26 Operationen mit der Herz-Lungen-Maschine

Haas, Nikolaus A.; Kleideiter, Ulrich

doi:10.1055/b-0038-150711

Cited by 2 publications

(3 citation statements)

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“…With a high level of security, low cost, broad bandwidth, and high data transfer rates make Li-Fi an alternative to wireless fidelity (Wi-Fi). [1][2][3] The development of Li-Fi must follow the exploration of non-volatile flash photomemory with a short photo-programming time, multiple wavelength response, and multilevel behavior to realize big data storage. Optoelectronic devices with photon-recordable functionalities are also exploited to simulate the behaviors of artificial photonic synapses.…”

Section: Introductionmentioning

confidence: 99%

Novel Application of Phosphorescent Material for Non‐Volatile Flash Photomemory and Artificial Photonic Synapse

Wiyanto

You

Chiang

et al. 2022

Adv Funct Materials

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Phosphorescent materials have received considerable attention in organic solar cells (OSCs) due to their long emission lifetime and inhibited geminate recombination. Motivated by its particular photophysical property, herein, the spatially addressable bis(2‐benzo[b]thiophen‐2‐ylpyridine)(acetylacetonate)iridium(III) (Ir(bt)2(acac))/polystyrene‐b‐poly(4‐vinylpyridine) (PS‐b‐P4VP) as a photoactive floating‐gate is first demonstrated to explore the application of phosphorescent material on the photo‐responsive characteristics of photomemory and artificial photonic synapse. By manipulating the interfacial area between Ir(bt)2(acac)/PS‐b‐P4VP and active channel by a solvent annealing process, an ON/OFF current ratio of 103 and a low programming time of 700 ms can be achieved. The current study addresses the exciton lifetime of photoactive material functions in photomemory and highlights the interfacial area between photoactive materials and charge‐carrier transporting materials in reducing photo‐programming time.

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Section: Introductionmentioning

confidence: 99%

Novel Application of Phosphorescent Material for Non‐Volatile Flash Photomemory and Artificial Photonic Synapse

Wiyanto

You

Chiang

et al. 2022

Adv Funct Materials

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“…In contrast to the spectral filtering scheme, the light is sorted toward different directions according to its wavelength. Therefore, it provides promising potentials to overcome commercial pigment/dye coloring technique in terms of efficiency, and may open up entirely new design paradigms for various applications including high-pixel-density imaging/ display, [6][7][8][9][10][11] hologram, [52][53][54][55] optical switching, [69][70][71][72] photovoltaics, [21][22][23]73,74] on-chip spectroscopy, [13,[43][44][45][46][47][48] etc. The content will more focus on the emerging concepts and the technology development trend in particular for the applications in high-resolution imaging, and discuss the pros and cons of current techniques for the integration with image sensors.…”

Section: Introductionmentioning

confidence: 99%

“…[36,37] Optical properties of microstructures (e.g., gratings) and device performance are usually sizedependent and thus bulky methods in the case of photovoltaics or display are not applicable for imaging, where the dimensions of the image sensor pixels are orders of magnitude smaller than solar cells and display units as shown in Figure 1b,d. It is not only interesting in science to study the fundamental physics in dispersive light manipulating in a scale down to a micron or sub-micron, but also extremely important to develop advanced spectral routing techniques with high-efficiency utilization of the full spectrum for applications such as high-resolution color imaging, [10,38] hyperspectral imaging, [41][42][43] on-chip spectroscopy, [13,[44][45][46][47][48] multi-channel data storage, [49][50][51] color computer-generated hologram, [52][53][54] light fidelity, [55] etc.Recently, nanophotonic spectral engineering technologies have being received tremendous attention and made significant progress. [13,[56][57][58][59][60][61][62] Plasmonic structures demonstrated a color encoding resolution as high as 100 000 dpi.…”

mentioning

confidence: 99%

Nanophotonic Color Routing

et al. 2021

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Similarly, refraction can sort out light in space following the Fresnel equation and created the spectrometer hundreds of years ago. [12,35] The interference of light is the main working mechanism of multilayer thin film filters. [36,37] Optical properties of microstructures (e.g., gratings) and device performance are usually sizedependent and thus bulky methods in the case of photovoltaics or display are not applicable for imaging, where the dimensions of the image sensor pixels are orders of magnitude smaller than solar cells and display units as shown in Figure 1b,d. It is not only interesting in science to study the fundamental physics in dispersive light manipulating in a scale down to a micron or sub-micron, but also extremely important to develop advanced spectral routing techniques with high-efficiency utilization of the full spectrum for applications such as high-resolution color imaging, [10,38] hyperspectral imaging, [41][42][43] on-chip spectroscopy, [13,[44][45][46][47][48] multi-channel data storage, [49][50][51] color computer-generated hologram, [52][53][54] light fidelity, [55] etc.Recently, nanophotonic spectral engineering technologies have being received tremendous attention and made significant progress. [13,[56][57][58][59][60][61][62] Plasmonic structures demonstrated a color encoding resolution as high as 100 000 dpi. [59] All dielectric metasurfaces presented structural colors with a gamut area of 181.5% of sRGB. [60] Colloid quantum dots were used to form a filter array for an on-chip spectrometer. [13] Sub-10 nm plasmonic resonance linewidth was demonstrated for optical sensing. [61] Reconfigurable spectral response was demonstrated by a combination of chemical and physical colors. [62] There are a number of published reviews on the topic of structural color techniques, which focus on the spectral filtering scheme. [63][64][65][66][67] The key issue of all these spectral filtering techniques is the same to pick out a certain wavelength band from a broadband light source, where efficiency and crosstalk are the main performance parameters. The color routing efficiency is associated with the brightness. The higher the efficiency, the brighter the image. For example, in the case of imaging and display, it is determined by the ratio of the received optical power in the target wavelength band over the whole incident power. Thus, in the case of a usual Bayer array with blue (R), green (G), blue (B) filters, [68] the maximum efficiency of the R pixel is considered to be only 25% (without consideration of unwanted crosstalk) because the light incident to other three pixels will not contribute to the R pixel. The spectral crosstalk is associated with the color purity. The lower the spectral crosstalk, the higher the Recent advances in low-dimensional materials and nanofabrication technologies have stimulated many breakthroughs in the field of nanophotonics such as metamaterials and plasmonics that provide efficient ways of light manipulation at a subwavelength scale. The representative structure-...

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26 Operationen mit der Herz-Lungen-Maschine

Cited by 2 publications

References 0 publications

Novel Application of Phosphorescent Material for Non‐Volatile Flash Photomemory and Artificial Photonic Synapse

Novel Application of Phosphorescent Material for Non‐Volatile Flash Photomemory and Artificial Photonic Synapse

Nanophotonic Color Routing

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