-AirMuneeza Ahmad, Rayna Hylden, Nicholas Rolston. Arizona State University, Tempe, AZ, United States | ||||||
2:30 High Efficiency 2.1 eV Bandgap Inorganic CsPb(I,Br2) Perovskite Solar Cell Deposited Using Vacuum DepositionShadab Soomro, Anders Peterson, Purnendu Kartikay, Vikram Dalal. Iowa State University, Ames, IA, United States | ||||||
2:45 M13 First-Principles Analysis of Iodine Migration and Electronic Degradation in MAPbI₃Andre Slonopas1, Matthew Limpert2, Nam Le1, James Spicer1. 1Johns Hopkins University, Baltimore, MD, United States, 22Army Training and Transformation Command, Aberdeen Proving Grounds, MD, United States | ||||||
|
AREA 7 |
NOVEL MATERIALS AND PRODUCTION TECHNOLOGIES FOR PV MODULES Chair/Organizer: Stefan Mitterhofer, Chiara Barretta Celestin F |
|||||
1:30 Lenticular-based colorful solar panel exhibiting >90% energy retentionFahad Mateen1, Songtao Wu1, Brian Woods2, Debasish Banerjee1. 1Toyota Research Institute of North America , Ann Arbor, MI, United States, 2Toyota Motors North America , Saline, MI, United States | ||||||
1:45 N2 An Abrasion-Resistant Anti-soiling and Anti-reflective Coating for Solar Cover GlassMadupa Abeywardena1,2, Carmen Wang1,2, QianFeng Xu3, Alan Lyons1,2,3. 1City University of New York Graduate Center, New York, NY, United States, 2College of Staten Island, CUNY, Staten Island, NY, United States, 3ARL Designs LLC, Summit, NJ, United States | ||||||
2:00 N9 Insights into the material properties of EPE encapsulants for PV applicationNikolina Pervan1,2, Gabriele C. Eder3, Yuliya Voronko3, Gernot Oreski1,2. 1Polymer Competence Center Leoben GmbH , Leoben, Austria, 2Chair of Materials Science and Testing of Polymers, Montanuniversität Leoben, Leoben, Austria, 3Österreichisches Forschungsinstitut für Chemie und Technik (OFI), Vienna, Austria | ||||||
2:15 N4 Shingled Module Integration of Monolithic Two‑Terminal III-V//Si Tandem Solar Cells Exceeding 30 % Module EfficiencyJonas D. De Rose, Leonhard Böck, Tadeo Schweigstill, Jan Benick, Ralph Müller, Malte Klitzke, David Lackner, Torsten Rößler, Gerald Siefer, Holger Neuhaus, Florian Clement, Oliver Höhn, Frank Dimroth. Fraunhofer ISE, Freiburg, Germany | ||||||
2:30 Improved Shading Tolerance of Photovoltaic Modules Using Small-Area High-Voltage (SAHiV) and Total Cross-Tied (TCT) TopologyLuthfan Fauzan1,2, Min Ju Yun1, Yeon Hyang Sim1, Hyekyoung Choi1, Dong Yoon Lee1, Seung I. Cha1,2. 1Korea Electrotechnology Research Institute, Changwon, South Korea, 2Department of Electro-functionality Materials Engineering, University of Science and Technology, Changwon, South Korea | ||||||
2:45 B9 Meniscus Integration for Thin film Nano Electronics Robot (MEITNER): Automated, Scalable Perovskite Manufacturing via Multi-Objective Bayesian OptimizationDaniel Abdoue1, Ethan G. Schwartz2, Maimur Hossain2, Jake Kittell3, Kyle Sipe1, Danil Ryzhokhin1, Vivek Babu4, Chad Miller4, Tonio Buonassissi5, Devin Mackenzie2,6, David Fenning1. 1University of California San Diego, San Diego, CA, United States, 2University of Washington, Seattle, WA, United States, 3Happiness Tech LLC, Morrisville, VT, United States, 4Verde Technologies Inc., Burlington, VT, United States, 5Massachusetts Institute of Technology, Cambridge, MA, United States, 6Washington Clean Energy Testbeds, Seattle, WA, United States | ||||||
|
AREA 8 |
UV-INDUCED DEGRADATION AND ENVIRONMENTAL STABILITY OF MATERIALS Chair/Organizer: Lelia Deville, Ana Dyreson Celestin A |
|||||
1:30 UV-Induced Degradation in TOPCon Modules: Linking Accelerated Testing and Field EvidenceArchana Sinha1, Jean-Nicolas Jaubert1, Todd Karin1, Dana Kern2. 1Kiwa PVEL, Napa, CA, United States, 2National Laboratory of the Rockies, Golden, CO, United States | ||||||
2:00 Greater UV-induced degradation under UV-fluorescent compare to full spectrum illuminationRebecca B. Wai, Xavier Hanna, Jimmy M. Newkirk, Kent Terwilliger, Steve Johnston, David C. Miller, Peter L. Hacke, Dana B. Kern. National Lab of the Rockies, Golden, CO, United States | ||||||
2:15 Optical and chemical degradation mechanisms in modern encapsulant materials for UV-ID mitigationDennice M. Roberts, Xavier Hanna, David C. Miller, Jimmy Newkirk, Kent Terwiliger, Rachael L. Arnold, Rebecca Wai, Peter Hacke, Dana Kern. National Laboratory of the Rockies, Golden, CO, United States | ||||||
2:30 J10 Capacitance-Based Metastability in Samples Extracted from UV-Stressed Silicon TOPCon Photovoltaic ModulesSteve Johnston, Dana B. Kern, Rebecca B. Wai, Kent Terwilliger. National Laboratory of the Rockies, Golden, CO, United States | ||||||
2:45 J15 The Environmental Stability of SnO2, ZnO and Alloyed Buffer LayersLuksa Kujovic, Elliott Groves, Ali Abbas , Luke O. Jones, Mustafa Togay, Luis C. Infante-Ortega, Samuel E. Machin, Adam M. Law, Ana C. Jurado-Estrada, Jake W. Bowers, John M. Walls. Loughborough University, Loughborough, United Kingdom | ||||||
|
BREAK |
COFFEE BREAK/ EXHIBITS Storyville (Exhibit Hall) |
|||||
|
AREA 2 |
POSTERS Chair/Organizer: Amit Munshi, Tom Fiducia, Abasi Abudulimu Poster Section 1 |
|||||
A1 Temperature-Driven Structural Transition in CdTe/CdS Thin Films: A Molecular Dynamics StudySharmin Abdullah1, Henry Chan2, Orcun Yildiz2. 1George Mason University, Fairfax, VA, United States, 2Argonne National Laboratory, Lemont, IL, United States | ||||||
A2 Dopant-Dependent Recombination Regimes and Carrier Extraction in High-Efficiency CdSeTe Solar CellsAbasi Abudulimu1, Chungho Lee2, Tyler Brau1, Scott L. Wenner1, Adam B. Phillips1, Michael J. Heben1, Randy J. Ellingson1. 1Wright Center for Photovoltaics Innovation and Commercialization (PVIC), Department of Physics and A, Toledo, OH, United States, 2First Solar, Inc. California Technology Center (CTC), Santa Clara, CA, United States | ||||||
A3 Investigating the effects of processing conditions on carrier dynamics in single crystal CdTe:As grown by molecular beam epitaxyAlex J. Ashley1, Hongling Lott2, Andrea T. Mathew2, Eric Colegrove2, Matthew O. Reese2, Jason B. Baxter1. 1Drexel University, Philadelphia, PA, United States, 2National Laboratory of the Rockies, Golden, CO, United States | ||||||
A4 A study of Se profiles in As doped Cd(Se,Te) photovoltaic devicesEric Colegrove, Josh Brown, Robert Morrissey, Andrea Mathew, Aditya Ratnapagol, Hongling Lott, Ryan Muzzio, Ed Sartor, Matt Young, Craig Perkins, Darius Kuciauskas, Matthew Reese. National Laboratories of the Rockies, Golden, CO, United States | ||||||
A5 Efficiency Improvement of Cu3BiS3 Thin Film Solar Cell using NiO Hole Transport LayerSandip Das. Kennesaw State University, Marietta, GA, United States | ||||||
G9 Effects of CdCl2 Annealing on Cadmium Selenide Solar Cells�Sheikh T Elahi1, Wei Wang 2, Zahangir Alom3, Vaselis Palekis4, Chris Ferekides 5. 11, TAMPA, FL, United States, 22, TAMPA, FL, United States, 33, TAMPA, FL, United States, 44, TAMPA, FL, United States, 55, TAMPA, FL, United States | ||||||
A6 Zn-Alloyed SnO2 Buffer Layers for Thin Film CdSeTe/CdTe Solar CellsZeyad Elsayed1, Samuel E. Machin1, Ana Jurado-Estrada1, Luis C. Infante-Ortega1, Mustafa Togay1, Luksa Kujovic1, Sam Davis1, Zhaoxia Zhou1, Stuart Robertson1, Jake W. Bowers1, John M. Walls1, Pascal Jundt2, Bettina Spaeth2, Christian Drost2, Robert Arndt2. 1Centre for Renewable Energy Systems Technology (CREST), Loughborough University, Loughborough, United Kingdom, 2CTF Solar GmbH, Dresden, Germany | ||||||
A7 Inter-grain Inhomogeneities Limit the Performance of CdSeTe Solar CellsThomas Fiducia, Ian M. glass, Kara Kile, Ebin Bastola, Manoj Jamarkattel, Abasi Abudulimu, Yanfa Yan, Randy J. Ellingson, Michael J. Heben, Adam B. Phillips. University of Toledo, Toledo, OH, United States | ||||||
A8 2D MoTe2 Back Surface Passivation for CdTe Thin-Film Solar CellsKarthika Haridas1, Shubhra Bansal1,2. 1Material Science and Engineering, Purdue University, West Lafayette, IN, United States, 2Associate Professor of Mechanical Engineering and Materials Engineering, Purdue University, West Lafayette, IN, United States | ||||||
A9 CSS Grown CdSe Solar Cells for Tandem ApplicationsManoj K. Jamarkattel1, Adam B. Phillips1, Kiran Lamichhane1, Sam Machin2, Isuru Lakmal1, Sabin Neupane1, Sanjeeb Budhathoki1, Ujjwal Dhakal1, Alisha Adhikari1, Arun Basnet1, Tingting Zhu1, Tyler Brau1, Abasi Abudulimu1, Ebin Bastola1, Michael Walls2, Yanfa Yan1, Randy J. Ellingson1, Michael J. Heben1. 1Wright Center for Photovoltaic Innovation and Commercialization, University of Toledo, Department of, Toledo, OH, United States, 2Centre for Renewable Energy Systems Technology (CREST), Loughborough University, Leicestersgire, United Kingdom | ||||||
A10 A Minority-Carrier Trap State Detected in CdSeTe:As using Deep Level Transient SpectroscopySteve Johnston, Hongling Lott, Eric Colegrove, Joel N. Duenow, Joshua A. Brown, Andrea T. Mathew, B. Edward Sartor, Robert Morrissey, Matthew O. Reese. National Laboratory of the Rockies, Golden, CO, United States | ||||||
A11 Nanoscale Investigation of Defects in CdCl2 Treated CdSe Thin FilmsXiaolei Liu, Zhaoxia Zhou, Jacques Kenyon, Rob Ellis, Kerrie Morris, Zeyad Elsayed, Sam Machin, Kieran Curson, Jake Bowers, Michael Walls. Loughborough University, Loughborough, United Kingdom | ||||||
A12 Electrical Contact Behavior and Band Alignment at Metal/Cd-Se-Te InterfacesMark Mills1,2, Jing Shang1,2, Magesh Murugesan1, John McCloy1,2. 1Institute of Materials Research, Washington State University, Pullman, WA, United States, 2School of Mechanical and Materials Engineering, Pullman, WA, United States | ||||||
A13 Voltage Limits and System Leverage in Imperfect Crystals: The Case of CdTe PhotovoltaicsAmit H Munshi1,2. 1Colorado State University, Department of Mechanical Engineering, Fort Collins, CO, United States, 2JPHB Solutions LLC, Loveland, CO, United States | ||||||
A14 Experimental signatures of light and voltage bias-induced hysteresis in Cd(Se,Te) devicesB. Edward Sartor1, Marco Nardone2, Chun-Sheng Jiang1, Steve Johnston1, Craig L. Perkins1, Ryan Muzzio1, Joshua Brown1, Eric Colegrove1, Matthew O. Reese1. 1National Laboratory of the Rockies, Golden, CO, United States, 2Bowling Green State University, Bowling Green, OH, United States | ||||||
A15 Hole Mobility and Scattering Mechanisms in CdTe Solar CellsTimur Sukhanov1, Eric Colegrove2, Matthew O. Reese2, Sivalingam Sivananthan1,3. 1University of Illinois at Chicago, Chicago, IL, United States, 2National Laboratory of the Rockies, Golden, CO, United States, 3Sivananthan Laboratories , Bolingbrook, IL, United States | ||||||
A16 Pre- and Post-Deposition Copper Treatment for CdZnTe Back Buffer in CdTe Solar CellsPriya Suryavanshi1, Sam Machin2, Michael Walls2, James Sites1. 1Colorado State University, Fort Collins, CO, United States, 2Centre for Renewable Energy Systems Technology (CREST), Loughborough University, Loughborough, Leicestershire, United Kingdom, 3Centre for Renewable Energy Systems Technology (CREST), Loughborough University, Loughborough, Leicestershire, United Kingdom, 41Colorado State University, Fort Collins, CO, United States | ||||||
G10 CuxZn1-xS as a Transparent Contact for n-CdTe Solar CellsWei Wang, Vasilis Palekis, Sheikh E Tawsif, Chris Ferekides. University of South Florida, TAMPA, FL, United States | ||||||
A17 Investigating the ‘Ringing’ Feature Around Grain Boundaries of CdSeTe/CdTe Solar Cells Using CathodoluminescenceAoshi Yang, Jacques Kenyon, Zhaoxia Zhou, Stuart Robertson, Michael Walls. Loughborough University, Loughborough, United Kingdom | ||||||
|
AREA 5 |
POSTERS (CHARACTERIZATION METHODS) Chair/Organizer: Andre Augusto, Ziv Hameiri, Ilham Ihoume Poster Section 2 |
|||||
A18 Non-Idealities in Pulsed-light Characterization of Perovskite Solar Cell FilmsRodolfo De La Cruz Zanetti1, Buh Kum Tatchen2, Ahmad R. Kirmani2, Richard R. King1. 1Arizona State University, Tempe, AZ, United States, 2Rochester Institute of Technology, Rochester, NY, United States, 3Rochester Institute of Technology, Rochester, NY, United States, 4Arizona State University, Tempe, AZ, United States | ||||||
A19 Challenges and solutions for determining the end contact resistance of interconnects based on electrically conductive adhesives with statistical significanceMaria Ignacia Devoto Acevedo1, Raphael Shanmugam 1, Daniel Tune1, Tobias Nitsche2, Daniel Buckland2, Giuseppe Galbiati2, Tobias Meßmer1. 1ISC Konstanz, Konstanz, Germany, 2Henkel, Düsseldorf, Germany | ||||||
A20 From scarce to seen: Enhancing rare defect visibility in photovoltaics using AI-generated luminescence imagesGaia M. N. Javier, Brendan Wright, Victoria Zhao, Tess Rickard, Ziv Hameiri. The University of New South Wales, Sydney, Australia | ||||||
B1 Direct Observation of Electrical Passivation on TOPCon Solar Cells by Kelvin Probe Force MicroscopyChun-Sheng Jiang, Dana Kern, Rebecca Wai, Harvey Guthrey, John Mangum, Steve Johnston. National Laboratory of the Rockies, Golden, CO, United States | ||||||
B2 High Spatial Resolution Mapping of Urbach Energy in Photovoltaic DevicesJacques D Kenyon, Kieran M Curson, Xiaolei Liu, Aoshi Yang, Luksa Kujovic, Stuart Robertson, Zhaoxia Zhou, Jake W Bowers, John M Walls. Loughborough University, Loughborough, United Kingdom | ||||||
B3 Rapid, High-throughput, Multimodal Characterization of Emergent PV Materials and Device InsightsAmy E. Louks2, Ethan G. Schwartz3, Brandon T. Motes1, Anthony T. Troupe1, Axel F. Palmstrom2, Zhaoyang Han4, Qi Jiang4, Joseph J. Berry2, J. Devin MacKenzie3, Minhal Hasham1. 1Optigon Inc., Somerville, MA, United States, 2NLR/NREL, Golden, CO, United States, 3University of Washington, Seattle, WA, United States, 4Chinese Academy of Sciences, Beijing, China | ||||||
B4 Characterization of Ionic-electronic Transport and Recombination in Perovskite Solar Cells using Impedance Spectroscopy and Drift-diffusion Simulations under Multi-biasing Conditions Juan Pablo Medina Flechas1,2, Raj Dashrath Patel2, Osbel Almora3, Dounya Barrit1,2, Marion Provost2, Sylvain Le Gall2,5, Jean-Paul Kleider2,4,5, Camille Bainier1,2, Pilar Lopez-Varo2, Philip Schulz2,4,6. 1TotalEnergies OneTech, Palaiseau, France, 2Institut Photovoltaïque d'Ile-de-France (IPVF), Palaiseau, France, 3Universitat Rovira i Virgili, Tarragona, Spain, 4Centre National de la Recherche Scientifique (CNRS), Palaiseau, France, 5Laboratoire de Génie Electrique et Electronique de Paris (GeePs), Gif-sur-Yvette, France, 6Ecole Polytechnique , Palaiseau, France | ||||||
B5 Improved CdTe metallization through use of internal energy referencing in X-ray photoelectron spectroscopyRyan Muzzio1, Christopher P. Muzzillo1, Ed Sartor1, Chungho Lee2, Matthew O. Reese1, Craig L. Perkins1. 1National Laboratory of the Rockies, Golden, CO, United States, 2First Solar Inc. , Santa Clara, CA, United States | ||||||
B6 Subjunction Spatial EL Characterization Technique for Large Area III-V and Si Space Solar CellsRivka Stasavage, Kyle Virgil, Abigail R. Meyer, Don Walker, Yao Y. Lao. The Aerospace Corporation, El Segundo, CA, United States | ||||||
B7 Detailed investigation of the Performance of Low-Concentrator PV Receiver for Wireless Laser Power Transmission under Laboratory ConditionsAlvaro Valera-Albacete1, Elvira Castillo-García1, Natalia Seoane2, Antonio García-Loureiro2, Florencia Almonacid1, Eduardo F. Fernández1. 1Advances in Photovoltaic Technology (AdPVTech), CEACTEMA, Universidad de Jaén, Jaen, Spain, 2Centro Singular de Investigación en Tecnoloxías de Información (CiTiUS), Universid de de Santiago, Santiago de Compostela, Spain | ||||||
B8 Optimizing sample preparation of CdSeTe/CdSe photovoltaic absorbers for cathodoluminescence study using FIB, SEM and TEMZhaoxia Zhou, Stuart Robertson, Sam Machin, Kieran Curson, Luksa Kujovic, Jacques Kenyon, Xiaolei Liu, Rob Ellis, Mike Walls. Loughborough University, Loughborough, United Kingdom | ||||||
|
AREA 7 |
POSTERS Chair/Organizer: Ashley Gaulding, Chiara Barretta, Bennet Meyers Poster Section 3 |
|||||
B10 Greenhouse living-lab agrivoltaic systems in SpainJoão Gabriel Bessa1, Jesus Montes-Romero1, Florencia Almonacid1, Alejandro C. Escabias1, Pillar F. Fernández-Villamil2, Fulgencio C. López2, Virginia H. Pérez2, Maria Giménez3, Eduardo F. Fernández1. 1Advances in Photovoltaic Technology (AdPVTech), CEACTEMA, University of Jaén, Jaén, Spain, 2Instituto Murciano de Investigación y desarrollo Agrario y Medioambiental (IMIDA), Murcia, Spain, 3J. Huete International, Murcia, Spain | ||||||
B12 GIS-Based Constraint Filtering for Agrivoltaic Site Screening in JapanPawita Bunme, Takashi Oozeki. Renewable Energy Advanced Research Center, National Institute of Advanced Industrial Science and Tec, Koriyama, Japan | ||||||
B13 Physics-Informed TCN Transformer with Localized P&O Refinement for Rapid Global MPPT under Partial ShadingNatnael Dejene, Sandip Das. Kennesaw State University, Marietta, GA, United States | ||||||
B14 PVCollada: A Schema for Exchange of Digital PV System Design DataClifford W Hansen1, Stephane Degre2. 1Sandia National Laboratories, Albuquerque, NM, United States, 2PVsyst SA, Satigny, Switzerland | ||||||
B15 Forecasting solar panel soiling recovery using environmental data during rain events in AfricaGrace S.W. Liu, Brendan Wright, Ali Shakiba, Abhnil Prasad, Ziv Hameiri. University of New South Wales, Kensington, Australia | ||||||
B16 Design guidelines for PV applications in the Dutch built environmentLucia Montoni1, Yingxin Feng2, Guang Hu2, Roel Loonen3, Angele Reinders2, Antonella Trombadore1. 1Department of Architecture, University of Florence, Florence, Italy, 2Department of Mechanical Engineering, Eindhoven University of Technology, Eindhoven, Netherlands, 3Department of Built Environment, Eindhoven University of Technology, Eindhoven, Netherlands | ||||||
B17 Environmental Impacts of Agrivoltaics for Arid and Semi-arid RegionsFNU Muhfizaturrahmah1,2, Christiana Honsberg2, Stuart Bowden3, Michael Goryll2, Anamitra Pal2. 1Dept. of Electrical Engineering Education, Faculty of Engineering, Universitas Negeri Yogyakarta, Yogyakarta, Indonesia, 2Arizona State University, Tempe, AZ, United States, 3Solestial Solar, Tempe, AZ, United States | ||||||
B18 Modern metrics to pre-screen variable renewable energy sites for reliable productionHeather Norton, Michael MacWilliam, Derrick Tan, Robbie Sanderson, Jerjis Kapra, Marianne Rodgers. Wind Energy Institute of Canada, Tignish, PE, Canada | ||||||
B19 Backsheet-Steel Adhesion for Integrated Photovoltaic Façades: A Comparative StudyNikolina Pervan1,2,3, Lukas Geymayer4, Martin Fleischanderl4, Hannes Kurz4, Gregor Kitzberger 4, Friedrich Füreder-Kitzmüller4, Gernot Oreski1,2. 1Polymer Competence Center Leoben GmbH , Leoben, Austria, 2Chair of Materials Science and Testing of Polymers, Montanuniversität Leoben, Leoben, Austria, 3UHasselt, Institute for Materials Research (IUMAT), Hasselt, Belgium, 4voestalpine Stahl GmbH, Linz, Austria | ||||||
B20 The Case for Low Efficiency Solar Cells in Space SatellitesBrad Reed1,2, Tim Locke2, Matt Voss3, Chris Olmedo2. 1WR Scientific, Inc., Eden, UT, United States, 2Space Force, Washington, DC, United States, 3NearSpace Launch, Upland, IN, United States | ||||||
11:15 B11 Predictive Agrivoltaics: A Novel Physics-guided Deconvolution Approach Anticipates Multi-year Indiana Commodity Crop Yield Distribution under Single-Axis Tracking AgPVJabir Bin Jahangir, Geoffrey Sanchez, Muhmmad Ashraful Alam, Peter Bermel. Elmore Family School of Electrical and Computer Engineering, Purdue University, West Lafayette, IN, United States | ||||||
|
AREA 10 |
POSTERS Chair/Organizer: Marc Perez, Martin Mayer Poster Section 4 |
|||||
C1 Real-Time PV Power Nowcasting: A Two-Stage Hybrid CNN and LSSVM Framework Using All-Sky Imagers and Kalman FilteringKhadija Barhmi, Sara Mirbagheri Golroodbari1, Wilfried Van Sark. Utrecht University, Copernicus Institute of Sustainable Development, Utrecht, Netherlands | ||||||
C2 Impact of data acquisition delays on photovoltaic forecasts performance in real-time operational processesThomas Carriere, Alexandre Boilley, Florian Ghionda, Loic Yezeguelian, Sebastien Pitaval. Calibsun, Valbonne, France | ||||||
C3 Optimization of Urban Onsite Energy Generation and Energy Storage Assets Enhancing Grid Stability for Dynamic Power GenerationBenjamin Damiani1, Adam Bennett2, Pat Phelps3, Erika Boeing2, Miguel Granier4. 1Cherry Street Energy, Atlanta, GA, United States, 2Accelerate Wind, Birmingham, AL, United States, 3WhyGrene, Seattle, WA, United States, 4Cox Cleantech Accelerator, Atlanta, GA, United States | ||||||
C4 Free Near-Real-Rime Irradiance Data is a Product from NOAA GOES SatellitesWilliam B. Hobbs1, Kevin S. Anderson2, Adam R. Jensen3. 1Southern Company, Birmingham, AL, United States, 2Sandia National Laboratories, Albuquerque, NM, United States, 3Technical University of Denmark, Kgs. Lyngby, Denmark | ||||||
C5 Integrated day-to-hour downscaling of irradiance and temperature for climate projectionJing Huang, Marc Perez, Richard Perez. Clean Power Research, Napa, CA, United States | ||||||
C6 Spatial aggregation of utility-scale solar PV power generationJing Huang, Marc Perez, Richard Perez. Clean Power Research, Napa, CA, United States | ||||||
C7 Assessment of renewable transition pathways using the firm power generation conceptMartin János Mayer1,2. 1Department of Energy Engineering, Faculty of Mechanical Engineering, Budapest University of Technolo, Budapest, Hungary, 2MTA-BME Lendület “Momentum” Renewable Energy Systems Research Group, Budapest, Hungary | ||||||
C8 Irradiance Variations of a Pyranometer due to Leveling IssuesJosh Peterson, Adagia Latta. University of Oregon, Eugene, OR, United States | ||||||
C9 Evaluating snow loss methods – Soiling kit measurements vs models using gridded input dataJosh Peterson, Alex Bryan, Julie Chard. GroundWork Renewables Inc, Sand City, CA, United States | ||||||
C10 A Data-Driven Method for Synthetic Extreme Weather Generation and Solar Impact AssessmentDuc-Huy Pham1,2, Cong Feng1, Jin Tan1. 1National Laboratory of the Rockies, Golden, CO, United States, 2North Carolina State University, Raleigh, NC, United States | ||||||
C11 Validation of a hybrid snow-loss modelAndrea Quattrone1, Mark A. Mikofski2. 1DNV, Montreal, QC, Canada, 2DNV, Oakland, CA, United States | ||||||
C12 Arabella: An Embedded IoT Environmental Monitoring System with Real-Time Solar Power Impact TrackingMaksim Rabinovich, Michael Goryll, Christiana Honsberg. Arizona State University, Tempe, AZ, United States | ||||||
C13 Performance evaluation of a PV Soiling Sensor using light filters as artificial soilingAjay Singh, Derek Jones, Kris Payne, Troy Forbush, Zach Smith. Campbell Scientific Inc. , Logan, UT, United States | ||||||
C14 Solar Nowcasting with Local Sensor Networks: Replacing Pyranometers with Abundant IoT Light Sensors and PV ModulesTobias Veihelmann, Philipp Reitz, Maximilian Lübke, Eva Russwurm, Norman Franchi. Friedrich-Alexander-Universität Erlangen-Nürnberg, Erlangen, Germany | ||||||
C15 Privacy-Preserving Geometry-Driven Capacity Factor Limit for Residential Solar PV Fleets via Data-Adaptive Irradiance ModellingHesan Ziar1, William Beuttell1, Marc Korevaar 1, Christian A. Gueymard 2. 1Kipp & Zonen B.V., Delft, Netherlands, 2Solar Consulting Services, Colebrook, NH, United States | ||||||
|
AREA 12 / INDUSTRY FORUM |
START-UP PITCH COMPETITION Chair/Organizer: Mathilde Fievez, Peter Fath Celestin A |
|||||
3:30 Sponsored introduction: Start Up Ecosystem in PVPeter Fath. RCT Solutions | ||||||
3:50 Pitch #1 - ArinnaKoosha Nazif. Arinna | ||||||
4:05 Pitch #2 - CaeluxCharlie Hasselbrink. Caelux | ||||||
4:20 Pitch #3 - Swift SolarDong Zhang. Swift Solar | ||||||
4:35 Pitch #4 - Tandem PVTim Gehan. Tandem PV | ||||||
4:50 Voting for Best Start Up Award. | ||||||
|
JOINT AREA SESSION |
VIRTUAL POSTERS Virtual Posters |
|||||
101 GenSolar: A Stochastic Generative Model for Minute-Resolution Solar Irradiance and ApplicationsMarc Abou Anoma. Anosaki Labs, Paris, France | ||||||
102 Performance and Reliability of Passive-Active Snow Removal Technique for Photovoltaic Systems in Cold ClimatesHarriet Ahu-Darkwah1, Jaewon Oh1, Sagar Bhoite2, Govindasamy Tamizhmani2. 1University of North Carolina at Charlotte, Charlotte, NC, United States, 22Photovoltaic Reliability Laboratory - Arizona State University, Mesa, AZ, United States | ||||||
103 Controlled Solvent Evaporation for AgBi₁Sb₁I₇-Based Lead-Free Triple-Mesoscopic Perovskite Solar CellsMai A Alharbi1, Tapas K Mallick1,2. 1University of Exeter , penryn, United Kingdom, 2Imam Abdulrahman bin Faisal University, Dammam, Saudi Arabia | ||||||
104 Integration of green hydrogen into residential renewable energy systemsYAHYA ALHARTHI. University of Hafr Al Batin, Hafr Albatin, Saudi Arabia | ||||||
105 Environmental Effect on the Interfacial Delamination and Critical Energy Release Rate in Thin Film CIGS Solar CellsAvinash P. Brahamanpallyker1, Hansung Kim1. 1Purdue University Northwest, Hammond, IN, United States, 2Purdue University Northwest, Hammond, IN, United States | ||||||
Short-term Data-driven Forecasting of Post-curtailment Aggregate Photovoltaic Generation in CyprusViken Davidian1,2, Panagiotis Herodotou1,3, Demetris Marangis1,3, Rogiros Tapakis2, Stavros Afxentis2, Constantinos Alexandrou2, Stelios Chiras2, George Makrides1,2, George E. Georghiou1,2. 1PHAETHON Centre of Excellence (CoE) for Intelligent, Efficient and Sustainable Energy Solutions, Uni, Nicosia, Cyprus, 2PV Technology Lab, Department of Electrical and Computer Engineering, University of Cyprus, Nicosia, Cyprus, 3Department of Mechanical and Manufacturing Engineering, University of Cyprus, Nicosia, Cyprus, 4Transmission System Operator of Cyprus, Nicosia, Cyprus | ||||||
106 Accelerated Testing of TOPCon Module with Low WVTR Transparent BacksheetADRIJA DEY, AKASH LOHAR, HARSH TRIVERI, SHASHWATA CHATTOPADHYAY. RAYZON SOLAR LIMITED, SURAT, India | ||||||
107 Considerations for a CdTe/CdSeTe two-terminal tandem solar cellAparajita Dixit, Scott Lambright, Alexander Bordovalos, Balaji Ramanujam, Isuru Lakmal, Adam Phillips, Nikolas Podraza, Michael Heben , Randy Ellingson. The University of Toledo, Toledo, OH, United States | ||||||
Enhanced Photon Trapping in Luminescent Concentrators for Low-Cost, Solution Processed Spectrum-Splitting Solar ModulesCarissa N. Eisler, Daniel Katz, Lauren Darzynkiewicz. University of California, Los Angeles, Los Angeles, CA, United States | ||||||
F3 Operational Impact of High Rooftop PV Penetration on an Urban 11 kV Distribution Feeder: A Utility-Scale Simulation StudyRishu Garg, Hanumanth Raju GV, Stalon Jessin. Center for Study of Science, technology and Policy , Bangalore, India | ||||||
108 Reproducibility evaluation of calibration procedures for measurement values of I-V characteristics of photovoltaic modulesTinglin Guo, Xin Huang, Yuehua Yang, He Wang, Hong Yang. Xi’an Jiaotong University, Xi’an, China | ||||||
109 Coring Technique Development and Failure Analysis of Perovskite Solar ModulesYujian Han1,2, Xiting Lang2, Minghui Li2, Hao Tian2, Hong Lu5, Xirui Liu2, Xingxing Wang2, Lang Wen2, Jiang Sheng4, Jichun Ye2, Chongwen Li6, Chuanxiao Xiao2,3. 1University of Science and Technology of China, Hefei, China, 2Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, Ningbo, China, 3Ningbo New Materials Testing and Evaluation Center CO. Ltd, Ningbo, China, 4ChangZhou S.C Exact Equipment Co, Changzhou, China, 5University of Nottingham Ningbo China, Ningbo, China, 6Southeast University, Nanjing, China | ||||||
110 Improving The Hosting Capacity Of PV Systems In LV Grids Through Energy Storage Systems And Smart InvertersAnny Huaman-Rivera, Agustin Irizarry-Rivera, Ricardo Calloquispe-Huallpa. University of Puerto Rico-Mayagüez (UPRM), Mayagüez, PR, Puerto Rico | ||||||
111 Technical and Economic Evaluation of PV Hosting Capacity Enhancement in Distribution NetworksAnny Huaman-Rivera, Agustin Irizarry-Rivera, Ricardo Calloquispe-Huallpa. University of Puerto Rico-Mayagüez (UPRM), Mayagüez, PR, Puerto Rico | ||||||
112 Impact of errors in temperature coefficients on STC corrected-maximum power offset of photovoltaic modulesXin Huang, Yuehua Yang, Tinglin Guo, He Wang, Hong Yang. Xi’an Jiaotong University, Xi’an, China | ||||||
113 Effect of series resistance on offset of STC-corrected maximum power of photovoltaic modulesXin Huang, Tinglin Guo, Yuehua Yang, He Wang, Hong Yang. Xi’an Jiaotong University, Xi’an, China | ||||||
114 Measurement uncertainty of STC maximum power degradation of photovoltaic modulesXin Huang, Tinglin Guo, Yuehua Yang, He Wang, Hong Yang. Xi’an Jiaotong University, Xi’an, China | ||||||
115 Impact factors in intra-laboratory measurement reproducibility for photovoltaic modulesXin Huang, Yuehua Yang, Tinglin Guo, He Wang, Hong Yang. Xi’an Jiaotong University, Xi’an, China | ||||||
116 Effect of temperature on the forward and reverse electrical performance of InAs/GaAs1-xSbx quantum dot solar cellsChunxue Ji1,2, Yidi Bao1,2, Xiaoling Chen1,2, Xiaoyang Zhao1,2, Wen Liu1,2, Xiaodong Wang1,2. 1Engineering Research Center for Semiconductor Integrated Technology, Institute of Semiconductors, Ch, BEIJING, China, 2Center of Materials Science and Optoelectronics Engineering & School of Integrated Circuits, Univers, BEIJING, China | ||||||
117 Kinematic and Static Equilibrium Analysis of Five-Pin and Three-Pin Graphite Boat Designs for Stable PECVD Wafer HandlingSiddhant Kaushik. University of California, Berkeley, Berkeley, CA, United States | ||||||
118 Mechanism of ohmic contact resulting from heavily doped p-n junction: A novel explanation in terms of impurity-photovoltaic-effect due to infrared self-emission at room-temperatureJianming Li. Institute of Semiconductors, Chinese Academy of Sciences, Beijing, China | ||||||
119 Optimization of Aluminum Frame Design for Solar Panels Through Simulation of Von Misses Stress Under LoadAKASH LOHAR, Sarthak Sonkar, Praveen Mandloi, Kamalesh Barman, Adrija Dey, Shashwata Chattopadhyay. RAYZON SOLAR LIMITED, SURAT, India | ||||||
120 Accelerated Corrosion Testing of TOPCon Solar Cells in Pressure Cooker Test (PCT) ChamberAKASH LOHAR, ADRIJA DEY, SHASHWATA CHATTOPADHYAY. RAYZON SOLAR LIMITED, SURAT, India | ||||||
121 Studies for Voltage Maintenance in Microgrid Development in the La Margarita Community in Salinas, Puerto RicoMelissa Louie1, Rachid Darbali-Zamora1, Jimmy Quiroz1, Wanda Rios2, Adam Eberwein3, Thad Haines1. 1Sandia National Laboratories, Albuquerque, NM, United States, 2Abeyno Cooperative, Salinas, DC, Puerto Rico, 3EarthSpark International, Washington D.C., PR, United States | ||||||
122 Automated Performance Evaluation Frameworks: Leveraging Large Language Models for Scalable Service Delivery in Multi-Tiered Solar Asset ManagementAndré M. Nobre1, Carlos Alberto Severiano Jr.2, Manav Gupta1, Yi Zhen Zhou1. 1PV Doctor, Singapore, Singapore, 2Instituto Federal de Minas Gerais , Sabará, Brazil | ||||||
123 Vacuum Coating Strategies to Minimize Interface Voltage Loss in Perovskite Solar CellsIsaac B. Ogunniranye, Haoran Chen, Kshitiz Dolia, Scott L. Wenner, Kiran Lamichhane, Michael J. Heben, Randy J. Ellingson, Yanfa Yan, Zhaoning Song. The University of Toledo, Toledo, OH, United States | ||||||
124 Evaluation of NRCan’s New RETScreen Net Zero Portfolio Manager for Use in Arctic EnvironmentsTalin Patel1, Jinwook Chang2, Martha Lenio3. 1Basis Independent Brooklyn, Brooklyn, NY, United States, 2 Shanghai American School, Puxi Campus, Shanghai, China, 3Mars Green Consulting, Iqaluit, NU, Canada | ||||||
126 Annealing of Electron-beam Evaporated Nickel Oxide for Hole Transport Layers in p-i-n Perovskite Solar CellsChaiwarut Santiwipharat, Kevin D. Dobson, Ujjwal K. Das, William N. Shafarman. Institute of Energy Conversion, University of Delaware, Newark, DE, United States | ||||||
127 Characterization of Organic Semiconductor Thin Films Prepared via Mist Deposition byMultifunctional Scanning Probe MicroscopyNobuo Satoh1, Yuma Saitoh1, Taiga Kaiami2, Shigetaka Katori2. 1Chiba Institute of Technology, Narashino, Japan, 2National Institute of Technology, Tsuyama College, Tsuyama, Japan | ||||||
128 A Minimal Neural Augmentation of PVLib for Accurate and Transferable PV Digital TwinsRafsan Sayad1, Shah Mohazzem Hossain1, Md Ahsan Kabir1, Mohammed Mynuddin2, Md Majedul Haque Mithun3, Mahir Foysal4. 1Military Institute of Science and Technology, Dhaka, Bangladesh, 2Hitachi Energy, Raleigh, NC, United States, 3North Carolina A & T State University, Greensboro, NC, United States, 4University of Houston, Houston, TX, United States | ||||||
129 An Investigation on Industrial Encapsulant–Glass Interfacial Adhesion: Comparing Standard EVA with Next-Gen EPE and EPE-DC under Highly Accelerated Stress Testing (HAST)Bhuwanesh Kumar Sharma1, Devnanadan Kumar1, Aakash Lohar1, Adrija Dey1, Smith Desai1, Shashwata Chattopadhyay1. 1RAYZON SOLAR LIMITED, SURAT, India, 2RAYZON SOLAR LIMITED, SURAT, India, 3RAYZON SOLAR LIMITED, SURAT, India, 4RAYZON SOLAR LIMITED, SURAT, India, 5RAYZON SOLAR LIMITED, SURAT, India, 6RAYZON SOLAR LIMITED, SURAT, India | ||||||
130 Who Owns the Risk? Temporal Misalignment Between PV Manufacturing, Degradation, and Project-Level Uncertainty in Utility-Scale SolarAndy Skumanich. SolarVisionCo, San Francisco, CA, United States | ||||||
131 Integration Between PV-Array and Electric Vehicles with Boost-DAB Converters for Large AutonomyAlejandro Stowhas-Villa1, Sebastián Rodriguez-Romero2, Matias G. Veillon1, Diego Arias2, Christian A. Rojas1, Edward Fuentealba2, Jorge Rabanal-Arabach2. 1Department of Electronics, Universidad Técnica Federico Santa María, Valparaiso, Chile, 2Department of Electrical Engineering, Universidad de Antofagasta, Antofagasta, Chile | ||||||
132 Power Matrix Reconstruction of HJT PV Modules for CSER Rating: A Segmented Hybrid Parameter Extraction MethodYuehua Yang, Xin Huang, Tinglin Guo, He Wang, Hong yang. Xi’an Jiaotong University, Xi’an, China | ||||||
133 Dual Dependency of Series Resistance in HJT solar modules: Analysis Under Varying Irradiance and TemperatureYuehua Yang, Xin Huang, Tinglin Guo, He Wang, Hong Yang. Xi’an Jiaotong University, Xi’an, China | ||||||
134 Insight into the Mechanism of Reversible UVID in TOPCon Solar Cells using a non-destructive characterisationPengfei Zhang, Caixia Li, Ziheng Liu, Jialiang Huang, Jialin Cong, Jingwen Cao, Martin A. Green, Xiaojing Hao. UNSW, Sydney, Sydney, Australia | ||||||
135 Rollable Lightweight Silicon Heterojunction Solar Cell modules for Space ApplicationsWenjie Zhao1, Zhengxin Liu1,2, Jianhua Shi1,2, Anjun Han1,2, Junlin Du1,2, Wenzhu Liu1,2, Fanying Meng1, Liping Zhang1, Qiang Shi1, Chen Qiu1, Yue Yuan1, Zengfeng Di1. 1National Key Laboratory of Materials for Integrated Circuits, Shanghai Institute of Microsystem and , Shanghai, China, 26T Solar Co., Ltd, Shanghai, China | ||||||
|
SOCIAL |
WELCOME RECEPTION & EXHIBITS Storyville (Exhibit Hall) |
|||||
