Bibliografías temáticas / Nanonets / Artículos de revistas

Artículos de revistas sobre el tema "Nanonets"

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Publicado: 7 de julio de 2024

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1

Kang, Hyo Kyoung, Hyun Ju Oh, Jung Yeon Kim, Hak Yong Kim y Yeong Og Choi. "Effect of Process Control Parameters on the Filtration Performance of PAN–CTAB Nanofiber/Nanonet Web Combined with Meltblown Nonwoven". Polymers 13, n.º 20 (19 de octubre de 2021): 3591. http://dx.doi.org/10.3390/polym13203591.

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Nanofibers have potential applications as filters for particles with diameters <10 μm owing to their large specific surface area, macropores, and controllable geometry or diameter. The filtration efficiency can be increased by creating nanonets (<50 nm) whose diameter is smaller than that of nanofibers. This study investigates the effect of process conditions on the generation of nanonet structures from a polyacrylonitrile (PAN) solution containing cation surfactants; in addition, the filtration performance is analyzed. The applied electrospinning voltage and the electrostatic treatment of meltblown polypropylene (used as a substrate) are the most influential process parameters of nanonet formation. Electrospun polyacrylonitrile–cetylmethylammonium bromide (PAN–CTAB) showed a nanofiber/nanonet structure and improved thermal and mechanical properties compared with those of the electrospun PAN. The pore size distribution and filter efficiency of the PAN nanofiber web and PAN–CTAB nanofiber/nanonet web with meltblown were measured. The resulting PAN–CTAB nanofiber/nanonet air filter showed a high filtration efficiency of 99% and a low pressure drop of 7.7 mmH2O at an air flow rate of 80 L/min. The process control methods for the nanonet structures studied herein provide a new approach for developing functional materials for air-filtration applications.
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2

Yoo, JongTae, Young-Wan Ju, Ye-Ri Jang, Ohhun Gwon, Sodam Park, Ju-Myung Kim, Chang Kee Lee et al. "One-pot surface engineering of battery electrode materials with metallic SWCNT-enriched, ivy-like conductive nanonets". Journal of Materials Chemistry A 5, n.º 24 (2017): 12103–12. http://dx.doi.org/10.1039/c6ta10675g.

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3

Ouellette, A. J. y M. E. Selsted. "HD6 Defensin Nanonets". Science 337, n.º 6093 (26 de julio de 2012): 420–21. http://dx.doi.org/10.1126/science.1225906.

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4

Gruner, George. "Carbon Nanonets Spark New Electronics". Scientific American 296, n.º 5 (mayo de 2007): 76–83. http://dx.doi.org/10.1038/scientificamerican0507-76.

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5

Gruner, George. "Carbon Nanonets Spark New Electronics". Scientific American sp 17, n.º 3 (septiembre de 2007): 48–55. http://dx.doi.org/10.1038/scientificamerican0907-48sp.

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6

He, Xiaojun, Xiaoyu Xie, Jingxian Wang, Xiufang Ma, Yuanyang Xie, Jing Gu, Nan Xiao y Jieshan Qiu. "From fluorene molecules to ultrathin carbon nanonets with an enhanced charge transfer capability for supercapacitors". Nanoscale 11, n.º 14 (2019): 6610–19. http://dx.doi.org/10.1039/c9nr00068b.

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7

Santino, Luciano M., Yifan Diao, Haoru Yang, Yang Lu, Hongmin Wang, Erica Hwang y Julio M. D'Arcy. "Vapor/liquid polymerization of ultraporous transparent and capacitive polypyrrole nanonets". Nanoscale 11, n.º 25 (2019): 12358–69. http://dx.doi.org/10.1039/c9nr02771h.

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8

Huang, Chao, Peiyu Ma, Ruyang Wang, Wenjie Li, Jingyan Wang, Hongliang Li, Yisheng Tan, Lei Luo, Xu Li y Jun Bao. "CuCo alloy nanonets derived from CuCo2O4 spinel oxides for higher alcohols synthesis from syngas". Catalysis Science & Technology 11, n.º 23 (2021): 7617–23. http://dx.doi.org/10.1039/d1cy01179k.

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9

Hu, Maorui, Yifei Wang, Zhifeng Yan, Guodong Zhao, Yixia Zhao, Lei Xia, Bowen Cheng, Youbo Di y Xupin Zhuang. "Hierarchical dual-nanonet of polymer nanofibers and supramolecular nanofibrils for air filtration with a high filtration efficiency, low air resistance and high moisture permeation". Journal of Materials Chemistry A 9, n.º 24 (2021): 14093–100. http://dx.doi.org/10.1039/d1ta01505b.

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Hierarchical dual-nanonets are fabricated through self-assembly of supramolecular nanofibrils onto solution-blown PAN nanofiber mat, demonstrating high porosity, small pore size, high filtration efficiency and boosted moisture permeation.
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10

Tao, Fujun, Michael Green, Anh Thi Van Tran, Yuliang Zhang, Yansheng Yin y Xiaobo Chen. "Plasmonic Cu9S5 Nanonets for Microwave Absorption". ACS Applied Nano Materials 2, n.º 6 (28 de mayo de 2019): 3836–47. http://dx.doi.org/10.1021/acsanm.9b00700.

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11

Ananthaswamy, Anil. "Golden age beckons for conducting nanonets". New Scientist 201, n.º 2697 (febrero de 2009): 20. http://dx.doi.org/10.1016/s0262-4079(09)60567-4.

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12

Kuang, Yi, Junfeng Shi, Jie Li, Dan Yuan, Kyle A. Alberti, Qiaobing Xu y Bing Xu. "Pericellular Hydrogel/Nanonets Inhibit Cancer Cells". Angewandte Chemie International Edition 53, n.º 31 (12 de mayo de 2014): 8104–7. http://dx.doi.org/10.1002/anie.201402216.

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13

Kuang, Yi, Junfeng Shi, Jie Li, Dan Yuan, Kyle A. Alberti, Qiaobing Xu y Bing Xu. "Pericellular Hydrogel/Nanonets Inhibit Cancer Cells". Angewandte Chemie 126, n.º 31 (12 de mayo de 2014): 8242–45. http://dx.doi.org/10.1002/ange.201402216.

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14

Tao, Fujun, Yuliang Zhang, Kuan Yin, Shengjia Cao, Xueting Chang, Yanhua Lei, Dongsheng Wang et al. "A plasmonic interfacial evaporator for high-efficiency solar vapor generation". Sustainable Energy & Fuels 2, n.º 12 (2018): 2762–69. http://dx.doi.org/10.1039/c8se00402a.

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A novel plasmonic interfacial evaporator composed of Cu9S5 nanonets and PVDFM has shown high efficiencies of 80.2 ± 0.6% and 91.5 ± 1.1% under 1 and 4 sun irradiation, respectively, for solar vapor generation.
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15

Kadiri, Alarcón-Correa, Ruppert, Günther, Bill, Rothenstein y Fischer. "Genetically Modified M13 Bacteriophage Nanonets for Enzyme Catalysis and Recovery". Catalysts 9, n.º 9 (27 de agosto de 2019): 723. http://dx.doi.org/10.3390/catal9090723.

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Enzyme-based biocatalysis exhibits multiple advantages over inorganic catalysts, including the biocompatibility and the unchallenged specificity of enzymes towards their substrate. The recovery and repeated use of enzymes is essential for any realistic application in biotechnology, but is not easily achieved with current strategies. For this purpose, enzymes are often immobilized on inorganic scaffolds, which could entail a reduction of the enzymes’ activity. Here, we show that immobilization to a nano-scaled biological scaffold, a nanonetwork of end-to-end cross-linked M13 bacteriophages, ensures high enzymatic activity and at the same time allows for the simple recovery of the enzymes. The bacteriophages have been genetically engineered to express AviTags at their ends, which permit biotinylation and their specific end-to-end self-assembly while allowing space on the major coat protein for enzyme coupling. We demonstrate that the phages form nanonetwork structures and that these so-called nanonets remain highly active even after re-using the nanonets multiple times in a flow-through reactor.
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16

Zhou, Rong, Yi Kuang, Jie Zhou, Xuewen Du, Jie Li, Junfeng Shi, Richard Haburcak y Bing Xu. "Nanonets Collect Cancer Secretome from Pericellular Space". PLOS ONE 11, n.º 4 (21 de abril de 2016): e0154126. http://dx.doi.org/10.1371/journal.pone.0154126.

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17

Cho, Sung-Ju, Keun-Ho Choi, Jong-Tae Yoo, Jeong-Hun Kim, Yong-Hyeok Lee, Sang-Jin Chun, Sang-Bum Park et al. "Nanonets: Hetero-Nanonet Rechargeable Paper Batteries: Toward Ultrahigh Energy Density and Origami Foldability (Adv. Funct. Mater. 38/2015)". Advanced Functional Materials 25, n.º 38 (octubre de 2015): 6021. http://dx.doi.org/10.1002/adfm.201570249.

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18

Zhou, Sa, Jin Xie y Dunwei Wang. "Understanding the Growth Mechanism of Titanium Disilicide Nanonets". ACS Nano 5, n.º 5 (26 de abril de 2011): 4205–10. http://dx.doi.org/10.1021/nn201045g.

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19

Sun, Cheng, Nripan Mathews, Minrui Zheng, Chorng Haur Sow, Lydia Helena Wong y Subodh G. Mhaisalkar. "Aligned Tin Oxide Nanonets for High-Performance Transistors". Journal of Physical Chemistry C 114, n.º 2 (28 de diciembre de 2009): 1331–36. http://dx.doi.org/10.1021/jp909673j.

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20

Elmalem, Einat, Aaron E. Saunders, Ronny Costi, Asaf Salant y Uri Banin. "Growth of Photocatalytic CdSe-Pt Nanorods and Nanonets". Advanced Materials 20, n.º 22 (18 de noviembre de 2008): 4312–17. http://dx.doi.org/10.1002/adma.200800044.

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21

Liao, Qingwei, Wei Si, Jingxin Zhang, Hanchen Sun y Lei Qin. "In Situ Silver Nanonets for Flexible Stretchable Electrodes". International Journal of Molecular Sciences 24, n.º 11 (26 de mayo de 2023): 9319. http://dx.doi.org/10.3390/ijms24119319.

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Shape-controlled synthesis is an effective method for controlling the physicochemical properties of nanomaterials, especially single-crystal nanomaterials, but it is difficult to control the morphology of single-crystal metallic nanomaterials. Silver nanowires (AgNWs) are regarded as key materials for the new generation of human–computer interaction, which can be applied in large-scale flexible and foldable devices, large-size touch screens, transparent LED films, photovoltaic cells, etc. When used on a large scale, the junction resistance will be generated at the overlap between AgNWs and the conductivity will decrease. When stretched, the overlap of AgNWs will be easily disconnected, which will lead to a decrease in electrical conductivity or even system failure. We propose that in situ silver nanonets (AgNNs) can solve the above two problems. The AgNNs exhibited excellent electrical conductivity (0.15 Ω∙sq−1, which was 0.2 Ω∙sq−1 lower than the 0.35 Ω∙sq−1 square resistance of AgNWs) and extensibility (the theoretical tensile rate was 53%). In addition to applications in flexible stretchable sensing and display industries, they also have the potential to be used as plasmonic materials in molecular recognition, catalysis, biomedicine and other fields.
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22

Wang, Fan, Yu Wang, Jiefeng Yu, Youchang Xie, Jianlong Li y Kai Wu. "Template-Assisted Preparations of Crystalline Mo and Cu Nanonets". Journal of Physical Chemistry C 112, n.º 34 (agosto de 2008): 13121–25. http://dx.doi.org/10.1021/jp802716s.

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23

Wang, Wenhui, Yurong Ma y Limin Qi. "High-Performance Photodetectors Based on Organometal Halide Perovskite Nanonets". Advanced Functional Materials 27, n.º 12 (6 de febrero de 2017): 1603653. http://dx.doi.org/10.1002/adfm.201603653.

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24

Arjmand, Tabassom, Maxime Legallais, Thi Thu Thuy Nguyen, Pauline Serre, Monica Vallejo-Perez, Fanny Morisot, Bassem Salem y Céline Ternon. "Functional Devices from Bottom-Up Silicon Nanowires: A Review". Nanomaterials 12, n.º 7 (22 de marzo de 2022): 1043. http://dx.doi.org/10.3390/nano12071043.

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This paper summarizes some of the essential aspects for the fabrication of functional devices from bottom-up silicon nanowires. In a first part, the different ways of exploiting nanowires in functional devices, from single nanowires to large assemblies of nanowires such as nanonets (two-dimensional arrays of randomly oriented nanowires), are briefly reviewed. Subsequently, the main properties of nanowires are discussed followed by those of nanonets that benefit from the large numbers of nanowires involved. After describing the main techniques used for the growth of nanowires, in the context of functional device fabrication, the different techniques used for nanowire manipulation are largely presented as they constitute one of the first fundamental steps that allows the nanowire positioning necessary to start the integration process. The advantages and disadvantages of each of these manipulation techniques are discussed. Then, the main families of nanowire-based transistors are presented; their most common integration routes and the electrical performance of the resulting devices are also presented and compared in order to highlight the relevance of these different geometries. Because they can be bottlenecks, the key technological elements necessary for the integration of silicon nanowires are detailed: the sintering technique, the importance of surface and interface engineering, and the key role of silicidation for good device performance. Finally the main application areas for these silicon nanowire devices are reviewed.
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25

Yang, Lixia, Qingyun Cai y Yan Yu. "Size-Controllable Fabrication of Noble Metal Nanonets Using a TiO2Template". Inorganic Chemistry 45, n.º 24 (noviembre de 2006): 9616–18. http://dx.doi.org/10.1021/ic061357s.

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26

Cegelski, Lynette. "Disentangling Nanonets: Human α-Defensin 6 Targets Candida albicans Virulence". Biochemistry 56, n.º 8 (15 de febrero de 2017): 1027–28. http://dx.doi.org/10.1021/acs.biochem.7b00062.

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27

Xu, Shuhong, Jieqin Tang, Junfeng Qu, Pengfei Xia, Kai Zhu, Haibao Shao y Chunlei Wang. "Lead-Free Copper-Based Perovskite Nanonets for Deep Ultraviolet Photodetectors with High Stability and Better Performance". Nanomaterials 12, n.º 19 (20 de septiembre de 2022): 3264. http://dx.doi.org/10.3390/nano12193264.

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Considering practical application and commercialization, the research of non-toxic and stable halide perovskite and its application in the field of photoelectric detection have received great attention. However, there are relatively few studies on deep ultraviolet photodetectors, and the perovskite films prepared by traditional spin-coating method have disadvantages such as uneven grain size and irregular agglomeration, which limit their device performance. Herein, uniform and ordered Cs3Cu2I5 nanonet arrays are fabricated based on monolayer colloidal crystal (MCC) templates prepared with 1 μm polystyrene (PS) spheres, which enhance light-harvesting ability. Furthermore, the performance of the lateral photodetector (PD) is significantly enhanced when using Cs3Cu2I5 nanonet compared to the pure Cs3Cu2I5 film. Under deep ultraviolet light, the Cs3Cu2I5 nanonet PD exhibits a high light responsivity of 1.66 AW−1 and a high detection up to 2.48 × 1012 Jones. Meanwhile, the unencapsulated PD has almost no response to light above 330 nm and shows remarkable stability. The above results prove that Cs3Cu2I5 nanonet can be a great potential light-absorbing layer for solar-blind deep ultraviolet PD, which can be used as light absorption layer of UV solar cell.
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28

Serre, P., V. Stambouli, M. Weidenhaupt, T. Baron y C. Ternon. "Silicon nanonets for biological sensing applications with enhanced optical detection ability". Biosensors and Bioelectronics 68 (junio de 2015): 336–42. http://dx.doi.org/10.1016/j.bios.2015.01.012.

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29

Chen, Hao, Linfeng Hu, Xiaosheng Fang y Limin Wu. "General Fabrication of Monolayer SnO2 Nanonets for High-Performance Ultraviolet Photodetectors". Advanced Functional Materials 22, n.º 6 (23 de enero de 2012): 1229–35. http://dx.doi.org/10.1002/adfm.201102506.

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30

Padhi, Abinash, Brooke E. Danielsson, Deema S. Alabduljabbar, Ji Wang, Daniel E. Conway, Rakesh K. Kapania y Amrinder S. Nain. "Cell Fragment Formation, Migration, and Force Exertion on Extracellular Mimicking Fiber Nanonets". Advanced Biology 5, n.º 6 (24 de marzo de 2021): 2000592. http://dx.doi.org/10.1002/adbi.202000592.

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31

Ghosh, Sirshendu, Saikat Khamarui, Manas Saha y S. K. De. "Fabrication of tungsten nanocrystals and silver–tungsten nanonets: a potent reductive catalyst". RSC Advances 5, n.º 49 (2015): 38971–76. http://dx.doi.org/10.1039/c4ra16567e.

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32

Chu, H., M. Pazgier, G. Jung, S. P. Nuccio, P. A. Castillo, M. F. de Jong, M. G. Winter et al. "Human -Defensin 6 Promotes Mucosal Innate Immunity Through Self-Assembled Peptide Nanonets". Science 337, n.º 6093 (21 de junio de 2012): 477–81. http://dx.doi.org/10.1126/science.1218831.

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33

Wei, Feng, Xiaojun He, Hanfang Zhang, Zide Liu, Nan Xiao y Jieshan Qiu. "Crumpled carbon nanonets derived from anthracene oil for high energy density supercapacitor". Journal of Power Sources 428 (julio de 2019): 8–12. http://dx.doi.org/10.1016/j.jpowsour.2019.04.096.

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34

Zhang, Shichao, Kun Chen, Jianyong Yu y Bin Ding. "Model derivation and validation for 2D polymeric nanonets: Origin, evolution, and regulation". Polymer 74 (septiembre de 2015): 182–92. http://dx.doi.org/10.1016/j.polymer.2015.08.002.

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35

Zhu, Huihui, Rong Li, Xingle Wu, Ke Chen y Jiangning Che. "Controllable fabrication and characterization of hydrophilic PCL/wool keratin nanonets by electronetting". European Polymer Journal 86 (enero de 2017): 154–61. http://dx.doi.org/10.1016/j.eurpolymj.2016.11.023.

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36

Chen, Liqiao, Zhe Leng, Yunqian Long, Xuan Yu, Wei Jun y Xiaoming Yu. "From Silver Nanoflakes to Silver Nanonets: An Effective Trade-Off between Conductivity and Stretchability of Flexible Electrodes". Materials 12, n.º 24 (16 de diciembre de 2019): 4218. http://dx.doi.org/10.3390/ma12244218.

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Flexible and stretchable conductive materials have received significant attention due to their numerous potential applications in flexible printed electronics. In this paper, we describe a new type of conductive filler for flexible electrodes—silver nanonets prepared through the “dissolution–recrystallization” solvothermal route from porous silver nanoflakes. These new silver fillers show characteristics of both nanoflakes and nanoparticles with propensity to form interpenetrating polymer–silver networks. This effectively minimizes trade-off between composite electrode conductivity and stretchability and enables fabrication of the flexible electrodes simultaneously exhibiting high conductivity and mechanical durability. For example, an electrode with uniform, networked silver structure from the flakiest silver particles showed the lowest increase of resistivity upon extension (3500%), compared to that of the electrode filled with less flaky (3D) particles (>50,000%).
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37

Lee, Chien-Liang y Ciou-Mei Syu. "Electrochemical synthesis of hexadecyltrimethylammonium-coated Ag nanopeanuts and their self-assembly to nanonets". Colloids and Surfaces A: Physicochemical and Engineering Aspects 358, n.º 1-3 (abril de 2010): 158–62. http://dx.doi.org/10.1016/j.colsurfa.2010.01.045.

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38

Wang, Zumin y Eric J. Mittemeijer. "Vapor-defect-solid growth mechanism for NanoNets utilizing natural defect networks in polycrystals". Materials & Design 150 (julio de 2018): 206–14. http://dx.doi.org/10.1016/j.matdes.2018.04.005.

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39

Lin, Linhan, DeXing Li y Jiayou Feng. "First-Principles Study of the Band Gap Structure of Oxygen-Passivated Silicon Nanonets". Nanoscale Research Letters 4, n.º 5 (6 de febrero de 2009): 409–13. http://dx.doi.org/10.1007/s11671-009-9259-0.

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40

Shang, Jian, Jiefeng Yu, Yu Wang, Majiong Jiang, Yining Huang, Donghan Yang, Xin Tang et al. "Sacrificial-Template-Assisted Syntheses of Aluminate and Titanate Nanonets via Interfacial Reaction Growth". Journal of Cluster Science 27, n.º 1 (4 de septiembre de 2015): 139–53. http://dx.doi.org/10.1007/s10876-015-0916-4.

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41

Fan, Lin, Lijun Kong, Hao Liu, Jiawei Zhang, Mengdi Hu, Li Fan, Hongliang Zhu y Shancheng Yan. "Ag–Cu filled nanonets with ultrafine dual-nanozyme active units for neurotransmitter biosensing". Biosensors and Bioelectronics 250 (abril de 2024): 116033. http://dx.doi.org/10.1016/j.bios.2024.116033.

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42

Shen, Wen-Jun, Ying Zhuo, Ya-Qin Chai, Zhe-Han Yang, Jing Han y Ruo Yuan. "Enzyme-Free Electrochemical Immunosensor Based on Host–Guest Nanonets Catalyzing Amplification for Procalcitonin Detection". ACS Applied Materials & Interfaces 7, n.º 7 (16 de febrero de 2015): 4127–34. http://dx.doi.org/10.1021/am508137t.

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43

Li, DeXing, Linhan Lin y Jiayou Feng. "Electronic state and momentum matrix of H-passivated silicon nanonets: A first-principles calculation". Physica E: Low-dimensional Systems and Nanostructures 42, n.º 5 (marzo de 2010): 1583–89. http://dx.doi.org/10.1016/j.physe.2009.12.049.

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44

Wang, Y., Q. Liao, H. Lei, X. P. Zhang, X. C. Ai, J. P. Zhang y K. Wu. "Interfacial Reaction Growth: Morphology, Composition, and Structure Controls in Preparation of Crystalline ZnxAlyOz Nanonets". Advanced Materials 18, n.º 7 (4 de abril de 2006): 943–47. http://dx.doi.org/10.1002/adma.200502154.

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45

Wang, Bing-Rong, Ru-Zhi Wang, Yue-Jie Bai, Li-Ying Liu y Qian-Lei Jiang. "Zinc oxide nanonets with hierarchical crystalline nodes: High-performance ethanol sensors enhanced by grain boundaries". Journal of Alloys and Compounds 877 (octubre de 2021): 160277. http://dx.doi.org/10.1016/j.jallcom.2021.160277.

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46

Yao, Xiahui, Qingmei Cheng, Jin Xie, Qi Dong y Dunwei Wang. "Functionalizing Titanium Disilicide Nanonets with Cobalt Oxide and Palladium for Stable Li Oxygen Battery Operations". ACS Applied Materials & Interfaces 7, n.º 39 (2 de septiembre de 2015): 21948–55. http://dx.doi.org/10.1021/acsami.5b06592.

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47

Demes, Thomas, Fanny Morisot, Maxime Legallais, Adrien Calais, Etienne Pernot, Isabelle Pignot-Paintrand, Céline Ternon y Valérie Stambouli. "DNA grafting on silicon nanonets using an eco-friendly functionalization process based on epoxy silane". Materials Today: Proceedings 6 (2019): 333–39. http://dx.doi.org/10.1016/j.matpr.2018.10.427.

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48

Yuan, Yuliang, Yuhao Wu, Tian Zhang, Haichao Tang, Lu Meng, Yu-Jia Zeng, Qinghua Zhang, Zhizhen Ye y Jianguo Lu. "Integration of solar cells with hierarchical CoS nanonets hybrid supercapacitors for self-powered photodetection systems". Journal of Power Sources 404 (noviembre de 2018): 118–25. http://dx.doi.org/10.1016/j.jpowsour.2018.09.101.

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49

Nisticò, Roberto, Chiara Novara, Alessandro Chiadò, Paola Rivolo y Fabrizio Giorgis. "Cysteine-mediated synthesis of silver nanonets and their use for Surface Enhanced Raman Scattering (SERS)". Materials Letters 247 (julio de 2019): 208–10. http://dx.doi.org/10.1016/j.matlet.2019.03.121.

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50

Yang, Yinjing, Shichao Zhang, Xinglei Zhao, Jianyong Yu y Bin Ding. "Sandwich structured polyamide-6/polyacrylonitrile nanonets/bead-on-string composite membrane for effective air filtration". Separation and Purification Technology 152 (septiembre de 2015): 14–22. http://dx.doi.org/10.1016/j.seppur.2015.08.005.

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