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| Open AccessIntrinsically stretchable organic photovoltaics by redistributing strain to PEDOT:PSS with enhanced stretchability and interfacial adhesion
The realization of intrinsically stretchable organic photovoltaics with excellent mechanical robustness remains challenging. Here, the authors redistribute the strain in the active layer to PEDOT:PSS electrodes with simultaneously enhanced stretchability and interfacial adhesion in the device.
- Jiachen Wang
- , Yuto Ochiai
- & Takao Someya
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Article
| Open AccessLow-temperature strain-free encapsulation for perovskite solar cells and modules passing multifaceted accelerated ageing tests
The instability of perovskite solar cells hinders their commercialization. Here, authors report an industrially compatible strain-free encapsulation process based on lamination of highly viscoelastic semi-solid/highly viscous liquid encapsulant adhesive to reduce thermomechanical interfacial stress.
- Paolo Mariani
- , Miguel Ángel Molina-García
- & Francesco Bonaccorso
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Article
| Open AccessQuantum barriers engineering toward radiative and stable perovskite photovoltaic devices
Efficient radiation is essential to reach thermodynamic limit of photovoltaic efficiency. Here, authors design thick quantum barriers to suppress interfacial quenching and boost photon recycling in perovskite cells, achieving high radiation and photovoltaic efficiencies and long device stability.
- Kyung Mun Yeom
- , Changsoon Cho
- & Jun Hong Noh
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Article
| Open AccessPd(II)/Pd(IV) redox shuttle to suppress vacancy defects at grain boundaries for efficient kesterite solar cells
Charge loss at grain boundaries of kesterite polycrystalline absorbers limits the performance of thin film solar cells. Here, authors report the use of Pd(II)/Pd(IV) redox shuttle to assist the capture and exchange of Se atoms and eliminate vacancy defects, realizing certified efficiency of 14.3%.
- Jinlin Wang
- , Jiangjian Shi
- & Qingbo Meng
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Article
| Open AccessSustainable thermal regulation improves stability and efficiency in all-perovskite tandem solar cells
Mixed Sn-Pb perovskites have emerged as promising photovoltaic materials for both single- and multi-junction solar cells. Here, authors reveal the thermal degradation mechanism and incorporate carboranes for thermal regulation, resulting in stable all-perovskite tandems with efficiency of over 27%.
- Shuchen Tan
- , Chongwen Li
- & Zhongmin Zhou
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| Open AccessThe roll-to-roll revolution to tackle the industrial leap for perovskite solar cells
Roll-to-Roll (R2R) coating is a technology that potentially enhances throughput, reduces costs, and accommodates flexible substrates for fabricating various types of solar cells and modules. Here, authors discuss the R2R revolution to tackle the industrial leap for perovskite photovoltaic devices.
- Ershad Parvazian
- & Trystan Watson
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Article
| Open AccessFree-standing ultrathin silicon wafers and solar cells through edges reinforcement
Lightweight and flexible thin crystalline silicon solar cells have huge market potential but remain relatively unexplored. Here, authors present a thin silicon structure with reinforced ring to prepare free-standing 4.7-μm 4-inch silicon wafers, achieving efficiency of 20.33% for 28-μm solar cells.
- Taojian Wu
- , Zhaolang Liu
- & Wenzhong Shen
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Article
| Open AccessOn the role of asymmetric molecular geometry in high-performance organic solar cells
The correlation between asymmetric molecular geometry of non-fullerene acceptors and their optoelectronic properties was unclear. Here, the authors found asymmetric ones exhibit increased open-circuit voltage compared to their symmetric counterparts due to reduced non-radiative charge recombination.
- Jinfeng Huang
- , Tianyi Chen
- & Lijian Zuo
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Article
| Open AccessDeuteration-enhanced neutron contrasts to probe amorphous domain sizes in organic photovoltaic bulk heterojunction films
The use of conventional X-ray scattering techniques is challenging to detect donor-acceptor contrast within amorphous intermixing regions. Here, the authors apply neutron scattering and targeted deuteration to enhance the contrast by one order of magnitude and reveal short-range aggregations of d-Y6.
- Guilong Cai
- , Yuhao Li
- & Xinhui Lu
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Article
| Open AccessHarnessing strong aromatic conjugation in low-dimensional perovskite heterojunctions for high-performance photovoltaic devices
The large organic cations in low-dimensional perovskite often introduces carrier mobility anisotropy and impedes charge transport. Here, authors report perovskite heterojunction with strong aromatic conjugated perovskites, realizing certified efficiency of over 25% in stable perovskite solar cells.
- Bo Li
- , Qi Liu
- & Zonglong Zhu
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Article
| Open AccessDecreasing exciton dissociation rates for reduced voltage losses in organic solar cells
The device’s electroluminescence efficiency is vital to reduce non-radiative voltage losses and boost organic solar cell performance. Here, the authors demonstrate that this efficiency is influenced not only by the decay of charge transfer states but also by the dissociation of singlet states.
- Hongbo Wu
- , Hao Lu
- & Zheng Tang
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Article
| Open AccessStrain regulates the photovoltaic performance of thick-film perovskites
The power conversion efficiencies of thick-film perovskite solar cells lag behind those with nanometre film thickness. Here, the authors rule out the restrictions of carrier lifetime on device performance and reveal the critical role of lattice strain in micron-scale thick perovskite films.
- Pengju Shi
- , Jiazhe Xu
- & Rui Wang
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Article
| Open AccessAssessing intra- and inter-molecular charge transfer excitations in non-fullerene acceptors using electroabsorption spectroscopy
The performance of Y6-containing donor-acceptor active layers in organic solar cells is highly related to the charge-transfer nature in Y6 aggregates. Here, authors study charge-transfer characteristics of excitations of isolated and aggregated Y6 molecules through electroabsorption spectroscopy.
- Sudhi Mahadevan
- , Taili Liu
- & Sai-Wing Tsang
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Article
| Open AccessMixed tin-lead perovskites with balanced crystallization and oxidation barrier for all-perovskite tandem solar cells
The disparity in crystallization processes between tin- and lead-based perovskites has been a dominant factor contributing to high defect densities. Here, authors employ a functional molecule to inhibit tin oxidation, realizing monolithic all-perovskite tandems with certified efficiency over 27%.
- Jin Zhou
- , Shiqiang Fu
- & Weijun Ke
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Article
| Open AccessIntragrain impurity annihilation for highly efficient and stable perovskite solar cells
The detrimental effects of intragrain impurity nanoclusters on the efficiency and stability of perovskite solar cells remain unexplored. Here, the authors study the intragrain impurity annihilation by in situ scanning transmission electron microscopy and adopt a laser stimulus to heal such impurity.
- Songhua Cai
- , Zhipeng Li
- & Yuanyuan Zhou
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Article
| Open AccessThe first demonstration of entirely roll-to-roll fabricated perovskite solar cell modules under ambient room conditions
The translation of perovskite solar cells to large-area devices fabricated by industry-relevant manufacturing methods remains a critical challenge. Here, authors report solar modules with serially-interconnected cells produced entirely by industrial roll-to-roll printing under ambient conditions.
- Hasitha C. Weerasinghe
- , Nasiruddin Macadam
- & Doojin Vak
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Article
| Open AccessTuning polymer-backbone coplanarity and conformational order to achieve high-performance printed all-polymer solar cells
All-polymer solar cells comprising both polymeric donors and acceptors offer better morphological and mechanical stability, and a broader processing window for printing. Here, the authors report a polymer acceptor based on bithiazole linker with more coplanar and ordered molecular conformation.
- Yilei Wu
- , Yue Yuan
- & Zhenan Bao
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Article
| Open AccessSelenium substitution for dielectric constant improvement and hole-transfer acceleration in non-fullerene organic solar cells
Dielectric constant of non-fullerene acceptors plays a critical role in organic solar cells in terms of exciton dissociation and charge recombination. Here, authors report selenium substitution on central core of acceptors to improve dielectric constant, realizing devices with efficiency of 19.0%.
- Xinjun He
- , Feng Qi
- & Wallace C. H. Choy
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Article
| Open AccessThe dynamic adsorption affinity of ligands is a surrogate for the passivation of surface defects
Semiconductor defects persist as a source of energy loss in solar cells. Here, the authors use ab initio simulations to reveal overlooked defect dynamics, guiding passivator design for enhanced photovoltaic performance.
- Jian Xu
- , Aidan Maxwell
- & Edward H. Sargent
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Article
| Open AccessPolymer-acid-metal quasi-ohmic contact for stable perovskite solar cells beyond a 20,000-hour extrapolated lifetime
The development of robust quasi-ohmic contact with minimal resistance, exceptional stability and cost-effectiveness is crucial for practical application of perovskite solar cells. Here, authors report a polymer-acid-metal structure as the contact and realize long photo-thermal-operational stability.
- Junsheng Luo
- , Bowen Liu
- & Yicheng Zhao
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Article
| Open AccessEfficient all-small-molecule organic solar cells processed with non-halogen solvent
The development of non-halogen solvent processed all-small-molecule organic solar cells was challenging. Here, the authors employ a small molecule donor with strong aggregation property to improve molecular pre-aggregation in tetrahydrofuran, realizing ternary device with efficiency of 16.1%.
- Wei Gao
- , Ruijie Ma
- & Gang Li
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Article
| Open AccessRational molecular and device design enables organic solar cells approaching 20% efficiency
A systematic design of light-absorbing molecules is challenging for them to satisfy multiple key requirements for efficient solar cell application. Here, the authors optimize halogen substitution position in terminal groups of acceptors for realizing ternary cells with efficiency approaching 20%.
- Jiehao Fu
- , Qianguang Yang
- & Gang Li
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Article
| Open AccessToward stabilization of formamidinium lead iodide perovskites by defect control and composition engineering
The black phase formamidinium lead iodide perovskite (α-FAPbI3) undergoes an undesired transformation to a non-perovskite δ-phase, rendering it inactive. Here authors show the significant role of inherent iodine defects in accelerating phase transition kinetics and exacerbating α-FAPbI3 instability.
- Yuhang Liang
- , Feng Li
- & Rongkun Zheng
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Article
| Open AccessIodide manipulation using zinc additives for efficient perovskite solar minimodules
Interstitial iodides are the most critical type of defects in perovskite solar cells that limits efficiency and stability. Here, the authors introduce small amount of zinc trifluoromethane sulfonate to control iodide defects, facilitating fabrication of minimodules with efficiencies of over 19%.
- Md Aslam Uddin
- , Prem Jyoti Singh Rana
- & Jinsong Huang
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Article
| Open AccessEffect of sub-bandgap defects on radiative and non-radiative open-circuit voltage losses in perovskite solar cells
The efficiency of perovskite solar cells is affected by open-circuit voltage losses due to radiative and non-radiative charge recombination. Here, authors report photocurrent and electroluminescence spectroscopy to probe radiative recombination at sub-bandgap defects in wide-bandgap solar cells.
- Guus J. W. Aalbers
- , Tom P. A. van der Pol
- & René A. J. Janssen
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Article
| Open AccessThe role of interfacial donor–acceptor percolation in efficient and stable all-polymer solar cells
The underlying charge generation dynamics and structure-property relationships in organic solar cells are not fully understood. Here, the authors demonstrate that interfacial donor-acceptor percolation plays a key role in enabling both high charge generation efficiency and device stability.
- Zhen Wang
- , Yu Guo
- & Philip C. Y. Chow
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Article
| Open AccessWaterproof and ultraflexible organic photovoltaics with improved interface adhesion
Waterproof flexible organic solar cells without compromising mechanical flexibility and conformability remains challenging. Here, the authors demonstrate in-situ growth of hole-transporting layer to strengthen interfacial and thermodynamic adhesion for better waterproofness in 3 μm-thick devices.
- Sixing Xiong
- , Kenjiro Fukuda
- & Takao Someya
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Article
| Open AccessDefect passivation in methylammonium/bromine free inverted perovskite solar cells using charge-modulated molecular bonding
Molecular passivation is promising for improving the performance and operation stability of perovskite solar cells. Here, authors employ piperazine dihydriodide to strengthen adhesion to MA-free perovskite via −NH2I and Mulliken charge distribution, realizing charge-regulated molecular passivation.
- Dhruba B. Khadka
- , Yasuhiro Shirai
- & Kenjiro Miyano
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Article
| Open AccessUnraveling radiation damage and healing mechanisms in halide perovskites using energy-tuned dual irradiation dosing
Initial reports suggest unique radiation tolerance of perovskite solar cells. Here, the authors expose both n-i-p and p-i-n devices to low- and high-energy protons, providing a direct proof of radiation-induced efficiency recovery via tuning radiation-matter interactions in the devices.
- Ahmad R. Kirmani
- , Todd A. Byers
- & Joseph M. Luther
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Article
| Open AccessSublimed C60 for efficient and repeatable perovskite-based solar cells
Batch-to-batch reproducibility of device performances is crucial for perovskite photovoltaics moving towards industrialization. Here, the authors show that commercial as-received C60 source materials may coalesce during repeated thermal evaporation processes, jeopardizing such reproducibility.
- Ahmed A. Said
- , Erkan Aydin
- & Stefaan De Wolf
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Article
| Open AccessAccurate nowcasting of cloud cover at solar photovoltaic plants using geostationary satellite images
Accurate nowcasting of cloud cover or fraction and its movement remains a significant challenge for stable solar photovoltaic electricity generation. Here, the authors combine continuous radiance images with high spatio-temporal resolutions to develop a nowcasting algorithm for predicting cloud cover at a leading time of 0–4 h.
- Pan Xia
- , Lu Zhang
- & Shengjie Jia
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Article
| Open AccessResolving electron and hole transport properties in semiconductor materials by constant light-induced magneto transport
Here, the authors introduce a constant light-induced magneto-transport method which seamlessly integrates light, current, and a magnetic field to characterize electron and hole properties across an expansive array of materials.
- Artem Musiienko
- , Fengjiu Yang
- & Antonio Abate
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Article
| Open AccessThe role of ion migration, octahedral tilt, and the A-site cation on the instability of Cs1-xFAxPbI3
Applications of perovskite solar cells have been hindered by ion migration and structural instability. Here, the authors use ultra-low dose transmission electron microscopy to reveal the process of ion migration and structural change at the atomic level in Cs1-xFAxPbI3.
- Weilun Li
- , Mengmeng Hao
- & Joanne Etheridge
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Article
| Open AccessElectrosynthesis of buckyballs with fused-ring systems from PCBM and its analogue
[6,6]-Phenyl-C61-butyric acid methyl ester (PCBM), a star molecule in the fullerene field, has found wide applications in materials science. Here, the authors demonstrate the synthesis of buckyballs with fused-ring systems via electrosynthesis through radical α-C−H functionalization of the side-chain ester for both PCBM and its analogue.
- Wei-Feng Wang
- , Kai-Qing Liu
- & Guan-Wu Wang
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Article
| Open AccessOperando dynamics of trapped carriers in perovskite solar cells observed via infrared optical activation spectroscopy
Conventional spectroscopic techniques are not sufficiently selective to follow the dynamics of trapped carriers in working perovskite solar cells. Here, authors use infrared optical activation spectroscopy to observe real time evolution of trapped carriers and compare the behaviour of trapped holes.
- Jiaxin Pan
- , Ziming Chen
- & Artem A. Bakulin
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Article
| Open AccessPrecise synthesis and photovoltaic properties of giant molecule acceptors
The synthesis of giant molecule acceptors with more than two subunits was challenging. Here, the authors present a stepwise precise synthetic method for acceptors of this type, explore and compare their photovoltaic performance to those of polymerized small molecule acceptor for organic solar cells.
- Hongmei Zhuo
- , Xiaojun Li
- & Yongfang Li
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Article
| Open AccessHeterojunction formed via 3D-to-2D perovskite conversion for photostable wide-bandgap perovskite solar cells
The conventional solution post-treatment is suboptimal for methylammonium-free and cesium/bromide-enriched wide-bandgap perovskite solar cells. Here, the authors develop a 3D-to-2D perovskite conversion approach for a preferential growth, achieving stabilized efficiency of 28.1% for tandem cells.
- Jin Wen
- , Yicheng Zhao
- & Hairen Tan
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Article
| Open AccessAuxiliary sequential deposition enables 19%-efficiency organic solar cells processed from halogen-free solvents
The optimization of morphology of active layers for halogen-free solvent processing is essential to enhance performance of organic solar cells. Here, the authors report auxiliary sequential deposition method together with branched-chain-engineered acceptor, realizing device efficiency of over 19%.
- Siwei Luo
- , Chao Li
- & He Yan
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Article
| Open AccessControlling Selenization Equilibrium Enables High-Quality Kesterite Absorbers for Efficient Solar Cells
The preparation of high-quality Kesterite absorber is challenging due to the complexity and limited control of selenization reactions. Here, authors report a solid-liquid/solid-gas reaction for direct and rapid Kesterite formation, achieving certified total-area efficiency of 13.44% in solar cells.
- Xiao Xu
- , Jiazheng Zhou
- & Qingbo Meng
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Article
| Open AccessHyperbranched polymer functionalized flexible perovskite solar cells with mechanical robustness and reduced lead leakage
The low adhesive fracture energy of electron transport layer/perovskite interface makes it prone to delamination under mechanical stress. Here, authors develop polyamide-amine-based hyperbranched polymer to provide strong adhesion, leading to device efficiency of over 25% for perovskite solar cells.
- Zhihao Li
- , Chunmei Jia
- & Zhen Li
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Article
| Open AccessConcretized structural evolution supported assembly-controlled film-forming kinetics in slot-die coated organic photovoltaics
The film-forming kinetics for large-area devices remains unclear for organic solar cells. Here, the authors propose assembly-controlled kinetics with the assembly determined by molecular configuration and tuned via external effects, contributing to the screening of device fabrication conditions.
- Hao Zhang
- , Chenyang Tian
- & Zhixiang Wei
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Article
| Open AccessElectrostatic force promoted intermolecular stacking of polymer donors toward 19.4% efficiency binary organic solar cells
The low structural order of conjugated polymers limits their photovoltaic properties in organic solar cells. Here, the authors report a conjugated molecule as molecular bridge via electrostatic force for enhancing intermolecular packing, achieving certified efficiency close to 19% in binary devices.
- Zirui Gan
- , Liang Wang
- & Tao Wang
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Article
| Open AccessCarrier multiplication in perovskite solar cells with internal quantum efficiency exceeding 100%
While there has been evidence of strong carrier multiplication effects in halide perovskites, studies in actual solar cells are lacking. Here, the authors demonstrate such effects with a low threshold of 2Eg and a high efficiency of 99.4%, realizing unbiased internal quantum efficiency up to 160%.
- Yue Wang
- , Senyun Ye
- & Tze Chien Sum
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Article
| Open AccessInhibition of defect-induced α-to-δ phase transition for efficient and stable formamidinium perovskite solar cells
The effect of various defects on α-phase stability of formamidinium lead triiodide perovskite remains unclear. Here, the authors reveal the degradation pathway, introduce water-insoluble compact layer to suppress α-phase collapse, and achieve maximum efficiency over 25% for perovskite solar cells.
- Tian Chen
- , Jiangsheng Xie
- & Pingqi Gao
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Article
| Open AccessOrganic laser power converter for efficient wireless micro power transfer
Due to the adjustable bandgap, flexibility, absence of heavy metals and high power per weight, organic laser converters have unique advantages in wireless power transfer. Here, authors integrate organic laser power converters exhibiting efficiency over 36% at 660 nm with photon flux of 9.5 mW/cm2.
- Yafei Wang
- , Zhong Zheng
- & Jianhui Hou
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Article
| Open AccessResonant perovskite solar cells with extended band edge
Further extending the band edge of perovskite approaching the ideal bandgap of single-junction solar cell is essential to improve device efficiency. Here, the authors integrate optical resonances with perovskite solar cells to extend the band edge, achieving EQE-integrated current of 26.0 mA/cm2.
- Jiangang Feng
- , Xi Wang
- & Yi Hou
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Article
| Open AccessStability follows efficiency based on the analysis of a large perovskite solar cells ageing dataset
Stability issues remain a critical challenge for perovskite solar cells towards commercialisation. Here, the authors analyse a large homogeneous dataset of Maximum Power Point Tracking operational ageing data and find a correlation between maximum power conversion efficiency and its relative loss.
- Noor Titan Putri Hartono
- , Hans Köbler
- & Antonio Abate
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Article
| Open AccessBioinspired “cage traps” for closed-loop lead management of perovskite solar cells under real-world contamination assessment
Potential lead contamination risk and environmental vulnerability risk impose a significant obstacle for the commercialization of perovskite solar cells. Here, the authors create a biomimetic cage traps to mitigate lead leakage and establish a sustainable closed-loop lead management process.
- Huaiqing Luo
- , Pengwei Li
- & Yanlin Song
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Article
| Open AccessA rare case of brominated small molecule acceptors for high-efficiency organic solar cells
The relatively larger steric hindrance and excessive crystallinity of bromides could lead to undesirable film morphologies. Here, the authors take advantage of bromides and construct small molecule acceptors with stepwise bromination and realize maximum efficiency of 19% in organic solar cells.
- Huazhe Liang
- , Xingqi Bi
- & Yongsheng Chen