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1. Broadband light trapping in perovskite solar cells: Optimization and enhancement through exploiting multi-resonant Mie resonators NSTL国家科技图书文献中心

Ju, Seongcheol |  Lim, Donggyu... -  《Optics & Laser Technology》 - 2025,181(Pt.B) - 共7页

摘要: efficient broadband light trapping (LT) in perovskite | We present multi-resonant Mie resonators |  comprising dielectric nanopyramid arrays (DNPAs) for |  solar cells (PSCs). Absorption in a 100 nm-thick |  active layer is significantly enhanced over a broad
关键词: Perovskite solar cell |  Light trapping |  Mie scattering |  Multipolar resonance
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2. A Framework for Designing Efficient Eco-Friendly Broadband GeSn/SnS Photodetector Based on Light Trapping Engineering NSTL国家科技图书文献中心

Ferhati, H. |  Djeffal, F. -  《Plasmonics》 - 2025,20(4) - 2225~2235 - 共11页

摘要: light trapping engineering combined with band-gap | A multispectral photoresponse feature of a |  self-powered photodetector device is quickly becoming |  a key technology to address the scaling challenges |  in emerging multifunctional optoelectronic systems
关键词: Photodetector |  Light trapping |  Nanoparticles |  GeSn/SnS |  Broadband |  Plasmonics
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3. Efficient SnS Solar Cells via Plasmonic Light Trapping and Alternative Buffer Layers: A Combined Machine Learning and FDTD Analysis NSTL国家科技图书文献中心

Ferhati, H. |  Berghout, T.... -  《Plasmonics》 - 2025,20(1) - 253~263 - 共11页

摘要:, aiming to improve the light trapping and carrier |  plasmonic-based light management approach is proposed |  selection of the Au-NPs configuration for enhanced light |  trapping and carrier transport management. Moreover, the | In this work, we propose a novel design
关键词: Machine learning |  FDTD |  Plasmonic |  SnS |  SnS2 |  Nanoparticles
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4. Effect of ZnO Nanowall Morphologies on the Photoelectric Performances of Ag Nanowire/ZnO Nanowall Composite Films NSTL国家科技图书文献中心

Yan, Jiaming |  Hu, Daqiang... -  《Journal of Electronic Materials》 - 2025,54(2) - 1263~1270 - 共8页

摘要: transmission, and light-trapping and electrical properties of |  morphologies on the light-trapping, optical, and electrical |  significantly impacted their light-trapping ability, as well |  their high total transmittance and excellent light | -trapping and electrical properties, the Ag nanowire/ZnO
关键词: ZnO nanowalls |  Ag nanowires |  morphology |  light-trapping abilities |  photoelectric |  haze
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5. Asymmetric hexagonal silicon nanowires with partial cylindrical hole defects for improved energy harvesting efficiency NSTL国家科技图书文献中心

Khaled, Awad |  Hameed, Mohamed Farh...... -  《Physica Scripta》 - 2025,100(4) - 共18页

摘要: realizing an efficient light-trapping compared to |  reduced, and the light confinement is increased due to | Recently, nanostructured silicon nanowires |  (SiNWs) have provided an attractive solution for |  conventional thin film solar cell (SC). However, the
关键词: nanowires |  nanoholes |  light trapping |  short circuit current density |  power conversion efficiency
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6. Non-uniform Al 2 O 3 back reflector for performance enhancement of thin rear passivated silicon solar cells NSTL国家科技图书文献中心

Banerjee, Pritam |  Mukhopadhyay, Sumita... -  《Physica Scripta》 - 2025,100(1) - 共12页

摘要: for such cells namely poor light absorption in thin | Low material usage, physical flexibility | , portability, and lightweight applications are some of the |  major advantages that have claimed serious research |  attention towards ultrathin crystalline wafer-based solar
关键词: light-trapping |  back reflector |  crystalline silicon |  thin solar cell |  rear passivation |  lossless mirror
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7. Nanostructured Gold Interlayer-Enhanced Self-Powered Photodetectors for Visible and Long-Wave Infrared Dual-Band Applications NSTL国家科技图书文献中心

Boyong Zhang |  Wencan Wang... -  《Laser & Photonics Reviews》 - 2025,19(5) - 2401329.1~2401329.11 - 共11页

摘要: infrared dual-band, are developed for visible light |  attributed to enhanced light absorption resulting from |  photoresponse at high pulsed light frequencies but also | Self-powered dual-functional detectors |  comprising a p-Si/nanostructured Au/CdS sandwiched
关键词: dual-band photodetection |  interface polar symmetry |  light trapping effect |  nanostructured gold interlayer |  passive human recognition |  self-power |  solid-state dewetting
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8. Asymmetric Trapping of Siloxyketenes In Situ Generated from [1,3]-Silyl Migration of α-Ketoacylsilanes: A Visible-Light-Driven Palladium-Catalyzed [4+2] Cycloaddition NSTL国家科技图书文献中心

Yao, Lingyun |  Zou, Xinlan... -  《ACS catalysis》 - 2025,15(7) - 5796~5805 - 共10页

摘要: precursors. Herein, we report a visible-light-driven |  alpha-ketoacylsilylanes through visible-light-induced | The transition metal-catalyzed asymmetric [n |  + 2] cycloaddition reaction with oxy-substituted |  ketene intermediates remains a synthetic challenge due
关键词: asymmetric catalysis |  cycloaddition reactions |  alpha-ketoacylsilane |  ketene |  Pd catalysis
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9. Improved Charge Recombination Efficiency in Organic Light-Emitting Transistors via Luminescent Radicals NSTL国家科技图书文献中心

Francesco Reginato |  Eugenio Lunedei... -  《Advanced functional materials》 - 2025,35(1) - 2411845.1~2411845.12 - 共12页

摘要: reveal that exciton formation in radical organic light |  trapping mechanism. Although typically detrimental for |  OLEDs, this might be a key process to elucidate light |  emission in organic light-emitting transistors (OLETs |  emission ascribed to the charge trapping mechanisms
关键词: ambipolar-like operation |  charge trapping |  external quantum efficiency |  or- ganic light-emitting transistors |  organic radical emitters |  transient electro- luminescence
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10. Monitoring of Single-Cell Bacterial Lysis by Phages Within Integrated Optical Traps NSTL国家科技图书文献中心

Enrico Tartari |  Nicolas Villa... -  《Advanced Optical Materials》 - 2025,13(6) - 2402586.1~2402586.8 - 共8页

摘要: poorly understood. Here, the use of nanoscale light |  trapping of a single phage-infected bacterium and their |  optical trapping of the bacterium even after lysis. The | The bacterial ecosystem is naturally balanced |  by viruses known as bacteriophages. Accordingly
关键词: bacteriophages-bacteria lysis, light nano-engineering, optical trapping, photonic crystals
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