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Статті в журналах з теми "Ru Nanocrystal"

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Автор: Grafiati
Опубліковано: 6 вересня 2023

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1

Keoingthong, Phouphien, Qing Hao, Shengkai Li, Liang Zhang, Jieqiong Xu, Shen Wang, Long Chen, Weihong Tan, and Zhuo Chen. "Graphene encapsuled Ru nanocrystal with highly-efficient peroxidase-like activity for glutathione detection at near-physiological pH." Chemical Communications 57, no. 62 (2021): 7669–72. http://dx.doi.org/10.1039/d1cc02953c.

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Анотація:
A novel nanozyme comprised of graphene encapsuled Ru nanocrystals (Ru@G) with effective and stable peroxidase-like activity prepared using a chemical vapor deposition (CVD) method was used for the colorimetric detection of glutathione (GSH) at near-physiological pH.
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2

Barman, Barun Kumar, Debanjan Das, and Karuna Kar Nanda. "Facile synthesis of ultrafine Ru nanocrystal supported N-doped graphene as an exceptional hydrogen evolution electrocatalyst in both alkaline and acidic media." Sustainable Energy & Fuels 1, no. 5 (2017): 1028–33. http://dx.doi.org/10.1039/c7se00153c.

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Анотація:
Ultrafine (∼2 nm) mono-disperse Ru nanocrystals on N-doped graphene (Ru@NG) shows Pt-like catalytic activity towards HER in the both alkaline and acid media with zero onset potential and better current density as compared to Pt/C.
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3

Farmer, Damon B., and Roy G. Gordon. "High density Ru nanocrystal deposition for nonvolatile memory applications." Journal of Applied Physics 101, no. 12 (June 15, 2007): 124503. http://dx.doi.org/10.1063/1.2740351.

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4

Zhang, Guangwan, Chunhua Han, Kang Han, Jinshuai Liu, Jinghui Chen, Haokai Wang, Lei Zhang, and Xuanpeng Wang. "A Ru-Doped VTi2.6O7.2 Anode with High Conductivity for Enhanced Sodium Storage." Coatings 13, no. 3 (February 22, 2023): 490. http://dx.doi.org/10.3390/coatings13030490.

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Sodium-ion batteries (SIBs) are considered a potential replacement for lithium-ion batteries in the area of low-cost large-scale energy storage. Due to its low operating voltage, high capacity, non-toxicity and low production cost, titanium dioxide is now among the anode materials under investigation and shows the most promise. However, its poor electrical conductivity is one of the main reasons limiting its large-scale application. Herein, we designed a ruthenium-doped anatase-type VTi2.6O7.2 ultrafine nanocrystal (Ru-VTO). As the anode of SIBs, Ru-VTO delivers a high specific capacity of 297 mAh g−1 at 50 mA g−1, a long cycle life of 2000 cycles and a high rate capability (104 mAh g−1 at 1000 mA g−1). The excellent performance may be related to the solid-solution interatomic interactions and the enhanced conductivity after ruthenium doping. These studies demonstrate the potential of Ru-VTO as an anode material for advanced SIBs.
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5

Sykora, Milan, Melissa A. Petruska, James Alstrum-Acevedo, Ilya Bezel, Thomas J. Meyer, and Victor I. Klimov. "Photoinduced Charge Transfer between CdSe Nanocrystal Quantum Dots and Ru−Polypyridine Complexes." Journal of the American Chemical Society 128, no. 31 (August 2006): 9984–85. http://dx.doi.org/10.1021/ja061556a.

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6

Liu, Hai-Xia, Na Tian, Michael P. Brandon, Zhi-You Zhou, Jian-Long Lin, Christopher Hardacre, Wen-Feng Lin, and Shi-Gang Sun. "Tetrahexahedral Pt Nanocrystal Catalysts Decorated with Ru Adatoms and Their Enhanced Activity in Methanol Electrooxidation." ACS Catalysis 2, no. 5 (March 29, 2012): 708–15. http://dx.doi.org/10.1021/cs200686a.

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7

Li, Binsheng, Shaohan Yang, Guozhu Chen, Cuncheng Li, Yipin Lv, Xiaodong Yang, and Daowei Gao. "Implanting Atomic Dispersed Ru in PtNi Colloidal Nanocrystal Clusters for Efficient Catalytic Performance in Electro‐oxidation of Liquid Fuels." Chemistry – A European Journal 26, no. 70 (November 9, 2020): 16869–74. http://dx.doi.org/10.1002/chem.202003373.

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8

Koposov, Alexey Y., Paul Szymanski, Thomas Cardolaccia, Thomas J. Meyer, Victor I. Klimov, and Milan Sykora. "Electronic Properties and Structure of Assemblies of CdSe Nanocrystal Quantum Dots and Ru-Polypyridine Complexes Probed by Steady State and Time-Resolved Photoluminescence." Advanced Functional Materials 21, no. 16 (June 20, 2011): 3159–68. http://dx.doi.org/10.1002/adfm.201100415.

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9

Barman, Barun Kumar, Bidushi Sarkar, and Karuna Kar Nanda. "Pd-coated Ru nanocrystals supported on N-doped graphene as HER and ORR electrocatalysts." Chemical Communications 55, no. 92 (2019): 13928–31. http://dx.doi.org/10.1039/c9cc06208d.

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Анотація:
Pd-coated Ru nanocrystals supported on N-doped graphene (Pd–Ru@NG) are obtained via electroless deposition of Pd on Ru nanocrystals which shows efficient bifunctional HER and ORR electrocatalytic activity.
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10

Kaushik, Madhu, Hava Meira Friedman, Mary Bateman, and Audrey Moores. "Cellulose nanocrystals as non-innocent supports for the synthesis of ruthenium nanoparticles and their application to arene hydrogenation." RSC Advances 5, no. 66 (2015): 53207–10. http://dx.doi.org/10.1039/c5ra08675b.

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11

Li, Yutong, Fuqiang Chu, Yunfei Bu, Yong Kong, Yongxin Tao, Xiao Zhou, Haoran Yu, Junjie Yu, Lin Tang, and Yong Qin. "Controllable fabrication of uniform ruthenium phosphide nanocrystals for the hydrogen evolution reaction." Chemical Communications 55, no. 54 (2019): 7828–31. http://dx.doi.org/10.1039/c9cc03668g.

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12

Liu, Jiwei, Guangzhou Ding, Jieyi Yu, Xianguo Liu, Xuefeng Zhang, Junjie Guo, Jincang Zhang, Wei Ren, and Renchao Che. "Visualizing spatial potential and charge distribution in Ru/N-doped carbon electrocatalysts for superior hydrogen evolution reaction." Journal of Materials Chemistry A 7, no. 30 (2019): 18072–80. http://dx.doi.org/10.1039/c9ta06206h.

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13

Ramachandra, Srinidhi, Cristian Alejandro Strassert, David N. Reinhoudt, Daniel Vanmaekelbergh, and Luisa De Cola. "Bidirectional Photoinduced Energy Transfer in Nanoassemblies of Quantum Dots and Luminescent Metal Complexes." Zeitschrift für Naturforschung B 69, no. 2 (February 1, 2014): 263–74. http://dx.doi.org/10.5560/znb.2014-3323.

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Анотація:
This work describes the synthesis and photophysical characterization of Ir(III) and Ru(II) complexes bearing terminal amino groups, which act as anchoring units for the attachment to quantum dots, QDs. The photophysical properties of the metal complexes in combination with different types of QDs, allows directional photoinduced processes in the assemblies. In particular, we show photoinduced energy transfer from the luminescent excited Ir(III) unit to the CdTe nanocrystals, with an efficiency of 40%. The directionality was then inverted by employing an emitting Ru(II) complex as energy acceptor, in combination with photoluminescent CdSe/ZnS quantum dots. The efficiency of the photoinduced energy transfer from the nanocrystals to the Ru(II) center was estimated to be as high as 75%. This work provides model systems for nanoassemblies based on quantum dots and metal complexes for optoelectronic applications, and as active light-harvesting systems.
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14

King, William D., Krzysztof C. Kwiatkowski, and Charles M. Lukehart. "Synthesis and Solid-State Structure of a Pt-Ru-P Ternary Metal Phosphide (PtRuP2) as a Carbon Nanocomposite." Journal of Nanoscience and Nanotechnology 8, no. 6 (June 1, 2008): 3146–52. http://dx.doi.org/10.1166/jnn.2008.099.

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Анотація:
Reactive thermal degradation of Pt(PPh3)(Cl)(μ2-Cl)2 Ru(Cl)(η3:η3-C10H16)/Vulcan carbon powder composites gives a nanocomposite powder containing nanocrystals of the expected PtRu alloy phase along with nanocrystals of an unknown substance. Yields of the unknown phase increase when PPh3 is added to the composite prior to thermal treatment. The new substance has been identified as a ternary metal phosphide, PtRuP2. Full-profile Rietveld analysis of the XRD pattern of this phase is consistent with a primitive Pm3m cubic unit cell (CsCl-type) having a cell constant of 2.78 Å. Fully disordered Pt and Ru atoms occupy the (0 0 0) atomic positions with P atoms occupying interstitial sites at the (1/2 1/2 1/2) atomic positions.
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15

Shinde, Dipak V., Tathiana Midori Kokumai, Joka Buha, Mirko Prato, Luca De Trizio, and Liberato Manna. "A robust and highly active hydrogen evolution catalyst based on Ru nanocrystals supported on vertically oriented Cu nanoplates." Journal of Materials Chemistry A 8, no. 21 (2020): 10787–95. http://dx.doi.org/10.1039/d0ta03475d.

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Ru nanocrystals supported on vertically oriented copper nanoplates are developed as a hydrogen evolution catalyst in alkaline media. This catalyst outperformed benchmark Pt/C in terms of activity and stability.
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16

Zhou, Xinfeng, Weihong Qi, and Yejun Li. "Simple Synthesis of Ru Decahedral Hollow Nanocages with Face-Centered Cubic Structure." Journal of Nanoscience and Nanotechnology 21, no. 10 (October 1, 2021): 5302–6. http://dx.doi.org/10.1166/jnn.2021.19358.

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Анотація:
Metallic nanocrystals with specific morphologies are of great interest to various applications, in particular for nanocages with well-defined and controllable surface due to high surface-to-volume ratio with high utilization efficiency of atoms. In the present work, Ru decahedral nanocages were synthesized via a combination of seed-mediated growth and chemical etching approach over Pd decahedra seeds. To be specific, the Pd decahedra were synthesized via a standard procedure, on which the Ru out layers were grown by seed-mediated growth with a few nanometers. Subsequently, Ru decahedral nanocages were formed with selective chemical etching of Pd cores in acidic aqueous solution. The present work suggests an effective strategy towards synthesis of hollow nanocages.
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17

Pitto-Barry, Anaïs, Peter J. Sadler, and Nicolas P. E. Barry. "Dynamics of formation of Ru, Os, Ir and Au metal nanocrystals on doped graphitic surfaces." Chemical Communications 52, no. 20 (2016): 3895–98. http://dx.doi.org/10.1039/c5cc09564f.

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18

Ma, Xianfeng, Rui Lin, Robert Y. Ofoli, Zhi Mei, and James E. Jackson. "Structural and morphological evaluation of Ru–Pd bimetallic nanocrystals." Materials Chemistry and Physics 173 (April 2016): 1–6. http://dx.doi.org/10.1016/j.matchemphys.2016.02.003.

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19

Ping, Mao, Zhang Zhi-Gang, Pan Li-Yang, Xu Jun, and Chen Pei-Yi. "High-Density Stacked Ru Nanocrystals for Nonvolatile Memory Application." Chinese Physics Letters 26, no. 4 (March 31, 2009): 046102. http://dx.doi.org/10.1088/0256-307x/26/4/046102.

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20

Tokarev, Sergey, Marina Rumyantseva, Abulkosim Nasriddinov, Alexander Gaskov, Anna Moiseeva, Yuri Fedorov, Olga Fedorova, and Gediminas Jonusauskas. "Electron injection effect in In2O3 and SnO2 nanocrystals modified by ruthenium heteroleptic complexes." Physical Chemistry Chemical Physics 22, no. 15 (2020): 8146–56. http://dx.doi.org/10.1039/c9cp07016h.

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In this work, the optical characteristics and conductivity under photoactivation with visible light of hybrids based on nanocrystalline SnO2 or In2O3 semiconductor matrixes and heteroleptic Ru(ii) complexes were studied.
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21

Wang, Haiqing, Huiling Liu, Yanchen Ji, Ruiqi Yang, Zengfu Zhang, Xun Wang, and Hong Liu. "Hybrid nanostructures of pit-rich TiO2 nanocrystals with Ru loading and N doping for enhanced solar water splitting." Chemical Communications 55, no. 19 (2019): 2781–84. http://dx.doi.org/10.1039/c8cc10093d.

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22

Liyanage, D. Ruchira, Da Li, Quintin B. Cheek, Habib Baydoun, and Stephanie L. Brock. "Synthesis and oxygen evolution reaction (OER) catalytic performance of Ni2−xRuxP nanocrystals: enhancing activity by dilution of the noble metal." Journal of Materials Chemistry A 5, no. 33 (2017): 17609–18. http://dx.doi.org/10.1039/c7ta05353c.

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23

Sato, Hiroaki, Mitsutoshi Ide, Ryo Saito, Takanari Togashi, Katsuhiko Kanaizuka, Masato Kurihara, Hiroshi Nishihara, Hiroaki Ozawa, and Masa-aki Haga. "Electrochemical interfacing of Prussian blue nanocrystals with an ITO electrode modified with a thin film containing a Ru complex." Journal of Materials Chemistry C 7, no. 40 (2019): 12491–501. http://dx.doi.org/10.1039/c9tc04192c.

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24

Wang, Yao, Meng Zheng, Hui Sun, Xin Zhang, Chenglong Luan, Yunrui Li, Liang Zhao, et al. "Catalytic Ru containing Pt3Mn nanocrystals enclosed with high-indexed facets: Surface alloyed Ru makes Pt more active than Ru particles for ethylene glycol oxidation." Applied Catalysis B: Environmental 253 (September 2019): 11–20. http://dx.doi.org/10.1016/j.apcatb.2019.04.022.

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25

Gu, Jun, Wen-Chi Liu, Ze-Qiong Zhao, Guang-Xu Lan, Wei Zhu, and Ya-Wen Zhang. "Pt/Ru/C nanocomposites for methanol electrooxidation: how Ru nanocrystals’ surface structure affects catalytic performance of deposited Pt particles." Inorg. Chem. Front. 1, no. 1 (2014): 109–17. http://dx.doi.org/10.1039/c3qi00053b.

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26

Lu, Yizhong, and Wei Chen. "One-pot synthesis of heterostructured Pt–Ru nanocrystals for catalytic formic acid oxidation." Chemical Communications 47, no. 9 (2011): 2541. http://dx.doi.org/10.1039/c0cc04047a.

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27

Wang, Haiyan, Xiaolei Zhang, Zhian Tan, Wu Yao, and Lun Wang. "Enhanced electrogenerated chemiluminescence of Ru(bpy)32+/TPrA system on CdS nanocrystals film." Electrochemistry Communications 10, no. 1 (January 2008): 170–74. http://dx.doi.org/10.1016/j.elecom.2007.11.015.

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28

Previtera, Elia, Antoine Tissot, and Andreas Hauser. "Directional Energy Transfer in Nanocrystals of [Ru(2,2′-bipyridine)3]­[NaCr(oxalate)3]." European Journal of Inorganic Chemistry 2016, no. 13-14 (December 14, 2015): 1972–79. http://dx.doi.org/10.1002/ejic.201501204.

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29

Wan, Shulin, Qingxiao Wang, Haihang Ye, Moon J. Kim, and Xiaohu Xia. "Pd-Ru Bimetallic Nanocrystals with a Porous Structure and Their Enhanced Catalytic Properties." Particle & Particle Systems Characterization 35, no. 5 (January 15, 2018): 1700386. http://dx.doi.org/10.1002/ppsc.201700386.

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30

Decarpigny, Cédric, Sébastien Noël, Ahmed Addad, Anne Ponchel, Eric Monflier та Rudina Bleta. "Robust Ruthenium Catalysts Supported on Mesoporous Cyclodextrin-Templated TiO2-SiO2 Mixed Oxides for the Hydrogenation of Levulinic Acid to γ-Valerolactone". International Journal of Molecular Sciences 22, № 4 (9 лютого 2021): 1721. http://dx.doi.org/10.3390/ijms22041721.

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Анотація:
In this paper, we present a versatile template-directed colloidal self-assembly method for the fabrication in aqueous phase of composition-tuned mesoporous RuO2@TiO2-SiO2 catalysts. Randomly methylated β-cyclodextrin/Pluronic F127 supramolecular assemblies were used as soft templates, TiO2 colloids as building blocks, and tetraethyl orthosilicate as a silica source. Catalysts were characterized at different stages of their synthesis using dynamic light scattering, N2-adsorption analysis, powder X-ray diffraction, temperature programmed reduction, high-resolution transmission electron microscopy, high-angle annular bright-field and dark-field scanning transmission electron microscopy, together with EDS elemental mapping. Results revealed that both the supramolecular template and the silica loading had a strong impact on the pore characteristics and crystalline structure of the mixed oxides, as well as on the morphology of the RuO2 nanocrystals. Their catalytic performance was then evaluated in the aqueous phase hydrogenation of levulinic acid (LA) to γ-valerolactone (GVL) under mild conditions (50 °C, 50 bar H2). Results showed that the cyclodextrin-derived catalyst displayed almost quantitative LA conversion and 99% GVL yield in less than one hour. Moreover, this catalyst could be reused at least five times without loss of activity. This work offers an effective approach to the utilization of cyclodextrins for engineering the surface morphology of Ru nanocrystals and pore characteristics of TiO2-based materials for catalytic applications in hydrogenation reactions.
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31

GUO, Jincheng, Yanfen LIN, Na TIAN, and Shigang SUN. "Modification of Tetrahexahedral Pd Nanocrystals with Ru and Their Performance for Methanol Electro-oxidation." Acta Physico-Chimica Sinica 35, no. 7 (2019): 749–54. http://dx.doi.org/10.3866/pku.whxb201810051.

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32

Huang, Liang, Xueping Zhang, Qingqing Wang, Yujie Han, Youxing Fang, and Shaojun Dong. "Shape-Control of Pt–Ru Nanocrystals: Tuning Surface Structure for Enhanced Electrocatalytic Methanol Oxidation." Journal of the American Chemical Society 140, no. 3 (January 16, 2018): 1142–47. http://dx.doi.org/10.1021/jacs.7b12353.

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33

Yim, Sung-Soo, Moon-Sang Lee, Ki-Su Kim, and Ki-Bum Kim. "Formation of Ru nanocrystals by plasma enhanced atomic layer deposition for nonvolatile memory applications." Applied Physics Letters 89, no. 9 (August 28, 2006): 093115. http://dx.doi.org/10.1063/1.2338793.

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34

Swearer, Dayne F., Hangqi Zhao, Linan Zhou, Chao Zhang, Hossein Robatjazi, John Mark P. Martirez, Caroline M. Krauter, et al. "Heterometallic antenna−reactor complexes for photocatalysis." Proceedings of the National Academy of Sciences 113, no. 32 (July 21, 2016): 8916–20. http://dx.doi.org/10.1073/pnas.1609769113.

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Анотація:
Metallic nanoparticles with strong optically resonant properties behave as nanoscale optical antennas, and have recently shown extraordinary promise as light-driven catalysts. Traditionally, however, heterogeneous catalysis has relied upon weakly light-absorbing metals such as Pd, Pt, Ru, or Rh to lower the activation energy for chemical reactions. Here we show that coupling a plasmonic nanoantenna directly to catalytic nanoparticles enables the light-induced generation of hot carriers within the catalyst nanoparticles, transforming the entire complex into an efficient light-controlled reactive catalyst. In Pd-decorated Al nanocrystals, photocatalytic hydrogen desorption closely follows the antenna-induced local absorption cross-section of the Pd islands, and a supralinear power dependence strongly suggests that hot-carrier-induced desorption occurs at the Pd island surface. When acetylene is present along with hydrogen, the selectivity for photocatalytic ethylene production relative to ethane is strongly enhanced, approaching 40:1. These observations indicate that antenna−reactor complexes may greatly expand possibilities for developing designer photocatalytic substrates.
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35

Amelia, Matteo, Marc Font, and Alberto Credi. "Luminescence quenching in self-assembled adducts of [Ru(dpp)3]2+ complexes and CdTe nanocrystals." Dalton Transactions 40, no. 45 (2011): 12083. http://dx.doi.org/10.1039/c1dt11054c.

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36

Zhang, Min, Wei Chen, Shi-Jin Ding, Zhi-Ying Liu, Yue Huang, Zhong-Wei Liao, and David Wei Zhang. "Physical and electrical characterization of atomic-layer-deposited Ru nanocrystals embedded into Al2O3 for memory applications." Journal of Physics D: Applied Physics 41, no. 3 (January 8, 2008): 032007. http://dx.doi.org/10.1088/0022-3727/41/3/032007.

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37

Lee, Do-Joong, Sung-Soo Yim, Ki-Su Kim, Soo-Hyun Kim, and Ki-Bum Kim. "Nonvolatile memory characteristics of atomic layer deposited Ru nanocrystals with a SiO2/Al2O3 bilayered tunnel barrier." Journal of Applied Physics 107, no. 1 (January 2010): 013707. http://dx.doi.org/10.1063/1.3275346.

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38

Wang, Mengmeng, Dongyun Chen, Najun Li, Qingfeng Xu, Hua Li, Jinghui He, and Jianmei Lu. "Highly Efficient Catalysts of Bimetallic Pt–Ru Nanocrystals Supported on Ordered ZrO2 Nanotube for Toluene Oxidation." ACS Applied Materials & Interfaces 12, no. 12 (February 25, 2020): 13781–89. http://dx.doi.org/10.1021/acsami.9b20929.

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39

Zhou, Gongbing, Yi Li, and Qihan Sha. "Shape-controlled and undercoordinated site-abundant Ru nanocrystals for low-temperature and additive-free benzene semi-hydrogenation." Applied Surface Science 600 (October 2022): 154058. http://dx.doi.org/10.1016/j.apsusc.2022.154058.

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40

Yin, An-Xiang, Wen-Chi Liu, Jun Ke, Wei Zhu, Jun Gu, Ya-Wen Zhang, and Chun-Hua Yan. "Ru Nanocrystals with Shape-Dependent Surface-Enhanced Raman Spectra and Catalytic Properties: Controlled Synthesis and DFT Calculations." Journal of the American Chemical Society 134, no. 50 (December 10, 2012): 20479–89. http://dx.doi.org/10.1021/ja3090934.

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41

Chen, Yueguang, Zhanjun Yu, Zheng Chen, Rongan Shen, Yu Wang, Xing Cao, Qing Peng, and Yadong Li. "Controlled one-pot synthesis of RuCu nanocages and Cu@Ru nanocrystals for the regioselective hydrogenation of quinoline." Nano Research 9, no. 9 (June 17, 2016): 2632–40. http://dx.doi.org/10.1007/s12274-016-1150-6.

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42

Vankova, Svetoslava, Carlotta Francia, Julia Amici, Juqin Zeng, Silvia Bodoardo, Nerino Penazzi, Gillian Collins, Hugh Geaney, and Colm O'Dwyer. "Influence of Binders and Solvents on Stability of Ru/RuOxNanoparticles on ITO Nanocrystals as Li-O2Battery Cathodes." ChemSusChem 10, no. 3 (January 23, 2017): 575–86. http://dx.doi.org/10.1002/cssc.201601301.

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43

Koposov, Alexey Y., Thomas Cardolaccia, Victor Albert, Ekaterina Badaeva, Svetlana Kilina, Thomas J. Meyer, Sergei Tretiak, and Milan Sykora. "Formation of Assemblies Comprising Ru–Polypyridine Complexes and CdSe Nanocrystals Studied by ATR-FTIR Spectroscopy and DFT Modeling." Langmuir 27, no. 13 (July 5, 2011): 8377–83. http://dx.doi.org/10.1021/la200531s.

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Li, Zhipeng, Shuo Wu, and Guizheng Zou. "Highly potential-resolved anodic electrochemiluminescence multiplexing immunoassay with CuInS2@ZnS nanocrystals and [Ru(bpy)2(dcbpy)]2+ as emitters." Journal of Electroanalytical Chemistry 888 (May 2021): 115173. http://dx.doi.org/10.1016/j.jelechem.2021.115173.

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Wei, Yuechang, Xingxing Wu, Yilong Zhao, Lu Wang, Zhen Zhao, Xiaotong Huang, Jian Liu, and Jianmei Li. "Efficient photocatalysts of TiO2 nanocrystals-supported PtRu alloy nanoparticles for CO2 reduction with H2O: Synergistic effect of Pt-Ru." Applied Catalysis B: Environmental 236 (November 2018): 445–57. http://dx.doi.org/10.1016/j.apcatb.2018.05.043.

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Sun, Zhenyu, Zhimin Liu, Buxing Han, Shiding Miao, Zhenjiang Miao, and Guimin An. "Decoration carbon nanotubes with Pd and Ru nanocrystals via an inorganic reaction route in supercritical carbon dioxide–methanol solution." Journal of Colloid and Interface Science 304, no. 2 (December 2006): 323–28. http://dx.doi.org/10.1016/j.jcis.2006.09.029.

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Wang, Qing, Shaik M. Zakeeruddin, Md K. Nazeeruddin, Robin Humphry-Baker, and Michael Grätzel. "Molecular Wiring of Nanocrystals: NCS-Enhanced Cross-Surface Charge Transfer in Self-Assembled Ru-Complex Monolayer on Mesoscopic Oxide Films." Journal of the American Chemical Society 128, no. 13 (April 2006): 4446–52. http://dx.doi.org/10.1021/ja058616h.

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Zhao, Ming, Zitao Chen, Zhiheng Lyu, Zachary D. Hood, Minghao Xie, Madeline Vara, Miaofang Chi, and Younan Xia. "Ru Octahedral Nanocrystals with a Face-Centered Cubic Structure, {111} Facets, Thermal Stability up to 400 °C, and Enhanced Catalytic Activity." Journal of the American Chemical Society 141, no. 17 (April 11, 2019): 7028–36. http://dx.doi.org/10.1021/jacs.9b01640.

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