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Artykuły w czasopismach na temat „Tunable optical properties”

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Data publikacji: 6 września 2023

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1

Biler, Michal, Patrick Trouillas, David Biedermann, Vladimír Křen i Martin Kubala. "Tunable optical properties of silymarin flavonolignans". Journal of Photochemistry and Photobiology A: Chemistry 328 (wrzesień 2016): 154–62. http://dx.doi.org/10.1016/j.jphotochem.2016.05.024.

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Piccone, Ashley. "Peering into the optical properties of tunable window technology". Scilight 2022, nr 34 (19.08.2022): 341105. http://dx.doi.org/10.1063/10.0013783.

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Stefan, Mihaela, Chandima Bulumulla, Ruwan Gunawardhana, Prabhath Gamage, Ruvanthi Kularatne i Michael Biewer. "π-Spacer-Linked Bisthienopyrroles with Tunable Optical Properties". Synlett 29, nr 19 (2.10.2018): 2567–71. http://dx.doi.org/10.1055/s-0037-1611055.

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Thieno[3,2-b]pyrrole is an effective nonconventional semiconducting building block that could be generated in gram quantities with relatively high overall yields. Three organic semiconductors containing thieno[3,2-b]pyrrole were synthesized in good yields without requiring time-consuming column purifications. The synthesis, optical and electrochemical properties were systematically investigated.1 Introduction2 Experimental3 Synthesis and Characterization4 Theoretical Calculations5 Optical and Electrochemical Properties6 Thermal Stability7 Fluorescence Experiments8 GIXRD Data9 Conclusions
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4

Martins, Manuel A., Sara Fateixa, Ana V. Girão, Sérgio S. Pereira i Tito Trindade. "Shaping Gold Nanocomposites with Tunable Optical Properties". Langmuir 26, nr 13 (6.07.2010): 11407–12. http://dx.doi.org/10.1021/la100875j.

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5

Lei, Weiwei, Dan Liu, Jian Zhang, Bingbing Liu, Pinwen Zhu, Tian Cui, Qiliang Cui i Guangtian Zou. "AlN nanostructures: tunable architectures and optical properties". Chemical Communications, nr 11 (2009): 1365. http://dx.doi.org/10.1039/b815862b.

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6

Shi, Yue-Wen, Min-Min Shi, Jia-Chi Huang, Hong-Zheng Chen, Mang Wang, Xiao-Dong Liu, Yu-Guang Ma, Hai Xu i Bing Yang. "Fluorinated Alq3 derivatives with tunable optical properties". Chemical Communications, nr 18 (2006): 1941. http://dx.doi.org/10.1039/b516757d.

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7

Wang, Mingsheng, i Yadong Yin. "Magnetically Responsive Nanostructures with Tunable Optical Properties". Journal of the American Chemical Society 138, nr 20 (6.05.2016): 6315–23. http://dx.doi.org/10.1021/jacs.6b02346.

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8

Luo, Yang, Shou-zheng Zhu, Hong Ye, Hong-wei Mao i Chun-mei Wang. "Tunable optical properties with planar metamaterial lens". Journal of Modern Optics 62, nr 12 (6.03.2015): 971–77. http://dx.doi.org/10.1080/09500340.2015.1015634.

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9

Otón, José Manuel, Manuel Caño-García, Fernando Gordo, Eva Otón, Morten Andreas Geday i Xabier Quintana. "Liquid crystal tunable claddings for polymer integrated optical waveguides". Beilstein Journal of Nanotechnology 10 (5.11.2019): 2163–70. http://dx.doi.org/10.3762/bjnano.10.209.

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Optical waveguides in photonic integrated circuits are traditionally passive elements merely carrying optical signals from one point to another. These elements could contribute to the integrated circuit functionality if they were modulated either by variations of the core optical properties, or by using tunable claddings. In this work, the use of liquid crystals as electro-optically active claddings for driving integrated waveguides has been explored. Tunable waveguides have been modeled and fabricated using polymers. Optical functions such as variable coupling and optical switching have been demonstrated.
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10

Zhang, Yang, Zhi-Feng Wu, Peng-Fei Gao, Dang-Qi Fang, Er-Hu Zhang i Sheng-Li Zhang. "Strain-tunable electronic and optical properties of BC3monolayer". RSC Advances 8, nr 3 (2018): 1686–92. http://dx.doi.org/10.1039/c7ra10570c.

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The BC3monolayer holds great promise in the applications of nanoelectronic and optoelectronic devices due to its good structural stability, moderate and tunable band gap, and strain-controllable optical properties.
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11

Tebbe, Moritz, Sarah Lentz, Luca Guerrini, Andreas Fery, Ramon A. Alvarez-Puebla i Nicolas Pazos-Perez. "Fabrication and optical enhancing properties of discrete supercrystals". Nanoscale 8, nr 25 (2016): 12702–9. http://dx.doi.org/10.1039/c5nr09017b.

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12

Chingsungnoen, Artit, i Thananchai Dasri. "Tunable optical and magneto-optical properties of nickel-polymer nanoparticles". Integrated Ferroelectrics 195, nr 1 (2.01.2019): 1–10. http://dx.doi.org/10.1080/10584587.2019.1570039.

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13

Hu, Hao, Hengwei He, Jinyi Zhang, Xiandeng Hou i Peng Wu. "Optical sensing at the nanobiointerface of metal ion–optically-active nanocrystals". Nanoscale 10, nr 11 (2018): 5035–46. http://dx.doi.org/10.1039/c8nr00350e.

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14

Xie, Feifei, i Nathaniel S. Finney. "Synthesis and optical properties of mono- and diaminocorannulenes". Chemical Communications 56, nr 72 (2020): 10525–28. http://dx.doi.org/10.1039/d0cc03853a.

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15

Shirzaditabar, Farzad, i Maryam Saliminasab. "Tunable optical properties of silver–dielectric–silver nanoshell". International Journal of Modern Physics B 28, nr 20 (19.06.2014): 1450134. http://dx.doi.org/10.1142/s0217979214501343.

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Tunable optical properties of silver–dielectric–silver nanoshell including surface plasmon resonance (SPR) and resonance light scattering (RLS) based on quasi-static theory are investigated. When the silver core radius increases, the longer resonance wavelength red shifts and light scattering cross-section decreases whereas the shorter resonance wavelength blue shifts and the light scattering cross-section increases. The effect of middle dielectric thickness on the light scattering cross-section of nanoshell is different from those of the silver core radius changes. As middle dielectric radius increases, the longer resonance wavelength first blue shifts and then red shifts and the light scattering cross-section increases whereas the shorter resonance wavelength always red shifts and the light scattering cross-section decreases. The sensitivity of RLS to the refractive index of embedding medium is also reported. As the silver core radius increases, the sensitivity of silver–dielectric–silver nanoshell decreases whereas increasing the middle dielectric thickness leads to increase the sensitivity of silver–dielectric–silver nanoshell. Tunable optical properties of silver–dielectric–silver nanoshell verify the biosensing potential of this nanostructure.
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16

Pratama, Fuad, Ismudiati Puri Handayani i Edy Wibowo. "The Optical Properties of Sub-micrometer WS2 Preparing Using Electrochemical Fabrication". Journal of Measurements, Electronics, Communications, and Systems 9, nr 1 (30.06.2022): 39. http://dx.doi.org/10.25124/jmecs.v9i1.5307.

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Photonic band gap tunability is crucial in designing optoelectronic devices. Nanostructure semiconductors with tunable band gaps which depend on the dimensionality, have become the potential candidate for tunable nano optoelectronic devices. However, it has a lot of challenges in their fabrication such as the limited number of homogenous particles and high-cost production. As an alternative, sub-micrometer particles with the order of hundred nanometers are more easily fabricated and exhibit tunable optoelectronic properties. In this study, sub-micrometer WS2 was fabricated using low-cost electrochemical methods. Two clusters of particles with the average size of 100 nm and 600 nm are observed. The number of sub-micrometer particles increases with the increasing of fabrication time. The photoluminescence spectra show wide peak centered around 800 nm suggesting the possible application in visible light emitting devices. The peak position varies with the time variation showing that the optical properties might be tuned during fabrication. This study points out that simple solution processed fabrication method can produce sub micrometer particles with tunable optical properties.
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17

Shim, Moonsub, Congjun Wang i Philippe Guyot-Sionnest. "Charge-Tunable Optical Properties in Colloidal Semiconductor Nanocrystals". Journal of Physical Chemistry B 105, nr 12 (marzec 2001): 2369–73. http://dx.doi.org/10.1021/jp0035683.

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18

Zhang, Lingyu, i Gang Song. "Thermo-responsive plasmonic nanohybrids with tunable optical properties". Journal of Modern Optics 64, nr 18 (9.05.2017): 1870–75. http://dx.doi.org/10.1080/09500340.2017.1323126.

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19

Jones, Charlotte L., Lynne H. Thomas i Chick C. Wilson. "Towards tunable optical properties: thermochromism in haloaniline complexes". Acta Crystallographica Section A Foundations of Crystallography 69, a1 (25.08.2013): s521. http://dx.doi.org/10.1107/s0108767313095494.

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20

Zhang, Li, i Hui Wang. "Cuprous Oxide Nanoshells with Geometrically Tunable Optical Properties". ACS Nano 5, nr 4 (7.03.2011): 3257–67. http://dx.doi.org/10.1021/nn200386n.

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21

Massé, Pascal, i Serge Ravaine. "Engineered Multilayer Colloidal Crystals with Tunable Optical Properties". Chemistry of Materials 17, nr 16 (sierpień 2005): 4244–49. http://dx.doi.org/10.1021/cm050601v.

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22

Bhattacharjee, Rama Ranjan, Ruipeng Li, Luis Estevez, Detlef-M. Smilgies, Aram Amassian i Emmanuel P. Giannelis. "A plasmonic fluid with dynamically tunable optical properties". Journal of Materials Chemistry 19, nr 46 (2009): 8728. http://dx.doi.org/10.1039/b919006f.

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23

Hikmet, R. A. M., B. H. Zwerver i J. Lub. "Anisotropic Networks with Tunable Optical and Mechanical Properties". Macromolecules 27, nr 23 (listopad 1994): 6722–27. http://dx.doi.org/10.1021/ma00101a007.

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24

Zhang, Tianyu, Tao Zhao, Xingxing Xu, Shenggang Liu i Min Hu. "Tunable optical topological transition of Cherenkov radiation". Journal of Physics: Conference Series 2478, nr 6 (1.06.2023): 062036. http://dx.doi.org/10.1088/1742-6596/2478/6/062036.

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Abstract Chasing efficient methods to generate and manipulate Cherenkov radiation (CR) is always the lofty target of many scientific researchers. In this work, by combining the optical topological transition (OTT) of graphene hyperbolic metamaterials (GHMs), we study the properties and clarify the mechanisms of the OTT of CR for the first time. Specifically, we indicate two representative examples to reveal the potential of the OTT in manipulating CR properties and further applications, which correspond to the ultrafast photothermal and nonlocal properties of graphene individually. These results and conclusions pave the way for the photonic devices and applications of CR.
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25

Wright, John C., i Peter C. Chen. "Optical analogues to NMR spectroscopy". Physics Today 76, nr 6 (1.06.2023): 32. http://dx.doi.org/10.1063/pt.3.5255.

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26

Hamidi, S. M., A. Bananej i M. M. Tehranchi. "Tunable optical properties in engineered one-dimensional coupled resonator optical waveguides". Optics & Laser Technology 44, nr 5 (lipiec 2012): 1556–63. http://dx.doi.org/10.1016/j.optlastec.2011.11.049.

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27

Meng, Guangnan, Vinothan N. Manoharan i Adeline Perro. "Core–shell colloidal particles with dynamically tunable scattering properties". Soft Matter 13, nr 37 (2017): 6293–96. http://dx.doi.org/10.1039/c7sm01740e.

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Polystyrene-hydrogel core–shell particles exhibiting a transition from Rayleigh to Mie scattering are created. Optical measurements show that the transition is controlled by varying temperature or ionic strength. Such core–shell particles may find use as optical switches or optical filters with tunable opacity.
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28

Vovk, Ilia A., Ivan D. Rukhlenko i Anvar S. Baimuratov. "Tunable bilayer photonic quasicrystal". Applied Physics Letters 122, nr 6 (6.02.2023): 061107. http://dx.doi.org/10.1063/5.0137042.

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The unique properties of incommensurate two-dimensional bilayer structures, a wide class of optical materials, are largely determined by the relative rotation angle between the layers. Here, we present a comprehensive theoretical analysis of the optical properties of a dodecagonal quasicrystal based on twisted bilayer material with hexagonal layers rotated by 30°. By assuming that the quasicrystal is tuned to the Bragg condition, we calculate its reflectance spectra and reveal the Wood anomalies therein, which are characteristics of structures with a long-range order. It is also shown that the reflectance spectra can be dynamically controlled by the external electric field applied perpendicular to the quasicrystal's surface. This feature can be used to create tunable photonic devices such as optical switches and sharp M-shape bandpass filters.
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29

Ahamed, M. Irshad, i K. Sathish Kumar. "Modelling of electronic and optical properties of Cu2SnS3 quantum dots for optoelectronics applications". Materials Science-Poland 37, nr 1 (1.03.2019): 108–15. http://dx.doi.org/10.2478/msp-2018-0103.

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AbstractCopper tin sulfide (Cu2SnS3) is a unique semiconductor, whose nanocrystals have attracted researchers’ attention for its tunable energy bandgap and wavelength in visible and near infrared range. Quantum dots which are fabricated from this material are highly suitable for optoelectronics and solar cell applications. This paper discusses the tunable energy bandgap, exciton Bohr radius and wavelength range of wurtzite structure of Cu2SnS3 quantum dots to assess the opportunity to use them in optoelectronics applications. The considerations show that the mole fraction of copper increases as energy bandgap decreases and tunable energy bandgap of this quantum dot material is inversely proportional to the wavelength.
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30

Yang, Jingyi, Sudip Gurung, Subhajit Bej, Peinan Ni i Ho Wai Howard Lee. "Active optical metasurfaces: comprehensive review on physics, mechanisms, and prospective applications". Reports on Progress in Physics 85, nr 3 (1.03.2022): 036101. http://dx.doi.org/10.1088/1361-6633/ac2aaf.

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Abstract Optical metasurfaces with subwavelength thickness hold considerable promise for future advances in fundamental optics and novel optical applications due to their unprecedented ability to control the phase, amplitude, and polarization of transmitted, reflected, and diffracted light. Introducing active functionalities to optical metasurfaces is an essential step to the development of next-generation flat optical components and devices. During the last few years, many attempts have been made to develop tunable optical metasurfaces with dynamic control of optical properties (e.g., amplitude, phase, polarization, spatial/spectral/temporal responses) and early-stage device functions (e.g., beam steering, tunable focusing, tunable color filters/absorber, dynamic hologram, etc) based on a variety of novel active materials and tunable mechanisms. These recently-developed active metasurfaces show significant promise for practical applications, but significant challenges still remain. In this review, a comprehensive overview of recently-reported tunable metasurfaces is provided which focuses on the ten major tunable metasurface mechanisms. For each type of mechanism, the performance metrics on the reported tunable metasurface are outlined, and the capabilities/limitations of each mechanism and its potential for various photonic applications are compared and summarized. This review concludes with discussion of several prospective applications, emerging technologies, and research directions based on the use of tunable optical metasurfaces. We anticipate significant new advances when the tunable mechanisms are further developed in the coming years.
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31

Yan, Rui, Bixin Jin, Yunjun Luo i Xiaoyu Li. "Optically healable polyurethanes with tunable mechanical properties". Polymer Chemistry 10, nr 18 (2019): 2247–55. http://dx.doi.org/10.1039/c9py00261h.

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32

Ma, Zhenhe, Xianghe Meng, Xiaodi Liu, Guangyuan Si i Yan Jun Liu. "Liquid Crystal Enabled Dynamic Nanodevices". Nanomaterials 8, nr 11 (23.10.2018): 871. http://dx.doi.org/10.3390/nano8110871.

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Inspired by the anisotropic molecular shape and tunable alignment of liquid crystals (LCs), investigations on hybrid nanodevices which combine LCs with plasmonic metasurfaces have received great attention recently. Since LCs possess unique electro-optical properties, developing novel dynamic optical components by incorporating nematic LCs with nanostructures offers a variety of practical applications. Owing to the large birefringence of LCs, the optical properties of metamaterials can be electrically or optically modulated over a wide range. In this review article, we show different elegant designs of metasurface based nanodevices integrated into LCs and explore the tuning factors of transmittance/extinction/scattering spectra. Moreover, we review and classify substantial tunable devices enabled by LC-plasmonic interactions. These dynamically tunable optoelectronic nanodevices and components are of extreme importance, since they can enable a significant range of applications, including ultra-fast switching, modulating, sensing, imaging, and waveguiding. By integrating LCs with two dimensional metasurfaces, one can manipulate electromagnetic waves at the nanoscale with dramatically reduced sizes. Owing to their special electro-optical properties, recent efforts have demonstrated that more accurate manipulation of LC-displays can be engineered by precisely controlling the alignment of LCs inside small channels. In particular, device performance can be significantly improved by optimizing geometries and the surrounding environmental parameters.
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33

Geethalakshmi, K. R., Teng Yong Ng i Rachel Crespo-Otero. "Tunable optical properties of OH-functionalised graphene quantum dots". Journal of Materials Chemistry C 4, nr 36 (2016): 8429–38. http://dx.doi.org/10.1039/c6tc02785g.

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Functionalisation with OH groups can tune the optical properties of Graphene oxide quantum dots (GO-QDs). Selective functionalisation of positions with large electron–hole separation offers a strategy to control the optical gap and photoluminescence properties.
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34

Chen, Shaojin, Wenxuan Zhang, Wei Liu, Zhaohai Ge, Kun-Peng Wang, Li-Hua Gan i Zhi-Qiang Hu. "Binaphthanol-based organic fluorophores with color tunability and their optical properties". CrystEngComm 21, nr 17 (2019): 2809–17. http://dx.doi.org/10.1039/c9ce00170k.

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35

Abdelsalam, Hazem, Vasil A. Saroka, Mohamed M. Atta, Waleed Osman i Qinfang Zhang. "Tunable electro-optical properties of doped chiral graphene nanoribbons". Chemical Physics 544 (kwiecień 2021): 111116. http://dx.doi.org/10.1016/j.chemphys.2021.111116.

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36

Zhao Sheng, Yin Jian-Bo i Zhao Xiao-Peng. "Tunable optical properties of Au nanofluids under electric field". Acta Physica Sinica 59, nr 5 (2010): 3302. http://dx.doi.org/10.7498/aps.59.3302.

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37

Weimin, WANG, HE Yingwei, XU Yinuo, XU Nan, JING Xufeng, LIU Xiangliang, FU Yangting i GAN Haiyong. "Optical properties measuring device based on tunable femtosecond laser". Journal of Applied Optics 41, nr 4 (2020): 717–22. http://dx.doi.org/10.5768/jao202041.0407005.

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38

Chen, Fangqi, Xiaojie Liu, Yanpei Tian i Yi Zheng. "Mechanically stretchable metamaterial with tunable mid-infrared optical properties". Optics Express 29, nr 23 (27.10.2021): 37368. http://dx.doi.org/10.1364/oe.439767.

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39

Li, Chunmei, Zhongjing Xie, Zhiqian Chen, Nanpu Cheng, Jinghui Wang i Guoan Zhu. "Tunable Bandgap and Optical Properties of Black Phosphorene Nanotubes". Materials 11, nr 2 (19.02.2018): 304. http://dx.doi.org/10.3390/ma11020304.

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40

Pan, A., P. L. Nichols i C. Z. Ning. "Semiconductor Alloy Nanowires and Nanobelts With Tunable Optical Properties". IEEE Journal of Selected Topics in Quantum Electronics 17, nr 4 (lipiec 2011): 808–18. http://dx.doi.org/10.1109/jstqe.2010.2064159.

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41

Dushatinski, T., i T. M. Abdel-Fattah. "Tunable Optical Properties of Carbon Nanotube Composite Thin Films". ECS Transactions 61, nr 33 (25.09.2014): 1–5. http://dx.doi.org/10.1149/06133.0001ecst.

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42

Sadki, S., i L. B. Drissi. "Tunable optical and excitonic properties of phosphorene via oxidation". Journal of Physics: Condensed Matter 30, nr 25 (1.06.2018): 255703. http://dx.doi.org/10.1088/1361-648x/aac403.

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43

Lu, J. G., Z. Z. Ye, Y. Z. Zhang, Q. L. Liang, Sz Fujita i Z. L. Wang. "Self-assembled ZnO quantum dots with tunable optical properties". Applied Physics Letters 89, nr 2 (10.07.2006): 023122. http://dx.doi.org/10.1063/1.2221892.

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44

McConnell, Marla D., Matthew J. Kraeutler, Shu Yang i Russell J. Composto. "Patchy and Multiregion Janus Particles with Tunable Optical Properties". Nano Letters 10, nr 2 (10.02.2010): 603–9. http://dx.doi.org/10.1021/nl903636r.

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45

Xiao, J. J., Joseph T. A. Kwok i K. W. Yu. "Optical properties of graded colloidal nanocrystallines with tunable structure". Optics Communications 272, nr 1 (kwiecień 2007): 252–56. http://dx.doi.org/10.1016/j.optcom.2006.11.017.

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46

Xu, Gang, Chun-Ming Huang, Masato Tazawa, Ping Jin i Li-Hua Chen. "Tunable optical properties of nano-Au on vanadium dioxide". Optics Communications 282, nr 5 (marzec 2009): 896–902. http://dx.doi.org/10.1016/j.optcom.2008.11.045.

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47

Smith, David D., Lanee A. Snow, Laurent Sibille i Erica Ignont. "Tunable optical properties of metal nanoparticle sol–gel composites". Journal of Non-Crystalline Solids 285, nr 1-3 (czerwiec 2001): 256–63. http://dx.doi.org/10.1016/s0022-3093(01)00464-1.

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48

Phillips, Katherine R., Nicolas Vogel, Yuhang Hu, Mathias Kolle, Carole C. Perry i Joanna Aizenberg. "Tunable Anisotropy in Inverse Opals and Emerging Optical Properties". Chemistry of Materials 26, nr 4 (6.02.2014): 1622–28. http://dx.doi.org/10.1021/cm403812y.

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49

LI Cong, 李悰, 张培 ZHANG Pei, 姜利英 JIANG Li-ying, 陈青华 CHEN Qing-hua, 闫艳霞 YAN Yan-xia i 姜素霞 JIANG Su-xia. "Tunable Nonlinear Optical Properties of nc-Ge/SiNx Multilayers". Chinese Journal of Luminescence 37, nr 10 (2016): 1217–22. http://dx.doi.org/10.3788/fgxb20163710.1217.

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50

Martínez, Y., J. Retuert, M. Yazdani-Pedram i H. Cölfen. "Transparent semiconductor–polymer hybrid films with tunable optical properties". J. Mater. Chem. 17, nr 11 (2007): 1094–101. http://dx.doi.org/10.1039/b613694j.

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