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学者姓名:陈伟
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Significance The evolution of display technology is a cornerstone of modern technological advancement, fundamentally transforming how humans interact with machines. This transformation is vividly apparent in human-computer interactions, where the integration of sophisticated display technologies has led to more intuitive and immersive experiences. The global living standard improvement has further fueled expectations for advanced display devices, with consumers seeking higher quality, efficiency, and functionality. The advent of near-eye display technologies such as augmented reality (AR), mixed reality (MR), and virtual reality (VR) has only heightened the demands for high-resolution microdisplays. These emerging technologies require displays that provide not only high resolution but also compactness, energy efficiency, and the ability to reproduce colors accurately and vividly. The current market is dominated by micro-LED technology and recognized for its superior brightness and energy efficiency. However, the production of full-color micro-LEDs poses significant challenges, chiefly in the massive transfer of differently colored LED chips onto a single wafer. This process demands an exceptionally high yield rate, making it both technologically challenging and costly. As a new type of semiconductor nanocrystal materials with quantum confinement effects, quantum dots (QDs) have sparked great interest in the display field due to their unique properties such as tunable bandgaps, high quantum yields, high stability, and potential for cost-effective solution processing. QDs typically adopt a core- shell structure [Fig. 1(a)] and by adjusting the energy levels of the core-shell structure, excitons within the QDs can be confined. Organic ligands on the surface of QD shells provide steric hindrance among the dots, thus preventing aggregation and fluorescence quenching. The physicochemical properties of QDs can be adjusted by changing their organic ligands. Since Alivisatos's research team first reported LEDs with QDs as the electroluminescent layer in 1994, QD display devices have undergone 30 years of research. Additionally, high-resolution display devices using QDs have been realized via various patterning technologies to exhibit excellent device performance and fine pixel patterns. Although high-resolution patterning technology based on QDs has been extensively studied, there is still a lack of comprehensive reviews and summaries of recent work. Therefore, it is significant to summarize existing research and explore future development trends. Progress The current leading high-resolution QD patterning technologies encompass inkjet printing, photolithography, photo-crosslinking, region-selective deposition, transfer printing, and in-situ fabrication. These technologies are thoroughly compared and summarized in their process flows, strengths, and weaknesses, as depicted in Figs. 2, 6, and 8-12. In 2023, the team led by researcher Chen Zhuo from BOE Technology Group Co., Ltd. utilized electrospray inkjet printing for fabricating both bottom-emitting and top-emitting electroluminescent QD devices, achieving a resolution of 500 ppi. In 2020, the team of Xu Xiaoguang at BOE successfully created a 500 ppi full-color passive matrix QD light-emitting device by a sacrificial layer-assisted photolithography method. That same year, Moon Sung Kang and the team at Sogang University in the republic of Korea developed a method for patterning QDs with a photo-driven ligand crosslinking agent, successfully producing full- color QD patterns with a resolution of 1400 ppi. In 2021, Sun Xiaowei and the team at Southern University of Science and Technology achieved a large-area full-color QD thin film with 1000 ppi resolution via selective electrophoretic deposition. In 2019, Hu Binbin at Henan University reported on assembling QD nanoparticles into microstructures via wetting-induced deposition. In 2021, the team led by Chen Shuming at Southern University of Science and Technology built a resonant cavity in white light QD light-emitting devices to achieve full-color patterned QD devices and a QD film patterning resolution of 8465 ppi. In 2015, Taeghwan Hyeon and the team at the Institute for Basic Science in the republic of Korea realized QD light-emitting devices with a resolution of 2460 ppi using gravure transfer printing technology. In 2022, our team collaborated with the team of Qian Lei at the Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, integrated transfer printing with Langmuir-Blodgett film technology to create ultra-high pixel density QD light-emitting devices at 25400 ppi. In 2021, Zhong Haizheng and the team at the Beijing Institute of Technology prepared patterned CsPbI3 QD patterns on substrates via laser direct writing in situ. Conclusions and Prospects As carriers of visual information, display devices play an indispensable role in our daily lives. Emerging as revolutionary materials, QDs have become the ideal choice for next-generation display technologies with their unique properties such as tunable bandgaps, high quantum yields, and stability. Consequently, mastering high-resolution QD patterning is a crucial challenge that should be addressed for QD display devices to make significant strides in the market. In summary, various high-resolution QD patterning technologies require further detailed exploration to advance the applications and development of QD light-emitting devices in high-quality displays.
Keyword :
display technology display technology high resolution high resolution patterning technology patterning technology quantum dot quantum dot
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| GB/T 7714 | Pan Youjiang , Lin Lihua , Yang Kaiyu et al. Patterning Technology of High-Resolution Quantum Dots [J]. | ACTA OPTICA SINICA , 2024 , 44 (2) . |
| MLA | Pan Youjiang et al. "Patterning Technology of High-Resolution Quantum Dots" . | ACTA OPTICA SINICA 44 . 2 (2024) . |
| APA | Pan Youjiang , Lin Lihua , Yang Kaiyu , Chen Wei , Hu Hailong , Guo Tailiang et al. Patterning Technology of High-Resolution Quantum Dots . | ACTA OPTICA SINICA , 2024 , 44 (2) . |
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An experimental investigation was conducted to investigate the axial compressive behavior of square longitudinal-seam steel tubular (LSST) stub columns with artificial crack defect in weld. The axial compression tests were carried out on 108 square LSST stub columns with crack defect and 3 square LSST columns without crack defect as control groups. The effect of design parameters such as thickness of tube, length and width of crack defect, location of crack defect on axial compressive behavior of square LSST columns were analyzed. Test results involved failure modes, load-displacement behavior, ultimate strength, initial stiffness, and ductility coefficient of all specimens were presented. The corresponding FE models of square LSST columns with crack defect are established and validated by comparison with experimental results. Test results have demonstrated that crack defect often led to stress concentration, causing significantly higher strain intensity at the position of crack defect compared to other areas. Square LSST columns with crack defect exhibited a 26% lower ultimate strength at T = 2.5 mm. The ductility coefficient enhanced with the decrease of length and width of crack defect. However, the location of crack defect had limited effect on axial behavior of LSST columns. In addition, parametric formulae of ultimate strength for square LSST columns with crack defect are proposed, which achieved high accuracy. The research results could provide evaluation reference in design and construction of LSST column.
Keyword :
Axial compression behavior Axial compression behavior Crack defect Crack defect Longitudinal -seam steel tubular (LSST) column Longitudinal -seam steel tubular (LSST) column Ultimate strength Ultimate strength
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| GB/T 7714 | Zhu, Yao , Xing, Zhiquan , Zhang, Wanpeng et al. Behavior of longitudinal-seam steel tubular columns with crack defect in weld [J]. | JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH , 2024 , 212 . |
| MLA | Zhu, Yao et al. "Behavior of longitudinal-seam steel tubular columns with crack defect in weld" . | JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH 212 (2024) . |
| APA | Zhu, Yao , Xing, Zhiquan , Zhang, Wanpeng , Xiong, Chuanxiang , Chen, Yu , Chen, Wei et al. Behavior of longitudinal-seam steel tubular columns with crack defect in weld . | JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH , 2024 , 212 . |
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由于量子点优异的材料特性,包括可调的能带间隙、高量子产率、高稳定性和可低成本地溶液加工等,其在显示领域引发了浓厚的兴趣和研究热潮。近年来,随着全世界对高质量显示的需求日益增长,特别是随着虚拟/增强现实(VR/AR)等近眼显示技术的兴起,对高亮度、高分辨率、高效率以及低功耗的显示技术提出了更高的要求。本文全面探讨了高分辨率量子点图案化技术,深入解析它们的工艺流程,并详细阐述它们在量子点显示器件中的各种应用。此外,还概述了高分辨率量子点图案化技术在实际应用中所面临的主要挑战。我们认为,要将高分辨率量子点图案化技术真正地应用到实际设备中,必须全面考虑各种因素,不仅包括从图案化技术出发,同时还涉及到从材料选择和器件结构设计等多个角度的深入思考和策划。本综述可为高分辨率量子点图案化技术行业的发展和研究提供有价值的参考。
Keyword :
图案化技术 图案化技术 显示技术 显示技术 量子点 量子点 高分辨率 高分辨率
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| GB/T 7714 | 潘友江 , 林立华 , 杨开宇 et al. 高分辨率量子点图案化技术 [J]. | 光学学报 , 2024 , 44 (02) : 44-59 . |
| MLA | 潘友江 et al. "高分辨率量子点图案化技术" . | 光学学报 44 . 02 (2024) : 44-59 . |
| APA | 潘友江 , 林立华 , 杨开宇 , 陈伟 , 胡海龙 , 郭太良 et al. 高分辨率量子点图案化技术 . | 光学学报 , 2024 , 44 (02) , 44-59 . |
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Memristor-based physical reservoir computing holds significant potential for efficiently processing complex spatiotemporal data, which is crucial for advancing artificial intelligence. However, owing to the single physical node mapping characteristic of traditional memristor reservoir computing, it inevitably induces high repeatability of eigenvalues to a certain extent and significantly limits the efficiency and performance of memristor-based reservoir computing for complex tasks. Hence, this work firstly reports an artificial light-emitting synaptic (LES) device with dual photoelectric output for reservoir computing, and a reservoir system with mixed physical nodes is proposed. The system effectively transforms the input signal into two eigenvalue outputs using a mixed physical node reservoir comprising distinct physical quantities, namely optical output with nonlinear optical effects and electrical output with memory characteristics. Unlike previously reported memristor-based reservoir systems, which pursue rich reservoir states in one physical dimension, our mixed physical node reservoir system can obtain reservoir states in two physical dimensions with one input without increasing the number and types of devices. The recognition rate of the artificial light-emitting synaptic reservoir system can achieve 97.22% in MNIST recognition. Furthermore, the recognition task of multichannel images can be realized through the nonlinear mapping of the photoelectric dual reservoir, resulting in a recognition accuracy of 99.25%. The mixed physical node reservoir computing proposed in this work is promising for implementing the development of photoelectric mixed neural networks and material-algorithm collaborative design. © The Author(s) 2024.
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| GB/T 7714 | Lian, M. , Gao, C. , Lin, Z. et al. Towards mixed physical node reservoir computing: light-emitting synaptic reservoir system with dual photoelectric output [J]. | Light: Science and Applications , 2024 , 13 (1) . |
| MLA | Lian, M. et al. "Towards mixed physical node reservoir computing: light-emitting synaptic reservoir system with dual photoelectric output" . | Light: Science and Applications 13 . 1 (2024) . |
| APA | Lian, M. , Gao, C. , Lin, Z. , Shan, L. , Chen, C. , Zou, Y. et al. Towards mixed physical node reservoir computing: light-emitting synaptic reservoir system with dual photoelectric output . | Light: Science and Applications , 2024 , 13 (1) . |
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To improve the durability of marine renewable energy infrastructures, this paper proposed a weathering steel reinforced seawater sea-sand concrete (WSRSSC) structure and investigated its interfacial bond-slip behavior. Forty specimens were designed and underwent simulated marine corrosion tests and push-out tests to explore the effect of various factors, including the corrosion time, shaped steel type, steel section form, seawater sea-sand concrete (SSC) strength, and stirrup spacing. The findings indicated that the ultimate bond stress and residual bond stress increase with higher SSC strength but decrease with greater stirrup spacing. The steel section form significantly affected the ultimate bond stress. With the increase in corrosion time, the ultimate bond stress of WSRSSC specimens first increased and then slowly decreased in the later stages. Weathering steel specimens demonstrated superior corrosion resistance and long-term performance compared to carbon steel specimens. Considering the bond formation mechanism and corrosion damage, the calculation model for the ultimate bond stress and residual bond stress of WSRSSC specimens was proposed. Furthermore, the four-stage bond-slip constitutive model between weathering steel and seawater sea-sand concrete was established, aligning with the bond characteristics of different corrosion degrees and contributing to the numerical simulation of WSRSSC structures in corrosive marine environments.
Keyword :
Constitutive model Constitutive model Interfacial bond-slip behavior Interfacial bond-slip behavior Marine corrosion Marine corrosion Push-out test Push-out test Seawater sea-sand concrete Seawater sea-sand concrete Weathering steel Weathering steel
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| GB/T 7714 | Li, Xuetong , Lin, Yuhan , Zhang, Canlin et al. Experimental study on interfacial bond-slip behavior of weathering steel and seawater sea-sand concrete in corrosive marine environments [J]. | THIN-WALLED STRUCTURES , 2024 , 201 . |
| MLA | Li, Xuetong et al. "Experimental study on interfacial bond-slip behavior of weathering steel and seawater sea-sand concrete in corrosive marine environments" . | THIN-WALLED STRUCTURES 201 (2024) . |
| APA | Li, Xuetong , Lin, Yuhan , Zhang, Canlin , Chen, Yu , Chen, Wei , Geng, Li . Experimental study on interfacial bond-slip behavior of weathering steel and seawater sea-sand concrete in corrosive marine environments . | THIN-WALLED STRUCTURES , 2024 , 201 . |
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Photosensitive quantum dot light-emitting diodes (PSQLEDs) possess the dual capabilities of generating and detecting light signals, which is of significant importance for the development of miniaturized and integrated optoelectronic devices. However, the state-of-the-art PSQLEDs can only detect light signals within a certain wavelength range, and require switching between the two functions under different bias voltage directions. In this work, The use of a ZnO/quantum dots (QDs)/ZnO multilayer (ZQZ ML) architecture as both the electron transport layer and the photosensitive layer is pioneered. The QDs in this structure are composed of narrow-bandgap lead sulfide QDs and wide-bandgap cadmium selenide QDs, successfully realizing a unique PSQLED device with C photosensitive characteristics. As a result, the as-fabricated device can respond to illumination from 365 to 1300 nm, and the device achieves a photoresponse rate of 20.9 mA W−1 in self-powered mode to UV light. After UV light irradiation, the maximum external quantum efficiency and maximum luminance of device reached 11.8% and 64,549 cd m−2, respectively. The device shows a record-high luminance ON/OFF ratio of 5500%, which is beneficial for high contrast and accurate information display. © 2024 Wiley-VCH GmbH.
Keyword :
broad-spectrum detection broad-spectrum detection dual-functional dual-functional light-emitting device light-emitting device photosensitive photosensitive quantum dot quantum dot
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| GB/T 7714 | Pan, Y. , Hu, H. , Yang, K. et al. Efficient Dual-Functional Quantum Dot Light-Emitting Diodes with UV-Vis-NIR Broad-Spectrum Photosensitivity [J]. | Advanced Optical Materials , 2024 , 12 (26) . |
| MLA | Pan, Y. et al. "Efficient Dual-Functional Quantum Dot Light-Emitting Diodes with UV-Vis-NIR Broad-Spectrum Photosensitivity" . | Advanced Optical Materials 12 . 26 (2024) . |
| APA | Pan, Y. , Hu, H. , Yang, K. , Chen, W. , Lin, L. , Guo, T. et al. Efficient Dual-Functional Quantum Dot Light-Emitting Diodes with UV-Vis-NIR Broad-Spectrum Photosensitivity . | Advanced Optical Materials , 2024 , 12 (26) . |
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As carriers of visual information, displays play an indispensable role in our daily life. In recent years, high-resolution (HR) self-emissive displays have been rapidly developed because of the expanding market demand for microdisplay products; consequently, research on the improvement of display resolution, material and device structure optimization, the design and development of drive circuits, and various applications of HR display technology has significantly increased. However, there is no comprehensive review of HR light-emitting devices. This review focuses on HR light-emitting technologies. The main contents of the review are as follows: (1) methods for fabricating HR light-emitting devices; (2) processes for fabricating self-emissive displays and other potential fine patterning techniques for the same purpose; (3) the advantages and limitations of these processes; (4) the challenges associated with HR displays. This review can serve as a valuable reference for the development of the microdisplay industry and for studies on microdisplays.
Keyword :
display display high resolution high resolution light-emitting technique light-emitting technique
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| GB/T 7714 | Zheng, Yueting , Yu, Yongshen , Chen, Wei et al. High-resolution light-emitting devices for display applications [J]. | SCIENCE CHINA-MATERIALS , 2023 , 66 (6) : 2128-2145 . |
| MLA | Zheng, Yueting et al. "High-resolution light-emitting devices for display applications" . | SCIENCE CHINA-MATERIALS 66 . 6 (2023) : 2128-2145 . |
| APA | Zheng, Yueting , Yu, Yongshen , Chen, Wei , Hu, Hailong , Guo, Tailiang , Li, Fushan . High-resolution light-emitting devices for display applications . | SCIENCE CHINA-MATERIALS , 2023 , 66 (6) , 2128-2145 . |
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Shear tests on 63 super-tightened high-strength bolt groups were carried out to investigate the damage mode, load displacement, ductility, and other mechanical indicators. The effects of key parameters such as different core plate thickness, super-tightened bolt number, super-tightened bolt position, and the high-strength bolts preload force on the shear performance of highstrength bolt group were analyzed. The finite element model was built and a parametric expansion investigation was carried out. Results have demonstrated that the failure mode is typical bolt shear damage, with cover end deformation and bolt hole extrusion deformation. The increment of super-tightened bolts number and the super-tightened bolt preload improve the antisliding bearing capacity. However, plate thickness and super-tightened bolt position have no effect on the anti-sliding bearing capacity. The shear ultimate bearing capacity of the supertightened high-strength bolt group is not significantly different from that of the standard specimen. The ductility is negatively correlated with the number of super-tightened bolts and the super-tightened bolt preload, but the decrease percentage is within 25%. Additionally, the results obtained from the finite element simulation are in agreement with the experimental findings. The simulation analysis shows that increasing the strength grade of high-strength bolts would enhance the ultimate bearing capacity. The specimens treated with sprayed quality quartz sand exhibit a higher anti-sliding bearing capacity compared to those with a clean rolled plate surface. Finally, the genetic algorithm was used to obtain the optimal and most unfavorable states under different mechanical properties based on experimental data.
Keyword :
Anti -sliding bearing capacity Anti -sliding bearing capacity Ductility Ductility Genetic algorithm Genetic algorithm Super -tightened high -strength bolts Super -tightened high -strength bolts The most unfavorable state The most unfavorable state Ultimate bearing capacity Ultimate bearing capacity
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| GB/T 7714 | Zhang, Wanpeng , Xing, Zhiquan , Huang, Zhihan et al. Study on shear behavior of super-tightened high-strength bolted group connections [J]. | JOURNAL OF BUILDING ENGINEERING , 2023 , 76 . |
| MLA | Zhang, Wanpeng et al. "Study on shear behavior of super-tightened high-strength bolted group connections" . | JOURNAL OF BUILDING ENGINEERING 76 (2023) . |
| APA | Zhang, Wanpeng , Xing, Zhiquan , Huang, Zhihan , Chen, Yu , Shao, Yongbo , Chen, Wei et al. Study on shear behavior of super-tightened high-strength bolted group connections . | JOURNAL OF BUILDING ENGINEERING , 2023 , 76 . |
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The land-ocean aquatic continuum is affected notably by damming, yet the effects of changing dissolved organic carbon (DOC) and optical properties in the reservoir zone of dammed rivers on the downstream waterbodies remain unclear. This was studied in the Minjiang River (SE China) in the normal, wet, and dry seasons, using the measurements of DOC, absorption spectroscopy, and fluorescence excitation-emission matrices-parallel factor analysis (EEMs-PARAFAC). The DOC and absorption spectral slope (S275-295) increased while the absorption coefficient (a280) and DOC-specific UV absorbance (SUVA254) decreased in the surface water of the reservoir. This indicated removals of chromophoric dissolved organic matter (CDOM) and potential additions of autoch-thonous constituents with lower aromaticity and molecular weight. The discharge of more humified DOC from the middle and deep outlets of the reservoir was evident in the adjacent downstream station in the wet season. The DOC and optical indices were generally stable in the downstream river zone in the normal and dry seasons, suggesting that these signals from the reservoir could persist downstream. In contrast, the downstream DOC and CDOM showed evident additions in the wet season, which might be related to enhanced inputs from the sur-rounding soils and residential areas in the rainy and hot summer. The absorption coefficient and humic-like components correlated strongly with salinity in the estuarine zone, indicating they were mainly conservative in the estuary of this study. This suggested that the refractory DOC from the reservoir and river zones could pass the estuary and contribute to the carbon storage in the coastal ocean. In contrast, the protein-like components did not correlate significantly with salinity, indicating more active modifications of labile constituents in the estuary. Overall, our results have implications for assessing the effects of damming on DOC and optical properties across the land-ocean aquatic continuum.
Keyword :
Absorption spectroscopy Absorption spectroscopy Dissolved organic matter Dissolved organic matter EEMs-PARAFAC EEMs-PARAFAC Estuary Estuary Reservoir Reservoir River River
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| GB/T 7714 | Zhuang, Wan-E , Chen, Wei , Yang, Liyang . Coupled effects of dam, hydrology, and estuarine filtering on dissolved organic carbon and optical properties in the reservoir-river-estuary continuum [J]. | JOURNAL OF HYDROLOGY , 2022 , 617 . |
| MLA | Zhuang, Wan-E et al. "Coupled effects of dam, hydrology, and estuarine filtering on dissolved organic carbon and optical properties in the reservoir-river-estuary continuum" . | JOURNAL OF HYDROLOGY 617 (2022) . |
| APA | Zhuang, Wan-E , Chen, Wei , Yang, Liyang . Coupled effects of dam, hydrology, and estuarine filtering on dissolved organic carbon and optical properties in the reservoir-river-estuary continuum . | JOURNAL OF HYDROLOGY , 2022 , 617 . |
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Information encryption is an important means to improve the security of anti-counterfeiting labels. At present, it is still challenging to realize an anti-counterfeiting label with multi-function, high security factor, low production cost, and easy detection and identification. Herein, using inkjet and screen printing technology, we construct a multi-dimensional and multi-level dynamic optical anti counterfeiting label based on instantaneously luminescent quantum dots and long afterglow phosphor, whose color and luminous intensity varied in response to time. Self-assembled quantum dot patterns with intrinsic fingerprint information endow the label with physical unclonable functions (PUFs), and the information encryption level of the label is significantly improved in view of the information variation in the temporal dimension. Furthermore, the convolutional residual neural networks are used to decode the massive information of PUFs, enabling fast and accurate identification of the anti-counterfeit labels.
Keyword :
dynamic anti-counterfeiting dynamic anti-counterfeiting fingerprint pattern fingerprint pattern information encryption information encryption long afterglow long afterglow physical unclonable function physical unclonable function quantum dots quantum dots
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| GB/T 7714 | Chen, Hang , Hu, Hailong , Sun, Beichen et al. Dynamic Anti-Counterfeiting Labels with Enhanced Multi-Level Information Encryption [J]. | ACS APPLIED MATERIALS & INTERFACES , 2022 . |
| MLA | Chen, Hang et al. "Dynamic Anti-Counterfeiting Labels with Enhanced Multi-Level Information Encryption" . | ACS APPLIED MATERIALS & INTERFACES (2022) . |
| APA | Chen, Hang , Hu, Hailong , Sun, Beichen , Zhao, Haobing , Qie, Yuan , Luo, Zhiqi et al. Dynamic Anti-Counterfeiting Labels with Enhanced Multi-Level Information Encryption . | ACS APPLIED MATERIALS & INTERFACES , 2022 . |
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