Photovoltaics literature survey (No. 174)

At a Glance

Metadata	Details
Publication Date	2022-03-01
Journal	Progress in Photovoltaics Research and Applications
Authors	Ziv Hameiri
Institutions	UNSW Sydney
Citations	1

Abstract

In order to help readers stay up-to-date in the field, each issue of Progress in Photovoltaics will contain a list of recently published journal articles that are most relevant to its aims and scope. This list is drawn from an extremely wide range of journals, including IEEE Journal of Photovoltaics, Solar Energy Materials and Solar Cells, Renewable Energy, Renewable and Sustainable Energy Reviews, Journal of Applied Physics and Applied Physics Letters. To assist readers, the list is separated into broad categories, but please note that these classifications are by no means strict. Also note that inclusion in the list is not an endorsement of a paper’s quality. If you have any suggestions, please email Ziv Hameiri at [email protected]. Gervais, E, Herceg, S, Nold, S, et al. Sustainability, criticality, and circularity in PV: Using SDG 12 as a lens to map sectoral gaps. IEEE Journal of Photovoltaics 2022; 12( 1): 161- 166. Peters, IM, Hauch, J, Brabec, C, et al. The value of stability in photovoltaics. Joule 2021; 5( 12): 3137- 3153. Khan, JI, Isikgor, FH, Ugur, E, et al. Charge carrier recombination at perovskite/hole transport layer interfaces monitored by time-resolved spectroscopy. Acs Energy Letters 2021; 6( 12): 4155- 4164. Park, SM, Wang, B, Chen, LQ, et al. Flexoelectric control of physical properties by atomic force microscopy. Applied Physics Reviews 2021; 8( 4): 041327. Moradi Sizkouhi, AM, Esmailifar, SM, Aghaei, M, et al. RoboPV: An integrated software package for autonomous aerial monitoring of large scale PV plants. Energy Conversion and Management 2022; 254: 115217. Doll, B, Forberich, K, Hepp, J, et al. Luminescence analysis of PV-module soiling in Germany. IEEE Journal of Photovoltaics 2022; 12( 1): 81- 87. Esen, V, Saglam, S, Oral, B, et al. Toward class AAA LED large scale solar simulator with active cooling system for PV module tests. IEEE Journal of Photovoltaics 2022; 12( 1): 364- 371. Fioresi, J, Colvin, DJ, Frota, R, et al. Automated defect detection and localization in photovoltaic cells using semantic segmentation of electroluminescence images. IEEE Journal of Photovoltaics 2022; 12( 1): 53- 61. Iqbal, N, Colvin, DJ, Curran, AJ, et al. Multiscale characterization of photovoltaic modules-case studies of contact and interconnect degradation. IEEE Journal of Photovoltaics 2022; 12( 1): 62- 72. Khan, IS, Morse, J, White, RR, et al. A custom high-throughput optical mapping instrument for accelerated stress testing of PV module materials. IEEE Journal of Photovoltaics 2022; 12( 1): 73- 80. McGott, D, Good, B, Fluegel, B, et al. Dual-wavelength time-resolved photoluminescence study of CdSexTe1-x surface passivation via MgyZn1-yO and Al2O3. IEEE Journal of Photovoltaics 2022; 12( 1): 309- 315. Ying, YX, Qi, YH, Rong, LM, et al. Anchor points based accurate fault locating in large-scale photovoltaic plants via aerial infrared videos. IEEE Journal of Photovoltaics 2022; 12( 1): 437- 443. Lee, JH, Hiramoto, M, Izawa, S. Simultaneous measurement of photocurrent and recombination emission in organic solar cell. Japanese Journal of Applied Physics 2022; 61( 1): 011001. Hariharan, A, Schaefer, S, Heise, SJ. Decay of excess carriers in a two-defect model semiconductor: A time-resolved photoluminescence study. Journal of Applied Physics 2021; 130( 23): 235702. Micha, DN, Silvares, RT. A self-consistent interactive model for the study of luminescence coupling in multijunction solar cells. Journal of Applied Physics 2021; 130( 24): 243103. Hauff, E, Klotz, D. Impedance spectroscopy for perovskite solar cells: Characterisation, analysis, and diagnosis. Journal of Materials Chemistry C 2022; 10( 2): 742- 761. Bu, C, Liu, T, Li, R, et al. Electrical pulsed infrared thermography and supervised learning for PV cells defects detection. Solar Energy Materials and Solar Cells 2022; 237: 111561. Caron, S, Herding, L, Binyamin, Y, et al. Laboratory intercomparison of solar absorptance and thermal emittance measurements at room temperature. Solar Energy Materials and Solar Cells 2022; 238:111579. Wang, SD, Chen, SY, Hsu, SP, et al. Ag and Cu metal-assisted chemical etching for diamond-wire-sawn single-crystalline silicon solar cell. Applied Surface Science 2022; 578: 152050. Fertig, F, Kloter, B, Hoger, I, et al. QCELLS >24% silicon solar cells with mass-production processes. IEEE Journal of Photovoltaics 2022; 12( 1): 22- 25. Helmich, L, Walter, DC, Pernau, T, et al. Carrier lifetime stability of boron-doped Czochralski-grown silicon materials for years after regeneration in an industrial belt furnace. IEEE Journal of Photovoltaics 2022; 12( 1): 198- 203. Kiaee, Z, Fellmeth, T, Steinhauser, B, et al. TOPCon silicon solar cells with selectively doped PECVD layers realized by inkjet-printing of phosphorus dopant sources. IEEE Journal of Photovoltaics 2022; 12( 1): 31- 37. Li, YP, Ye, F, Liu, YQ, et al. Research on the industrial mass production route of n-type passivated contact silicon solar cells with over 23% efficiency. IEEE Journal of Photovoltaics 2022; 12( 1): 191- 197. Post, R, Niewelt, T, Kwapil, W, et al. Carrier lifetime limitation of industrial Ga-doped Cz-grown silicon after different solar cell process flows. IEEE Journal of Photovoltaics 2022; 12( 1): 238- 243. Yang, GT, Loo, B, Stodolny, M, et al. Passivation enhancement of poly-Si carrier-selective contacts by applying ALD Al2O3 capping layers. IEEE Journal of Photovoltaics 2022; 12( 1): 259- 266. Leach, CJ, Davis, BE, Garland, BM, et al. Ultrathin atomic layer deposited niobium oxide as a passivation layer in silicon based photovoltaics. Journal of Applied Physics 2021; 130( 21): 215301. Ding, J, Zou, S, Wu, C, et al. Light management of PERC solar cell with the front and back dielectric multilayers. Progress in Photovoltaics: Research and Applications 2022; 30( 2): 180- 190. Green, MA. Improved silicon optical parameters at 25°C, 295 K and 300 K including temperature coefficients. Progress in Photovoltaics: Research and Applications 2022; 30( 2): 164- 179. Maischner, F, Maus, S, Greulich, J, et al. LeTID mitigation via an adapted firing process in p-type PERC cells from SMART cast-monocrystalline, Czochralski and high-performance multicrystalline silicon. Progress in Photovoltaics: Research and Applications 2022; 30( 2): 123- 131. Yang, G, Han, C, Procel, P, et al. Oxygen-alloyed poly-Si passivating contacts for high-thermal budget c-Si heterojunction solar cells. Progress in Photovoltaics: Research and Applications 2022; 30( 2): 141- 151. Klasen, N, Heinz, F, De Rose, A, et al. Root cause analysis of solar cell cracks at shingle joints. Solar Energy Materials and Solar Cells 2022; 238: 111590. Luderer, C, Kurt, D, Moldovan, A, et al. Intrinsic layer modification in silicon heterojunctions: Balancing transport and surface passivation. Solar Energy Materials and Solar Cells 2022; 238: 111412. Peibst, R, Rienäcker, M, Larionova, Y, et al. Towards 28%-efficient Si single-junction solar cells with better passivating POLO junctions and photonic crystals. Solar Energy Materials and Solar Cells 2022; 238: 111560. Xu, J, Chen, C, Liu, C, et al. High efficiency TOPCon solar cells with micron/nano-structured emitter for a balance of light-trapping and surface passivation. Solar Energy Materials and Solar Cells 2022; 238: 111606. Zheng, J, Yang, Z, Lu, L, et al. Blistering-free polycrystalline silicon carbide films for double-sided passivating contact solar cells. Solar Energy Materials and Solar Cells 2022; 238: 111586. Liu, J, Aydin, E, Yin, J, et al. 28.2%-efficient, outdoor-stable perovskite/silicon tandem solar cell. Joule 2021; 5( 12): 3169- 3186. Nakano, K, Terado, K, Kaji, Y, et al. Reduction of electric current loss by aggregation-induced molecular alignment of a non-fullerene acceptor in organic photovoltaics. Acs Applied Materials and Interfaces 2021; 13( 50): 60299- 60305. Yi, A, Chae, S, Yoon, H, et al. Insights into the structural and morphological properties of layer-by-layer processed organic photovoltaics. Acs Applied Materials and Interfaces 2021; 13( 50): 60288- 60298. Jarosz, G, Marczyński, R, Signerski, R. Efficiency of exciton splitting in organic photovoltaic cells within EQE spectrum. Applied Surface Science 2022; 580: 152167. Cao, JR, Wang, HT, Yang, LQ, et al. Chlorinated unfused acceptor enabling 13.57% efficiency and 73.39% fill factor organic solar cells via fine-tuning alkoxyl chains on benzene core. Chemical Engineering Journal 2022; 427: 131828. Chang, MJ, Zhang, YM, Lu, BS, et al. The design of quinoxaline based unfused non-fullerene acceptors for high performance and stable organic solar cells. Chemical Engineering Journal 2022; 427: 131473. Ding, XY, Chen, XJ, Xu, YY, et al. A selenophene-containing near-infrared unfused acceptor for efficient organic solar cells. Chemical Engineering Journal 2022; 429: 132298. Gao, JH, Ma, XL, Xu, CY, et al. Over 17.7% efficiency ternary-blend organic solar cells with low energy-loss and good thickness-tolerance. Chemical Engineering Journal 2022; 428: 129276. Lee, W, Kim, H, Lee, C, et al. Performance and stability of polymer:nonfullerene solar cells with 100 degrees c-annealed electron-collecting combination layers. Chemsuschem 2021; 14( 17): 3488- 3493. Mathew, D, Ram, JP, Pillai, DS, et al. Parameter estimation of organic photovoltaic cells - a three-diode approach using wind-driven optimization algorithm. IEEE Journal of Photovoltaics 2022; 12( 1): 327- 336. Li, YX, Ding, JW, Liang, C, et al. Nanoscale heterogeneous distribution of surface energy at interlayers in organic bulk-heterojunction solar cells. Joule 2021; 5( 12): 3154- 3168. Zheng, Z, Wang, J, Bi, P, et al. Tandem organic solar cell with 20.2% efficiency. Joule 2022; 6( 1): 171- 184. Khandelwal, K, Biswas, S, Mishra, A, et al. Semitransparent organic solar cells: From molecular design to structure-performance relationships. Journal of Materials Chemistry C 2021; 10( 1): 13- 43. Miyake, Y, Saeki, A. Machine learning-assisted development of organic solar cell materials: Issues, analyses, and outlooks. Journal of Physical Chemistry Letters 2021; 12( 51): 12391- 12401. Aryal, UK, Ahmadpour, M, Turkovic, V, et al. 2D materials for organic and perovskite photovoltaics. Nano Energy 2022; 94: 106833. Doumon, NY, Yang, L, Rosei, F. Ternary organic solar cells: A review of the role of the third element. Nano Energy 2022; 94: 106915. Jing, JH, Dong, S, Zhang, K, et al. In-situ self-organized anode interlayer enables organic solar cells with simultaneously simplified processing and greatly improved efficiency to 17.8%. Nano Energy 2022; 93: 106814. Kim, YJ, Park, SE, Cho, BJ. A wearable organic photovoltaic-thermoelectric (OPV-TE) hybrid generator to minimize the open-circuit voltage losses of OPV module. Nano Energy 2022; 93: 106775. Yu, J, Liu, X, Zhong, Z, et al. Copper phosphotungstate as low cost, solution-processed, stable inorganic anode interfacial material enables organic photovoltaics with over 18% efficiency. Nano Energy 2022; 94: 106923. Arredondo, B, Carlos Pérez-Martínez, J, Muñoz-Díaz, L, et al. Influence of solvent additive on the performance and aging behavior of non-fullerene organic solar cells. Solar Energy 2022; 232: 120- 127. Miettunen, K, Santasalo-Aarnio, A. Eco-design for dye solar cells: From hazardous waste to profitable recovery. Journal of Cleaner Production 2021; 320: 128743. Zhu, L, Li, P, Sun, HH, et al. An investigation of the effect of high-pressure on charge transfer in dye-sensitized solar cells based on surface-enhanced Raman spectroscopy. Nanoscale 2022; 14( 2): 373- 381. Alizadeh, A, Roudgar-Amoli, M, Bonyad-Shekalgourabi, S-M, et al. Dye sensitized solar cells go beyond using perovskite and spinel inorganic materials: A review. Renewable and Sustainable Energy Reviews 2022; 157: 112047. Liu, GZ, Zheng, HY, Ye, JJ, et al. Mixed-phase low-dimensional perovskite-assisted interfacial lead directional management for stable perovskite solar cells with efficiency over 24%. Acs Energy Letters 2021; 6( 12): 4395- 4404. Song, D, Narra, S, Li, MY, et al. Interfacial engineering with a hole-selective self-assembled monolayer for tin perovskite solar cells via a two-step fabrication. Acs Energy Letters 2021; 6( 12): 4179- 4186. Xu, J, Maxwell, A, Wei, MY, et al. Defect tolerance of mixed B-Site organic-inorganic halide perovskites. Acs Energy Letters 2021; 6( 12): 4220- 4227. Zhao, RM, Xie, L, Zhuang, RS, et al. Interfacial defect passivation and charge carrier management for efficient perovskite solar cells via a highly crystalline small molecule. Acs Energy Letters 2021; 6( 12): 4209- 4219. Sadhukhan, P, Roy, A, Sengupta, P, et al. The emergence of concentrator photovoltaics for perovskite solar cells. Applied Physics Reviews 2021; 8( 4): 041324. Gu, WM, Jiang, KJ, Zhang, Y, et al. In-Situ polymerization of PEDOT in perovskite thin films for efficient and stable photovoltaics. Chemical Engineering Journal 2022; 430: 133109. Jiang, HP, Qu, X, He, L, et al. A design strategy of additive molecule for PSCs: Anchoring intrinsic properties of functional groups by suppressing long-range conjugation effect. Chemical Engineering Journal 2022; 427: 131676. Lee, KM, Chiu, WH, Tsai, YH, et al. High-performance perovskite solar cells based on dopant-free hole-transporting material fabricated by a thermal-assisted blade-coating method with efficiency exceeding 21%. Chemical Engineering Journal 2022; 427: 131609. Lu, T, Cortie, D, Li, ZX, et al. Role of A-site molecular ions in the polar functionality of metal-organic framework perovskites. Chemistry of Materials 2021; 33( 24): 9666- 9676. Liu, Q, Li, AK, Chu, WB, et al. Influence of intrinsic defects on the structure and dynamics of the mixed Pb-Sn perovskite: First-principles DFT and NAMD simulations. Journal of Materials Chemistry A 2021; 10( 1): 234- 244. Bae, S, Noh, YW, Park, DS, et al. Development of colored perovskite solar cells using cholesteric helicoidal superstructures. Nano Energy 2022; 93: 106801. Farooq, U, Ishaq, M, Shah, UA, et al. Bandgap engineering of lead-free ternary halide perovskites for photovoltaics and beyond: Recent progress and future prospects. Nano Energy 2022; 92: 106710. Jin, B, Ming, Y, Wu, Z, et al. Silk fibroin induced homeotropic alignment of perovskite crystals toward high efficiency and stability. Nano Energy 2022; 94: 106936. Zhang, H, Darabi, K, Nia, NY, et al. A universal co-solvent dilution strategy enables facile and cost-effective fabrication of perovskite photovoltaics. Nature Communications 2022; 13( 1): 89. Zhang, C, Liang, S, Liu, W, et al. Ti1-graphene single-atom material for improved energy level alignment in perovskite solar cells. Nature Energy 2021; 6( 12): 1154- 1163. Doherty, TAS, Nagane, S, Kubicki, DJ, et al. Stabilized tilted-octahedra halide perovskites inhibit local formation of performance-limiting phases. Science 2021; 374( 6575): 1598- 1605. Hou, JW, Chen, P, Shukla, A, et al. Liquid-phase sintering of lead halide perovskites and metal-organic framework glasses. Science 2021; 374( 6567): 621. Lee, WJ, Cho, DH, Wi, JH, et al. Evolution of morphological and chemical properties at p-n junction of Cu(In,Ga)Se2 solar cells with Zn(O,S) buffer layer as a function of KF postdeposition treatment time. Acs Applied Materials and Interfaces 2021; 13( 41): 48611- 48621. McGott, DL, Colegrove, E, Duenow, JN, et al. Revealing the importance of front interface quality in highly doped CdSexTe1-x solar cells. Acs Energy Letters 2021; 6( 12): 4203- 4208. Mavlonov, A, Nishimura, T, Chantana, J, et al. Effect of an Ohmic back contact on the stability of Cu (In,Ga)Se2-based flexible bifacial solar cells. Applied Physics Letters 2021; 119( 10): 103903. Bastola, E, Phillips, AB, Barros-King, G, et al. Understanding the interplay between CdSe thickness and Cu doping temperature in CdSe/CdTe devices. IEEE Journal of Photovoltaics 2022; 12( 1): 11- 15. Buldu, DG, Wild, J, Kohl, T, et al. A novel strategy for the application of an oxide layer to the front interface of Cu (In,Ga)Se2 thin film solar cells: Al2O3/HfO2 multi-stack design with contact openings. IEEE Journal of Photovoltaics 2022; 12( 1): 301- 308. Jamarkattel, MK, Phillips, AB, Subedi, KK, et al. Improving CdSeTe devices with a back buffer layer of CuxAlOy. IEEE Journal of Photovoltaics 2022; 12( 1): 16- 21. Kuciauskas, D, Li, SM, Moseley, J, et al. Voltage loss comparison in CdSe/CdTe solar cells and polycrystalline CdSeTe heterostructures. IEEE Journal of Photovoltaics 2022; 12( 1): 6- 10. Mangelis, P, Vaqueiro, P, Smith, RI, et al. The onset of copper-ion mobility and the electronic transition in the kesterite Cu2ZnGeSe4. Journal of Materials Chemistry A 2021; 9( 48): 27493- 27502. Yin, K, Xu, X, Wang, MY, et al. A high-efficiency (12.5%) kesterite solar cell realized by crystallization growth kinetics control over aqueous solution based Cu2ZnSn(S,Se)4. Journal of Materials Chemistry A 2022; 10( 2): 779- 788. Zhao, Q, Shen, H, Gao, K, et al. Effect of sodium doping on crystal growth and band matching of the heterojunction in flexible CZTS solar cells. Journal of Materials Chemistry C 2021; 9( 48): 17531- 17541. Sealy, C. Se takes dual role in CdTe solar cell passivation. Materials Today 2021; 50: 6- 7. Schneider, T, Dethloff, C, Hölscher, T, et al. Comparison of Mo and ITO back contacts in CIGSe solar cells: Vanishing of the main capacitance step. Progress in Photovoltaics: Research and Applications 2022; 30( 2): 191- 202. Alrashidi, H, Issa, W, Sellami, N, et al. Thermal performance evaluation and energy saving potential of semi-transparent CdTe in Façade BIPV. Solar Energy 2022; 232: 84- 91. Muzzillo, CP, Terwilliger, K, Hacke, P, et al. Potential-induced degradation of Cu (In,Ga)Se2 can occur by shunting the front i-ZnO and by damaging the p-n junction. Solar Energy 2022; 232: 298- 303. Chi, WG, Banerjee, SK. Development of perovskite solar cells by incorporating quantum dots. Chemical Engineering Journal 2021; 426: 131588. Zhao, RZ, Liu, SH, Zhao, XW, et al. Violet phosphorus quantum dots. Journal of Materials Chemistry A 2021; 10( 1): 245- 250. Vishnu, EK, Nair, AAK, Thomas, KG. Core-size-dependent trapping and detrapping dynamics in CdSe/CdS/ZnS quantum dots. Journal of Physical Chemistry C 2021; 125( 46): 25706- 25716. Lv, W, Lei, Y, Deng, J, et al. Zn-doped CdS/CdSe as efficient strategy to enhance the photovoltaic performance of quantum dot sensitized solar cells. Solar Energy 2022; 232: 398- 408. Jeon, S, Choi, DH. Joint optimization of Volt/VAR control and mobile energy storage system scheduling in active power distribution networks under PV prediction uncertainty. Applied Energy 2022; 310: 118488. Katsikogiannis, OA, Ziar, H, Isabella, O. Integration of bifacial photovoltaics in agrivoltaic systems: A synergistic design approach. Applied Energy 2022; 309: 118475. Mayer, K, Rausch, B, Arlt, ML, et al. 3D-PV-Locator: Large-scale detection of rooftop-mounted photovoltaic systems in 3D. Applied Energy 2022; 310: 118469. Wijeratne, WMPU, Samarasinghalage, TI, Yang, RJ, et al. Multi-objective optimisation for building integrated photovoltaics (BIPV) roof projects in early design phase. Applied Energy 2022; 309: 118476. Zhang, Y, Hao, P, Lu, H, et al. Modelling and estimating performance for PV module under varying operating conditions independent of reference condition. Applied Energy 2022; 310: 118527. Fernández-Solas, Á, Montes-Romero, J, Micheli, L, et al. Estimation of soiling losses in photovoltaic modules of different technologies through analytical methods. Energy 2022; 244: 123173. Khan, W, Walker, S, Zeiler, W. Improved solar photovoltaic energy generation forecast using deep learning-based ensemble stacking approach. Energy 2022; 240: 122812. Aoun, N. Methodology for predicting the PV module temperature based on actual and estimated weather data. Energy Conversion and Management 2022; 14: 100182. Bryan, JL, Silverman, TJ, Deceglie, MG, et al. Systematic operating temperature differences between Al-BSF, PERC, and PERT-with-optimized-rear-reflector solar mini-modules due to rear reflectance. IEEE Journal of Photovoltaics 2022; 12( 1): 293- G, N, et al. the role of in power loss in silicon photovoltaics with accelerated IEEE Journal of Photovoltaics 2022; 12( 1): The of and bifacial modules on IEEE Journal of Photovoltaics 2022; 12( 1): Micheli, L, et al. soiling and in IEEE Journal of Photovoltaics 2022; 12( 1): Xu, M, Sun, Y, et al. PV with active power IEEE on 2022; Bi, Q, et al. based power of PV system with condition. IEEE on 2022; G, et al. of photovoltaic for and system recovery. IEEE on 2022; 4): Zhao, L, Li, Li, Q, et al. A learning framework for in solar IEEE on 2022; D, R, V, et al. A for the in hybrid energy Journal of Cleaner Production 2021; W, Li, X, Wang, J, et al. on the transfer of photovoltaic Renewable Energy 2022; C, D, C. and technologies in to storage and the Renewable Energy 2022; A, Montes-Romero, J, et al. energy of the potential of photovoltaics for Applied Energy 2022; 309: G, An model for solar power using Applied Energy 2022; 309: E, G, P, et al. A analysis of a solar PV and storage system for a energy Energy 2022; 244: Wang, XY, Sun, D, et al. study of learning for predicting photovoltaic power based on weather Energy 2022; 240: F, C, in systems under uncertainty. Energy 2022; D, and in a energy Energy 2022; E, Dong, SY, JJ, et al. of local and on solar PV Energy 2022; G, Wild, et al. The of for and solar Research Letters 2021; 12): D, M, S, et al. to to Research Letters 2021; 12): Wei, et al. solar power prediction learning from with of IEEE on Sustainable Energy 2022; 13( 1): L, X, et al. A hybrid learning method for photovoltaic power IEEE on Sustainable Energy 2022; 13( 1): Wang, J, Wu, HY, et al. photovoltaic generation based on and deep learning methods. IEEE on Sustainable Energy 2022; 13( 1): H, R, D, et al. Using photovoltaic generation to electric study. Renewable and Sustainable Energy Reviews 2022; 157: G, M, A, et al. learning for improved of the Solar Solar Energy 2022; 232: Chang, for photovoltaic module using a and Solar Energy Materials and Solar Cells 2022; 237: H, G, T, et al. analysis of crystalline silicon photovoltaic module processes. Solar Energy Materials and Solar Cells 2022; 238:

Tech Support

Original Source

DOI: https://doi.org/10.1002/pip.3541