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1. High efficiency spin-decoupled modulation using chiral C2-symmetric meta-atoms

Author

Chen, Haohan, Wu, Jiepeng, He, Minglei, Wang, Hao, Wu, Xinen, Fan, Kezhou, Liu, Haiying, Li, Qiang, Wu, Lijun, and Wong, Kam Sing

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Orthogonal circularly polarized light is essential for multiplexing tunable metasurfaces. Mainstream spin-decoupled metasurfaces, consisting of numerous meta-atoms with mirror symmetry, rely on the cooperative modulation of the Pancharatnam-Berry (PB) phase and the propagation phase. This paper demonstrates spin-decoupled functionality through the synergistic utilization of planar chiral meta-atom phase response and PB phase. Based on the Jones calculus, it has been found that meta-atoms with chiral C2-symmetry owns a larger geometric parameter range with high cross-polarization ratio compared to those with mirror symmetry or higher symmetries at the same aspect ratio. This characteristic is advantageous in terms of enabling high-efficiency manipulation and enhancing the signal-to-noise ratio. As an example, 10 kinds of C2-symmetry chiral meta-atoms with a H-like shape are selected by the self-adaptive genetic algorithm to attain a full 2$\pi$ phase span with an interval of $\pi$/5. To mitigate the additional propagation phase change of the guided modes originated from the arrangement alternation upon the rotation of the meta-atoms, the enantiomer of chiral meta-atoms and its PB phase delay are adopted to minimize the difference between the actual and desired target phases. A polarization-insensitive metalens and a chiral virtual-moving metalens array are designed to demonstrate the spin-decoupled function with both high efficiency and signal-to-noise ratio. The work in this paper may trigger more exciting and interesting spin-decoupled multiplexing metasurfaces and broaden the prospect of chiroptical applications.

Published
2023
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2. Intermolecular CT excitons enable nanosecond excited-state lifetimes in NIR-absorbing non-fullerene acceptors for efficient organic solar cells

Author

Chen, Xian-Kai, Chan, Christopher C. S., Mahadevan, Sudhi, Guo, Yu, Zhang, Guichuan, Yan, He, Wong, Kam Sing, Yip, Hin-Lap, Bredas, Jean-Luc, Tsang, Sai Wing, and Chow, Philip C. Y.

Subjects
Physics - Chemical Physics
Abstract

State-of-the-art Y6-type molecular acceptors exhibit nanosecond excited-state lifetimes despite their low optical gaps (~1.4 eV), thus allowing organic solar cells (OSCs) to achieve highly efficient charge generation with extended near-infrared (NIR) absorption range (up to ~1000 nm). However, the precise molecular-level mechanism that enables low-energy excited states in Y6-type acceptors to achieve nanosecond lifetimes has remained elusive. Here, we demonstrate that the distinct packing of Y6 molecules in film leads to a strong intermolecular charge-transfer (iCT) character of the lowest excited state in Y6 aggregates, which is absent in other low-gap acceptors such as ITIC. Due to strong electronic couplings between the adjacent Y6 molecules, the iCT-exciton energies are greatly reduced by up to ~0.25 eV with respect to excitons formed in separated molecules. Importantly, despite their low energies, the iCT excitons have reduced non-adiabatic electron-vibration couplings with the electronic ground state, thus suppressing non-radiative recombination and allowing Y6 to overcome the well-known energy gap law. Our results reveal the fundamental relationship between molecular packing and nanosecond excited-state lifetimes in NIR-absorbing Y6-type acceptors underlying the outstanding performance of Y6-based OSCs.

Published
2023

7. Long-lived and disorder-free charge transfer states enable endothermic charge separation in efficient non-fullerene organic solar cells

Author

Chow, Philip C. Y., Hinrichsen, Ture F., Chan, Christopher C. S., Paleček, David, Gillett, Alexander, Chen, Shangshang, Zou, Xinhui, Ma, Chao, Zhang, Guichuan, Yip, Hin-Lap, Wong, Kam Sing, Friend, Richard H., Yan, He, and Rao, Akshay

Subjects
Physics - Applied Physics, Physics - Chemical Physics
Abstract

Organic solar cells (OSCs) based on non-fullerene acceptors can show high charge generation yields despite near-zero donor-acceptor energy offsets to drive charge separation and overcome the mutual Coulomb attraction between electron and hole. Here we use time-resolved optical spectroscopy to show that free charges in these systems are generated by thermally activated dissociation of interfacial charge-transfer excitons (CTEs) that occurs over hundreds of picoseconds at room temperature, three orders of magnitude slower than comparable fullerene-based systems. Upon free electron-hole encounters at later times, CTEs and emissive excitons are regenerated, thus setting up an equilibrium between excitons, CTEs and free charges. This endothermic charge separation process enables these systems to operate close to quasi-thermodynamic equilibrium conditions with no requirement for energy offsets to drive charge separation and achieve greatly suppressed non-radiative recombination., Comment: 30 pages, 4 figures

Published
2020

11. Tailoring Cyano Substitutions on Quinoxaline‐based Small‐Molecule Acceptors Enabling Enhanced Molecular Packing for High‐Performance Organic Solar Cells

Author

Chen, Li, primary, Zhao, Chaoyue, additional, Yu, Han, additional, Sergeev, Aleksandr, additional, Zhu, Liangxiang, additional, Ding, Kan, additional, Fu, Yuang, additional, Ng, Ho Ming, additional, Kwok, Chung Hang, additional, Zou, Xinhui, additional, Yi, Jicheng, additional, Lu, Xinhui, additional, Wong, Kam Sing, additional, Ade, Harald, additional, Zhang, Guangye, additional, and Yan, He, additional

Published
2024
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13. Color Tuning in Cesium Lead Halide Nanocrystals via A-Site Substitution as an Alternative Method for Achieving Spectrally Stable Blue Perovskite Nanocrystal Light-Emitting Diodes

Author

Ko, Pui Kei, primary, Chen, Dezhang, additional, Li, C.-H. Angus, additional, Chan, Christopher Chang Sing, additional, Sergeev, Aleksandr, additional, Ding, Pengbo, additional, Lam, Davy, additional, Ouyang, Boyu, additional, Guo, Liang, additional, Wong, Kam Sing, additional, and Halpert, Jonathan E., additional

Published
2024
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15. Modulating Adsorption–Redox Sites and Charge Separation of Cs3Bi2Br9–x@AgBr Core–Shell Heterostructure for Selective Toluene Photooxidation

Author

Zhou, Biao, primary, Fan, Kezhou, additional, Chong, Yanan, additional, Xu, Shuang, additional, Wei, Jianwu, additional, Wei, Jiake, additional, Sergeev, Aleksandr A., additional, Wong, Kam Sing, additional, Li, Tan, additional, Chen, Guangxu, additional, Ye, Daiqi, additional, and Yan, Keyou, additional

Published
2024
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16. Removing Cadmium Impurities from Cation‐Exchange‐Derived CuInSe2/CuInS2 Nanorods for Enhanced Infrared Emission and Photodetection

Author

Portniagin, Arsenii S., primary, Sergeev, Aleksandr A., additional, Sergeeva, Kseniia A., additional, Wang, Shixun, additional, Li, Zhuo, additional, Ning, Jiajia, additional, Chan, Christopher C. S., additional, Kershaw, Stephen V., additional, Zhong, Xiaoyan, additional, Wong, Kam Sing, additional, and Rogach, Andrey L., additional

Published
2024
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17. Heterocyclic Diammonium Dion‐Jacobson Perovskite Blue Light‐Emitting Diodes with Nonshift Emission Peak Under High Bias Voltage

Author

Zou, Shibing, primary, Fan, Kezhou, additional, Wu, Xiao, additional, Yuan, Ligang, additional, Wang, Jiarong, additional, Wang, Kangyang, additional, Li, Jiong, additional, Wei, Jianwu, additional, Xu, Shuang, additional, Zou, Feilin, additional, Wong, Kam Sing, additional, Lu, Xinhui, additional, Xu, Jianbin, additional, and Yan, Keyou, additional

Published
2024
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18. Isomerization of Benzothiadiazole Yields A Promising Polymer Donor and Organic Solar Cells with Efficiency of 19.0%

Author

Lin, Tao, primary, Hai, Yulong, additional, Luo, Yongming, additional, Feng, Lingwei, additional, Jia, Tao, additional, Wu, Jiaying, additional, Ma, Ruijie, additional, Dela Peña, Top Archie, additional, Li, Yao, additional, Xing, Zengshan, additional, Li, Mingjie, additional, Wang, Min, additional, Xiao, Biao, additional, Wong, Kam Sing, additional, Liu, Shengjian, additional, and Li, Gang, additional

Published
2024
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22. Manipulating the Charge Carriers Through Functionally Bridged Components Advances Low‐Cost Organic Solar Cells with Green Solvent Processing

Author

Dela Peña, Top Archie, primary, Ma, Ruijie, additional, Luo, Yongmin, additional, Xing, Zengshan, additional, Wei, Qi, additional, Hai, Yulong, additional, Li, Yao, additional, Garcia, Sheena Anne, additional, Yeung, King Lun, additional, Jia, Tao, additional, Wong, Kam Sing, additional, Yan, He, additional, Li, Gang, additional, Li, Mingjie, additional, and Wu, Jiaying, additional

Published
2023
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24. 16% efficiency all-polymer organic solar cells enabled by a finely tuned morphology via the design of ternary blend

Author

Liu, Tao, Yang, Tao, Ma, Ruijie, Zhan, Lingling, Luo, Zhenghui, Zhang, Guangye, Li, Yuan, Gao, Ke, Xiao, Yiqun, Yu, Jianwei, Zou, Xinhui, Sun, Huiliang, Zhang, Maojie, Dela Peña, Top Archie, Xing, Zengshan, Liu, Heng, Li, Xiaojun, Li, Gang, Huang, Jianhua, Duan, Chunhui, Wong, Kam Sing, Lu, Xinhui, Guo, Xugang, Gao, Feng, Chen, Hongzheng, Huang, Fei, Li, Yongfang, Li, Yuliang, Cao, Yong, Tang, Bo, and Yan, He

Published
2021
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27. Strongly Confined and Spectrally Tunable CsPbBr3 Quantum Dots for Deep Blue QD‐LEDs.

Author

Ding, Pengbo, Ko, Pui Kei, Geng, Pai, Chen, Dezhang, Xing, Zengshan, Tsang, Hoi Lam Tammy, Wong, Kam Sing, Guo, Liang, and Halpert, Jonathan E.

Subjects
QUANTUM dots, QUANTUM efficiency, LIGHT emitting diodes, EMISSION control, ELECTRON traps, PEROVSKITE, PHOTOLUMINESCENCE
Abstract

Despite recent advances, it is still difficult to fabricate deep blue‐emitting perovskite light‐emitting diodes (LEDs) that are immune to the color instability caused by halide mixing. This is largely because it is still challenging to achieve bright, stable, pure bromide perovskite materials with deep blue emission. Here, a novel strategy is reported for synthesizing ultrasmall CsPbBr3 quantum dots (QDs) under ambient conditions. Precise size control is used to tune the peak emission wavelengths, via the confinement effect, from 433 to 501 nm. These ultrasmall QDs, with sizes of 2–6 nm, exhibit ultralow trap density and stable photoluminescence quantum yields up to 94%, particularly in the deep blue spectral region (440–465 nm). QD‐LEDs fabricated with these materials achieve an external quantum efficiency of 1.0% at 459 nm. The exceptional control of the emission properties demonstrated here suggests a new strategy for building stable, efficient blue QD‐LEDs. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Laser‐Printed Plasmonic Metasurface Supporting Bound States in the Continuum Enhances and Shapes Infrared Spontaneous Emission of Coupled HgTe Quantum Dots

Author

Sergeeva, Kseniia A., primary, Pavlov, Dmitrii V., additional, Seredin, Albert A., additional, Mitsai, Eugeny V., additional, Sergeev, Aleksandr A., additional, Modin, Evgeny B., additional, Sokolova, Anastasiia V., additional, Lau, Tsz Chun, additional, Baryshnikova, Kseniia V., additional, Petrov, Mihail I., additional, Kershaw, Stephen V., additional, Kuchmizhak, Aleksandr A., additional, Wong, Kam Sing, additional, and Rogach, Andrey L., additional

Published
2023
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35. Manipulating the Charge Carriers Through Functionally Bridged Components Advances Low‐Cost Organic Solar Cells with Green Solvent Processing.

Author

Dela Peña, Top Archie, Ma, Ruijie, Luo, Yongmin, Xing, Zengshan, Wei, Qi, Hai, Yulong, Li, Yao, Garcia, Sheena Anne, Yeung, King Lun, Jia, Tao, Wong, Kam Sing, Yan, He, Li, Gang, Li, Mingjie, and Wu, Jiaying

Subjects
SOLAR cells, CHARGE carriers, THERMODYNAMICS, MOLECULAR structure, ELECTROPHILES, DELAYED fluorescence, OPEN-circuit voltage, PHOTOVOLTAIC power systems
Abstract

Organic solar cell (OSC) development continues to demonstrate impressive device efficiency improvements. However, the materials synthetic simplicity essential to industrialization remains seriously lacking attention, imparting inferior performance records in low‐cost devices. Hence, low bandgap and completely non‐fused electron acceptors (CNFEAs) having simple molecular structures are investigated herein. In contrast to typically explored fused‐ring acceptors with smaller backbone conformational variations, minimizing the interface recombination sites through a greater extent of localized domains is identified as more critical in CNFEAs, leading to remarkable fill factors (FFs) approaching 75%, among the highest currently realized for low‐cost systems. However, this comes with diminishing charge generation efficiency. The general ternary blend optimization strategy modifying the morphology of host components is limited in preserving such remarkably high FFs. To suppress the trade‐off while keeping notable FFs, a new perspective of constructing functionally bridged components based on optical, electronic, and thermodynamic properties is introduced here. Specifically, charge generation is unrestrained from the host acceptor localized domains through the introduction of a "bridge" component while also taking advantage of the configuration to channel polarons toward the efficient transport moieties of the host components. Accordingly, this work incubates understanding‐guided optimizations toward the advancement of more practical devices. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Effect of Passivating Molecules and Antisolvents on Lifetime of Green Dion–Jacobson Perovskite Light-Emitting Diodes

Author

Qin, Xinshun, primary, He, Yanling, additional, Tao, Chun Ki, additional, Sergeev, Aleksandr, additional, Wong, Kam Sing, additional, Ren, Zhilin, additional, Liang, Qiong, additional, Leung, Tik Lun, additional, Li, Gang, additional, Popović, Jasminka, additional, Ng, Alan Man Ching, additional, and Djurišić, Aleksandra B., additional

Published
2023
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38. Additive-Stabilized Emission Centers for Blue Perovskite Light-Emitting Diodes

Author

Zou, Shibing, primary, Fan, Kezhou, additional, Liu, Zidan, additional, Yuan, Ligang, additional, Yin, Qixin, additional, Bai, Jinke, additional, Wang, Jiarong, additional, Li, Jiong, additional, Yang, Min, additional, Wei, Jianwu, additional, Wu, Liqin, additional, Xu, Shuang, additional, Xue, Qifan, additional, Xie, Jiangsheng, additional, Wong, Kam Sing, additional, Xu, Jianbin, additional, and Yan, Keyou, additional

Published
2023
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41. Delocalization of exciton and electron wavefunction in non-fullerene acceptor molecules enables efficient organic solar cells

Author

Zhang, Guichuan, Chen, Xian-Kai, Xiao, Jingyang, Chow, Philip C. Y., Ren, Minrun, Kupgan, Grit, Jiao, Xuechen, Chan, Christopher C. S., Du, Xiaoyan, Xia, Ruoxi, Chen, Ziming, Yuan, Jun, Zhang, Yunqiang, Zhang, Shoufeng, Liu, Yidan, Zou, Yingping, Yan, He, Wong, Kam Sing, Coropceanu, Veaceslav, Li, Ning, Brabec, Christoph J., Bredas, Jean-Luc, Yip, Hin-Lap, and Cao, Yong

Published
2020
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44. Effects of Halogenation of Small‐Molecule and Polymeric Acceptors for Efficient Organic Solar Cells

Author

Yu, Han, primary, Wang, Yan, additional, Zou, Xinhui, additional, Han, Han, additional, Kim, Ha Kyung, additional, Yao, Zefan, additional, Wang, Zhibo, additional, Li, Yuhao, additional, Ng, Ho Ming, additional, Zhou, Wentao, additional, Zhang, Jianquan, additional, Chen, Shangshang, additional, Lu, Xinhui, additional, Wong, Kam Sing, additional, Zhu, Zonglong, additional, Yan, He, additional, and Hu, Huawei, additional

Published
2023
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49. Mixed Ruddlesden–Popper and Dion–Jacobson Phase Perovskites for Stable and Efficient Blue Perovskite LEDs.

Author

Li, C‐H. Angus, Ko, Pui Kei, Chan, Christopher C. S., Sergeev, Aleksandr, Chen, Dezhang, Tewari, Neha, Wong, Kam Sing, and Halpert, Jonathan E.

Subjects
ELECTROLUMINESCENCE, QUANTUM efficiency, CHARGE injection, OPTICAL properties, STRUCTURAL stability, OPTOELECTRONICS, PEROVSKITE
Abstract

Producing efficient blue and deep blue perovskite LEDs (PeLEDs) still represents a significant challenge in optoelectronics. Blue PeLEDs still have problems relating to color, luminance, and structural and electrical stability so new materials are needed to achieve better performance. Recent reports suggest using low n states (n = 1, 2, 3) to achieve blue electroluminescence in Ruddlesden–Popper (RP) perovskite films. However, there are fewer reports on the other quasi‐2D structure, Dion–Jacobson (DJ) perovksites, despite their highly desirable optical properties, due to the difficulty in achieving charge injection. To resolve this issue, herein, w e have mixed DJ phase precursors, propane‐1,3‐diammonium (PDA) bromide into RP phase perovskites and fabricated low‐dimensional PeLEDs. It is found that these specific precursors aid in suppressing both the low n (n = 1) and high n (n ≥ 4) quasi‐2D RP phases and is an effective strategy in blue‐shifting sky‐blue RP perovskites into the sub‐470 nm region. With optimization of the PDA concentration and device layers, it is achieved an external quantum efficiency of 1.5% at 469 nm and stable electroluminescence for the first deep blue PeLED to be reported using DJ perovskites. [ABSTRACT FROM AUTHOR]

Published
2023
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50. Interface property–functionality interplay suppresses bimolecular recombination facilitating above 18% efficiency organic solar cells embracing simplistic fabrication.

Author

Dela Peña, Top Archie, Ma, Ruijie, Xing, Zengshan, Wei, Qi, Khan, Jafar I., Young, Ryan Michael, Hai, Yulong, Garcia, Sheena Anne, Zou, Xinhui, Jin, Zijing, Ng, Fai Lun, Yeung, King Lun, Swearer, Dayne F., Wasielewski, Michael R., Wang, Jiannong, Cha, Hyojung, Yan, He, Wong, Kam Sing, Li, Gang, and Li, Mingjie

Published
2023
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