Article
Physics, Multidisciplinary
Arun Nagendra, Jeremy B. Trombley, Erwin H. W. Chan
Summary: The transport of holes through a representative amorphous-crystalline Ge2Sb2Te5 heterojunction under forward bias is explored and an approximate analytic model is proposed to describe the transport characteristics. The model incorporates thermionic emission and drift-diffusion processes but neglects recombination and transport in the space-charge regions. Simulation results show that the proposed model accurately captures the physics of thermionic emission-limited transport at low bias and drift-diffusion-limited transport at larger biases.
Article
Energy & Fuels
Lilan Wen, Lei Zhao, Guanghong Wang, Xiaojie Jia, Xiaohua Xu, Shiyu Qu, Xiaotong Li, Xianyang Zhang, Ke Xin, Jihong Xiao, Wenjing Wang
Summary: The trilayer a-SiOx:H(i) stacked passivation structure was designed for SHJ solar cells on n-type c-Si wafer to improve their fill factor (FF). By depositing a-SiOx:H(i) layers with different oxygen contents using PECVD, highly efficient SHJ solar cells with an average efficiency of 25.37% were achieved. The trilayer passivation scheme demonstrated higher JSC, VOC, and slightly increased FF compared to solar cells with complete a-Si:H passivation layers.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2023)
Article
Chemistry, Multidisciplinary
Benedikt Fischer, Andreas Lambertz, Maurice Nuys, Wolfhard Beyer, Weiyuan Duan, Karsten Bittkau, Kaining Ding, Uwe Rau
Summary: This study demonstrates that Raman spectroscopy is suitable for directly determining the microstructure of thin hydrogenated amorphous silicon layers on silicon heterojunction solar cells. A detailed comparison of FTIR and Raman spectroscopy shows significant differences in the microstructure parameter with decreasing a-Si:H film thickness.
ADVANCED MATERIALS
(2023)
Article
Green & Sustainable Science & Technology
Haris Mehmood, Hisham Nasser, Syed Muhammad Hassan Zaidi, Tauseef Tauqeer, Rasit Turan
Summary: This study addresses the dopant-related issues in crystalline silicon solar cells by implementing dopant-free layers and using tungsten oxide and titanium oxide as hole- and electron-selective films, leading to optimized performance in solar cell design.
Article
Engineering, Environmental
Pengcheng Wu, Huoerhute Yelemulati, Shanshan Zhu, Bowen Peng, Hailong Li, Hongyong Ye, Juan Hou, Keliang Wu, Zhiyong Liu
Summary: The construction of oxygen vacancies (Ovs) is an important approach to regulate the electronic structure and catalytic properties of semiconductor materials. In this study, a new method involving in situ B-doping and amorphous-crystalline junction was proposed for constructing riched Ovs to enhance photoelectrocatalytic water oxidation performance. The introduction of B-doping and amorphous-crystalline junction was confirmed to result in a substantial increase in Ovs concentration. DFT calculations and COMSOL simulations revealed that the electric field deviation could promote the charge separation of the composite, thereby improving the catalytic activity.
CHEMICAL ENGINEERING JOURNAL
(2023)
Article
Nanoscience & Nanotechnology
Andreas Fuchsberger, Lukas Wind, Masiar Sistani, Raphael Behrle, Daniele Nazzari, Johannes Aberl, Enrique Prado Navarrete, Lada Vukusic, Moritz Brehm, Peter Schweizer, Lilian Vogl, Xavier Maeder, Walter M. Weber
Summary: Reconfigurable field-effect transistors, such as SiGe-based transistors, offer dynamic programming capabilities, reducing transistor count and circuit path delay. However, Ge-based prototypes have faced issues with interface instability and current-voltage symmetry. A new SiGe-based technology has been developed, featuring a vertical Si-Si0.67Ge0.33 heterostructure and monolithic integration with Al contacts for stability and improved performance. The design includes a three top-gate transistor and a hysteresis-free Si/SiO2/HfO2 gate stack for polarity control and leakage current suppression. This technology represents a breakthrough in Ge-based transistor performance and stability.
ADVANCED ELECTRONIC MATERIALS
(2023)
Article
Chemistry, Multidisciplinary
Hanpeng Deng, Hunan Jiang, Kun Wang, Zhenyu Wang, Bin Wang, Zuowan Zhou, Jinyang Li
Summary: Developing efficient and robust electrocatalysts for water splitting is crucial, but the slow oxygen evolution reaction (OER) process has been a major obstacle. Recently, amorphous/crystalline heterophase engineering has emerged as a promising approach for modulating the electronic structures of OER catalysts. In this study, amorphous/crystalline NiFe2O4 induced by vanadium doping was combined with NiP heterojunction, demonstrating a synergistic effect in electronic structure modulation and enhanced conductivity.
NANOTECHNOLOGY REVIEWS
(2022)
Article
Materials Science, Multidisciplinary
Mrutyunjay Nayak, Kristin Bergum, George E. Stan, In-Hwan Lee, Andrej Kuznetsov
Summary: Sub-stochiometric nickel oxide (NiOx) films were investigated as a hole selective contact in silicon (Si) heterojunction solar cells. Numerical simulations were performed to assess the effects of NiOx electronic properties and NiOx/Si interface defect density (D-it) on device performance. The simulations showed that the best performance is achieved with wide bandgaps (E-g) and high valence band edge (E-VB) positions in the NiOx films. Experimental data revealed that an increase in nickel vacancy concentrations ([V-Ni]) led to an increase in conductivity, as well as a decrease in E-g and E-VB of the sputtered NiOx films. Therefore, the performance of the sputtered NiOx/Si heterojunction solar cell is limited by high D-it, narrow E-g, and low E-VB.
PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE
(2023)
Article
Engineering, Electrical & Electronic
Qingguo Zeng, Guangxing Guo, Zibo Meng, Lei Gao, Hongchen Meng, Lang Zhou
Summary: This study investigates the improvement of amorphous silicon/crystalline silicon heterojunction solar cells through light-thermal processes. The effects of illumination intensity and temperatures on the cells are explored, and the roles of light and heat in the improvement are analyzed. The results show that higher illumination intensity leads to longer cell lifetimes, and the optimal cell temperature is around 180 degrees C. It is also found that the effect of illumination is not directly related to the injected photons, but possibly caused by the effect of light-generated carriers. The light-thermal processes achieved an average efficiency gain of 0.77% and a maximum gain of 0.87% for commercial HJT cells under 12 kW/m(2) red illumination, with a processing time of 80 s. The study highlights the lower power consumption and potential industrial application of the process.
MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING
(2023)
Article
Chemistry, Multidisciplinary
Le Li, Guanlin Du, Yinyue Lin, Xi Zhou, Zeyu Gu, Linfeng Lu, Wenzhu Liu, Jin Huang, Jilei Wang, Liyou Yang, Shan-Ting Zhang, Dongdong Li
Summary: The research team introduced a NiOx/MoOx bilayer as an efficient hole-selective contact and achieved high power conversion efficiency. Depositing NiOx on MoOx, interfacial reactions modified the chemistry of both oxides, leading to enhanced hole selectivity.
CELL REPORTS PHYSICAL SCIENCE
(2021)
Article
Energy & Fuels
Linkun Zhang, Lanxiang Meng, Lun Cai, Zhiming Chen, Wenjie Lin, Nuo Chen, Wenxian Wang, Hui Shen, Zongcun Liang
Summary: Dopant-free electron-selective material EuFx is developed to form an Ohmic contact between lightly doped n-type c-Si and Al, achieving a champion power conversion efficiency of 21.6% in solar cells.
Article
Energy & Fuels
Jagannath Panigrahi, Ashutosh Pandey, Shrestha Bhattacharya, Alok Pal, Sourav Mandal, Vamsi Krishna Komarala
Summary: In this article, the electronic properties of a-Si:H/c-Si heterojunction (SHJ) solar cells were investigated using impedance spectroscopy (IS) characterization. Various dynamic electrical processes occurring at different time scales were observed mainly in the operating regime of the device. Several distinct characteristics were observed, including time constant distribution, bias voltage and illumination intensity dependence of the recombination time constant, and an additional fast process under illumination.
Article
Chemistry, Multidisciplinary
Feihu Mu, Benlin Dai, Wei Zhao, Xiaofan Yang, Xiaolong Zhao, Xujing Guo
Summary: The construction of a heterojunction photocatalyst with amorphous/crystalline contact Bi2S3/Bi4O7 heterostructure significantly enhances the photocatalytic activity by promoting the separation of photogenerated carriers. The optimized Bi2S3/Bi4O7 heterostructure photocatalyst exhibits much higher activity than pure Bi4O7 and Bi2S3/Bi4O7 mixture under visible light irradiation, indicating the effectiveness of the methodology.
CHINESE CHEMICAL LETTERS
(2021)
Review
Optics
Terence K. S. Wong, Keyi Pei
Summary: Carrier-selective passivating contacts play a crucial role in efficient electron and hole extraction in crystalline silicon solar cells. This review discusses the principles of carrier extraction and recombination in conventional industrial silicon solar cells. It then reviews passivating contacts based on amorphous hydrogenated silicon and polysilicon/silicon oxide, focusing on carrier selectivity mechanisms. The review also describes recent developments in non-silicon based passivating contacts, such as transition metal oxides, alkali/alkali earth metal fluorides, and organic conjugated polymers, and compares their performance and stability with silicon-based passivating contacts in asymmetric double heterojunction silicon solar cells.
Article
Chemistry, Multidisciplinary
Natalia Bushlanova, Vladimir Baturin, Sergey Lepeshkin, Yurii Uspenskii
Summary: Silicon nanocrystals have significant potential in various applications, with their structural morphology and photo-physical characteristics being sensitive to hydrogenation degree. The clusters of hydrogen-passivated silicon can undergo different structural types, with a key importance on removing dangling bonds and passivating surface broken bonds.
Article
Physics, Applied
P. Llontop, C. E. Torres, M. Pineiro, L. Conde, A. Tejada, A. Toefflinger, F. Rumiche, F. F. H. Aragon, D. G. Pacheco-Salazar, R. Grieseler, L. Korte, J. A. Guerra
Summary: The effect of adding terbium to indium tin oxide (ITO) thin films on the electrical, optical, and light emission properties was investigated. Terbium-related luminescence was achieved after annealing, and the compromise between light emission intensity, electrical and optical properties was evaluated. The temperature dependence of Tb-related luminescence quenching was assessed, suggesting an effective energy transfer mechanism from the ITO host to the rare-earth ions.
JOURNAL OF PHYSICS D-APPLIED PHYSICS
(2022)
Article
Materials Science, Multidisciplinary
Engin Oezkol, Philipp Wagner, Florian Ruske, Bernd Stannowski, Lars Korte
Summary: Applying chemical passivation techniques known for n-type technology on p-type float-zone wafers can achieve excellent surface passivation and improve the efficiency of p-type silicon heterojunction technology.
PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE
(2022)
Article
Materials Science, Multidisciplinary
Alvaro Tejada, Sven Peters, Amran Al-Ashouri, Silver Hamill Turren-Cruz, Antonio Abate, Steve Albrecht, Florian Ruske, Bernd Rech, Jorge Andres Guerra, Lars Korte
Summary: A quantitative analysis of thermally induced degradation of various device-relevant multi-cation hybrid perovskite films was conducted using spectroscopic ellipsometry. The study found that changes in organic cation concentrations can be quantified from the mid-infrared molecular absorption bands. Additionally, the formation of PbI2 and non-perovskite delta-CsPbI3 phases was evidenced through Bruggemann effective medium fits.
ADVANCED OPTICAL MATERIALS
(2022)
Article
Energy & Fuels
Silvia Mariotti, Klaus Jaeger, Marvin Diederich, Marlene S. Haertel, Bor Li, Karl Sveinbjoernsson, Sarah Kajari-Schroeder, Robby Peibst, Steve Albrecht, Lars Korte, Tobias Wietler
Summary: Combining perovskite and silicon solar cells can enhance the power conversion efficiency of silicon single-junction technology.
Article
Chemistry, Physical
Dorothee Menzel, Amran Al-Ashouri, Alvaro Tejada, Igal Levine, Jorge Andres Guerra, Bernd Rech, Steve Albrecht, Lars Korte
Summary: Through ultra-sensitive near-UV photoelectron spectroscopy, the energy level alignment and defect formation at the perovskite/C-60 interface are investigated. It is found that the fullerene C-60 as the electron transport layer limits the open circuit voltage in metal halide perovskite solar cells. The voltage enhancement with the incorporation of a LiF interlayer at the interface can be attributed to a dipole effect and the presence of fixed charges.
ADVANCED ENERGY MATERIALS
(2022)
Editorial Material
Chemistry, Physical
Kari Sveinbjoernsson, Bor Li, Silvia Mariotti, Enrico Jarzembowski, Lukas Kegelmann, Andre Wirtz, Felix Fruehauf, Anika Weihrauch, Ralf Niemann, Lars Korte, Fabian Fertig, Joerg W. Wueller, Steve Albrecht
Summary: A monolithic two-terminal perovskite/silicon tandem solar cell was fabricated based on an industrial silicon bottom cell with mass-production feasible processes, showing a steady-state power conversion efficiency of 28.7% and an open-circuit voltage of over 1.9 V.
ACS ENERGY LETTERS
(2022)
Article
Chemistry, Physical
Ke Xu, Amran Al-Ashouri, Zih-Wei Peng, Eike Koehnen, Hannes Hempel, Fatima Akhundova, Jose A. Marquez, Philipp Tockhorn, Oleksandra Shargaieva, Florian Ruske, Jiahuan Zhang, Janardan Dagar, Bernd Stannowski, Thomas Unold, Daniel Abou-Ras, Eva Unger, Lars Korte, Steve Albrecht
Summary: This study demonstrates the application of slot-die coating technique in the fabrication of wide bandgap halide perovskite materials, and the optimization of annealing conditions to improve the crystallinity and performance of the perovskite film. The results show the performance of slot-die coated wide bandgap perovskite absorber in single-junction and tandem solar cells, and the fabrication of a highly efficient monolithic tandem solar cell by combining with a commercial wafer.
ACS ENERGY LETTERS
(2022)
Article
Energy & Fuels
Max Grischek, Pietro Caprioglio, Jiahuan Zhang, Francisco Pena-Camargo, Kari Sveinbjornsson, Fengshuo Zu, Dorothee Menzel, Jonathan H. Warby, Jinzhao Li, Norbert Koch, Eva Unger, Lars Korte, Dieter Neher, Martin Stolterfoht, Steve Albrecht
Summary: This study investigates the reasons for the low V-OC in inorganic CsPbI2Br perovskite solar cells, revealing a strong mismatch between QFLS and V-OC. It also highlights the potential for efficiency improvement due to the low defect density in CsPbI2Br films.
Article
Energy & Fuels
Philipp Wagner, Philipp Tockhorn, Sebastian Hall, Steve Albrecht, Lars Korte
Summary: Research focuses on perovskite/silicon tandem solar cells in two- or four-terminal configurations. This paper presents an alternative monolithic architecture using three terminals, combining a semi-transparent perovskite top cell with a silicon heterojunction bottom cell. The presence of a p/n recombination junction allows for current regulation, making current matching between subcells unnecessary. It is found that maximizing current generation in the top cell, rather than current matching, leads to the highest power conversion efficiency.
Article
Physics, Applied
K. Lizarraga, L. A. Enrique-Moran, A. Tejada, M. Pineiro, P. Llontop, E. Serquen, E. Perez, L. Korte, J. A. Guerra
Summary: We propose new optical dispersion models that accurately describe the imaginary part of the electrical permittivity of dielectric and semiconductor materials. Our models incorporate the Urbach tail and Lorentz oscillator behavior, and we derive a five-parameter formula based on the Tauc-Lorentz dispersion model and the band-fluctuations approach. The models are successfully applied to various direct and indirect semiconductors, accurately capturing the spectra of the imaginary part of the electrical permittivity.
JOURNAL OF PHYSICS D-APPLIED PHYSICS
(2023)
Article
Energy & Fuels
Angelika Harter, Silvia Mariotti, Lars Korte, Rutger Schlatmann, Steve Albrecht, Bernd Stannowski
Summary: Nano-textured surfaces are explored for optimizing the optical characteristics of monolithic perovskite/silicon tandem solar cells. Different textured silicon surfaces are developed using commercial additives and their performance in silicon heterojunction (SHJ) and SHJ-perovskite tandem solar cells is discussed. The nano-textured surfaces exhibit comparable or higher efficiencies than standard textured surfaces in single junctions, and they are compatible with solution-processed perovskite top cells, yielding a perovskite/silicon tandem solar cell efficiency of >28% on both sides of a nano-textured bottom cell.
PROGRESS IN PHOTOVOLTAICS
(2023)
Article
Chemistry, Physical
Jinzhao Li, Janardan Dagar, Oleksandra Shargaieva, Oliver Maus, Marco Remec, Quiterie Emery, Mark Khenkin, Carolin Ulbrich, Fatima Akhundova, Jose A. Marquez, Thomas Unold, Markus Fenske, Christof Schultz, Bert Stegemann, Amran Al-Ashouri, Steve Albrecht, Alvaro Tejada Esteves, Lars Korte, Hans Koebler, Antonio Abate, Daniel M. Toebbens, Ivo Zizak, Emil J. W. List-Kratochvil, Rutger Schlatmann, Eva Unger
Summary: The authors demonstrate that adjustable ink viscosity can prevent ribbing effects when coating large-area halide perovskite layers. By adding acetonitrile as a co-solvent, smooth and high-quality FAPbI(3) thin-films are obtained. Scaling devices to larger areas, a power conversion efficiency of 17.1% is achieved in laser series-interconnected mini-modules. However, outdoor stability testing shows a decline in performance during warmer summer months.
ADVANCED ENERGY MATERIALS
(2023)
Article
Chemistry, Physical
Fengjiu Yang, Rowan W. MacQueen, Dorothee Menzel, Artem Musiienko, Amran Al-Ashouri, Jarla Thiesbrummel, Sahil Shah, Karunanantharajah Prashanthan, Daniel Abou-Ras, Lars Korte, Martin Stolterfoht, Dieter Neher, Igal Levine, Henry Snaith, Steve Albrecht
Summary: In this study, rubidium iodide is used as an additive for methylammonium-free Sn-Pb perovskites. It is found that the RbI additive reduces the defect density, recombination losses, and carrier trapping, leading to improved carrier lifetime and open-circuit voltage of the perovskite films. The best efficiency achieved is over 20%.
ADVANCED ENERGY MATERIALS
(2023)
Proceedings Paper
Energy & Fuels
Cham Thi Trinh, Amran Al-Ashouri, Lars Korte, Daniel Amkreutz, Steve Albrecht, Bernd Stannowski, Rutger Schlatmann
Summary: This work focuses on 2D device simulation for perovskite/tandem solar cells to reproduce experimental current-voltage curves and explore efficiency improvements, showing the importance of controlling the work functions of ITO and SnOx films for achieving high fill factors. Optical and electrical losses in the tandem device are addressed through quantum efficiencies and reflectance simulation.
2021 IEEE 48TH PHOTOVOLTAIC SPECIALISTS CONFERENCE (PVSC)
(2021)
Article
Nanoscience & Nanotechnology
Mandefro Y. Teferi, Hans Malissa, Anna Belen Morales-Vilches, Cham T. Trinh, Lars Korte, Bernd Stannowski, Clayton C. Williams, Christoph Boehme, Klaus Lips
Summary: The study reveals that the macroscopic performance of Silicon heterojunction (SHJ) solar cells is influenced by local nanometer-sized percolation pathways associated with bandtail states of doped a-Si:H selective contact. The complex nature of these nanometer-scale charge percolation pathways leads to a wide distribution of local photovoltage due to the trap-assisted tunneling causing dark leakage current.
ACS APPLIED NANO MATERIALS
(2021)
Article
Energy & Fuels
Shahriyar Safat Dipta, Md Habibur Rahaman, Walia Binte Tarique, Ashraful Hossain Howlader, Ayush Pratik, John A. Stride, Ashraf Uddin
Summary: Implementing a double-sided passivation approach can enhance the performance of n-i-p structured PSCs and improve the stability and photovoltaic properties of the cells.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
Daniel Ourinson, Andreas Brand, Andreas Lorenz, Marwan Dhamrin, Sebastian Tepner, Michael Linse, Nathalie Goettlicher, Kosuke Tsuji, Jonas D. Huyeng, Florian Clement
Summary: This work presents two approaches to reduce the amount of silver on the rear side of M2-sized industrial iTOPCon solar cells. The Cu-based approach shows promise with similar power conversion efficiency compared to the conventional approach, while the Al-based approach exhibits some limitations but demonstrates the potential of such type of contact for iTOPCon solar cells.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
Abasifreke Ebong, Donald Intal, Sandra Huneycutt, Thad Druffel, Ruvini Dharmadasa, Kevin Elmer, Apolo Nambo
Summary: This study demonstrates the successful metallization of a PERC silicon solar cell using screen-printable copper (Cu) paste. The Cu paste contains antioxidant additives and diffusion inhibitors to prevent oxidation and diffusion of Cu. The Cu-printed cells achieved an efficiency of 19% and showed no Cu diffusion after characterization tests. The long-term stability and effectiveness of the Cu diffusion barrier were also confirmed.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
Senami Zogbo, Wilfried Favre, Olivier Bonino, Marie-Estelle Gueunier-Farret
Summary: Measuring specific contact resistivity (pc) is crucial for interface engineering in high efficiency solar cells. The Transfer Length Method (TLM) is commonly used for evaluating layer sheet resistance (Rsheet) and pc, but it is not suitable for metal/Transparent Conductive Oxide (TCO) interface evaluation in silicon heterojunction (SHJ) cells. This study investigates the parameters that restrict current confinement within the TCO, including mid-gap trap density (Dit) at the a-Si:H/c-Si interface and the activation energy (Ea = Ec - EF) variation of a-Si:H contact layers.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
Jean-Baptiste Charpentier, Philippe Voarino, Julien Gaume
Summary: The phenomenon of ribbon lengthening in PV modules exposed to thermal cycling is not well explained in the literature. In this study, a three layers model is proposed to explain this effect, and the predictions of the model are validated through finite element method simulations and experiments. The results show that the model predictions are consistent with the indirect measurements, but not with the direct measurements. Additionally, it is inferred that the encapsulant plays a role after the solder failure.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
Jean-Baptiste Charpentier, Philippe Voarino, Julien Gaume
Summary: This study investigates the problematic ribbon lengthening observed in PV modules exposed to high amplitude thermal cycling. A simplified system model is proposed and accurate predictions are obtained using the Finite Element Method. The results show that the thickness of the encapsulant has a substantial impact on the lengthening of the ribbons.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
S. Catalan-Gomez, E. Martinez Castellano, M. Schwarz, M. Montes Bajo, L. Dorado Vargas, A. Gonzalo, A. Redondo-Cubero, A. Gallego Carro, A. Hierro, J. M. Ulloa
Summary: This study investigates the use of core-shell gallium nanoparticles as functional light scatterers on solar cells. By optimizing the nanoparticle size, the short-circuit current of the solar cells is significantly improved. The underlying physical mechanism is studied through optical measurements and simulations, and a method to reduce the plasmonic effect of the nanoparticles is demonstrated.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
M. Gamel, G. Lopez, A. M. Medrano, A. Jimenez, A. Datas, M. Garin, I. Martin
Summary: In this study, a highly reflective ohmic contact to p-type c-Ge material is demonstrated, which can improve the efficiency of thermophotovoltaic devices. The experimental results show that this contact can simultaneously meet the requirements of good back surface passivation, low electrical resistivity, and high reflectivity. Moreover, simulations suggest that implementing these back contacts has the potential to achieve conversion efficiencies comparable to high-efficiency c-Ge TPV cells.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
Hongyang Wei, Qing Xu, Dongchu Chen, Min Chen, Menglei Chang, Xiufang Ye
Summary: This study prepared solar selective absorption films based on anodic aluminum oxide (AAO) photonic crystals using a unique electrodeposition method. The Co-Ag electrodeposited film exhibited superior solar selective absorption properties and thermal stability.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
Ankit Kumar, Ankit Chauhan, Jordi Llobet, Helder Fonseca, Patricia C. Sousa, Carlos Calaza, Gil Shalev
Summary: This study found that decorating subwavelength arrays with SiO2 quasi-nanolenses (qNL arrays) can enhance the absorption of the solar spectrum. Optical absorption mechanisms in qNL arrays were investigated using near-field scanning optical microscopy (NSOM), revealing that the enhancement is a result of the combination of effective antireflection coating, increased optical interactions between adjacent dielectrics for elevated light trapping, and strong light concentration due to the presence of qNLs.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
S. Pingel, T. Wenzel, N. Goettlicher, M. Linse, L. Folcarelli, J. Schube, S. Hoffmann, S. Tepner, Y. C. Lau, J. Huyeng, A. Lorenz, F. Clement
Summary: This study demonstrates the potential to reduce silver consumption in highly efficient SHJ cells through fine-line screen printing using low temperature paste with various screens. The results show that using finer mesh allows for narrower grid fingers and lower resistance, leading to improved cell efficiency. Simulation results indicate that module wire configuration is crucial for reducing silver consumption.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
Xibo He, Jun Qiu, Wei Wang, Yicheng Hou, Yong Shuai
Summary: This paper proposes a novel phase change material with high thermal conductivity and stability for fast photo-thermal conversion and storage. The experimental results demonstrate excellent durability and stability of the phase change material, with good performance in thermal conductivity and thermal storage efficiency.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
Qingyuan Liu, Lin Wang, Zheng Liu, Guohua Liu
Summary: A new evaporating structure consisting of liquid marble with tunable nanowire array is proposed to enhance solar evaporation. The experiments show that the liquid marble with nanowire array exhibits outstanding evaporation performance, which has significant implications for seawater desalination or wastewater treatment.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
Hao Liu, Qiming Liu, Jinpei Liu, Yonggang Zhao, Yingjie Yu, Yue An, Ganghui Wei, Yanzheng Li, Yujun Fu, Junshuai Li, Deyan He
Summary: Moisture in the air is identified as the main cause of performance degradation in organic-inorganic hybrid solar cells. Exposure to air leads to the growth of thin oxide layer on the interface and the formation of silver sulfide, increasing the series resistance and decreasing the fill factor, thus degrading the cell performance.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
Article
Energy & Fuels
E. Blanco, P. Martin, M. Dominguez, P. Fernandez-Palacios, I. Lombardero, C. Sanchez-Perez, I. Garcia, C. Algora, M. Gabas
Summary: This study addresses the lack of optical parameters for p-type Ge wafers by determining the complex refractive indices of commercial Ge wafers with varying doping levels. The obtained data successfully reproduces the critical points associated with interband transitions and absorption features below the bandgap. The refractive indices were validated through experimental measurements and solar cell simulations.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2024)
