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Journal articles on the topic 'Double Nickel'

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Published: 10 December 2022
Last updated: 29 January 2023

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1

LaPierre, Etienne A., Warren E. Piers, Denis M. Spasyuk, and David W. Bi. "Activation of Si–H bonds across the nickel carbene bond in electron rich nickel PCcarbeneP pincer complexes." Chemical Communications 52, no. 7 (2016): 1361–64. http://dx.doi.org/10.1039/c5cc09349j.

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2

Mahdavi, Behzad, Philippe Chambrion, Julie Binette, Eric Martel, and Jean Lessard. "Electrocatalytic hydrogenation of conjugated enones on nickel boride, nickel, and Raney nickel electrodes." Canadian Journal of Chemistry 73, no. 6 (June 1, 1995): 846–52. http://dx.doi.org/10.1139/v95-105.

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The selectivity of the electrocatalytic hydrogenation (ECH) of conjugated enones to the corresponding carbonyl compounds has been investigated in aqueous methanol under constant current at nickel boride, fractal nickel, and Raney nickel electrodes made of pressed powders. The influence of various parameters (water percentage, pH, concentration of substrate, and current density) on the selectivity of the carbon–carbon double bond hydrogenation was studied with cyclohex-2-en-1-one at nickel boride electrodes. Under given electrolysis conditions, fractal nickel electrodes were found to give the highest selectivity. The selectivity of the ECH of a variety of conjugated enones at fractal nickel electrodes was determined under electrolysis conditions that gave the best selectivity with cyclohexenone at nickel boride electrodes. Keywords: electrocatalytic hydrogenation, α,β-unsaturated ketones, selective hydrogenation, nickel based cathodes.
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3

Rajamathi, Jacqueline T., N. H. Raviraj, Mohammed F. Ahmed, and Michael Rajamathi. "Hexacyanoferrate-intercalated nickel zinc hydroxy double salts." Solid State Sciences 11, no. 12 (December 2009): 2080–85. http://dx.doi.org/10.1016/j.solidstatesciences.2009.09.001.

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4

Kim, Jong Seon, Gun Whan Lee, Ki Won Kim, Jou Hyen Ahn, Gyu Bong Cho, Ho Suk Ryu, and Hyo Jun Ahn. "The Discharge Properties of Nickel Sulfide Thin Film Prepared from Sulfidation of Nickel Foil." Materials Science Forum 544-545 (May 2007): 1073–76. http://dx.doi.org/10.4028/www.scientific.net/msf.544-545.1073.

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The nickel sulfide (Ni3S2) thin film could be prepared from Ni/S double layer, which was deposited on nickel foil using evaporation and sputtering. The nickel sulfide electrode was discharged and charged between 0.6V and 2.6V versus Li/Li+ at room temperature. The nickel sulfide film had the first discharge capacity of 270mAh/g, and two plateaus at 1.3V and 1.8V.
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5

Barik, G., E. Padhan, B. Dash, K. Sarangi, and T. Subbaiah. "Preparation of layered nickel aluminium double hydroxide from waste solution of nickel." Minerals Engineering 69 (December 2014): 107–12. http://dx.doi.org/10.1016/j.mineng.2014.07.015.

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6

Yan, Qing, Peng Yan, Tong Wei, Guiling Wang, Kui Cheng, Ke Ye, Kai Zhu, Jun Yan, Dianxue Cao, and Yiju Li. "A highly efficient and durable water splitting system: platinum sub-nanocluster functionalized nickel–iron layered double hydroxide as the cathode and hierarchical nickel–iron selenide as the anode." Journal of Materials Chemistry A 7, no. 6 (2019): 2831–37. http://dx.doi.org/10.1039/c8ta10789k.

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7

Lei, Xiaodong, Bo Wang, Junfeng Liu, Zhengping Ye, Zheng Chang, Meihong Jiang, and Xiaoming Sun. "Three-dimensional NiAl-mixed metal oxide film: preparation and capacitive deionization performances." RSC Adv. 4, no. 78 (2014): 41642–48. http://dx.doi.org/10.1039/c4ra08415b.

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A NiAl layered double hydroxide (NiAl-LDH) film was grown on the surface of a three-dimensional (3D) nickel foam by an in situ hydrothermal method using a nickel foam substrate as a nickel source, and boehmite (AlOOH) sol as an aluminium source.
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8

Belskaya, Olga B., Roman M. Mironenko, Tatiana I. Gulyaeva, Mikhail V. Trenikhin, Ivan V. Muromtsev, Svetlana V. Trubina, Valentina V. Zvereva, and Vladimir A. Likholobov. "Catalysts Derived from Nickel-Containing Layered Double Hydroxides for Aqueous-Phase Furfural Hydrogenation." Catalysts 12, no. 6 (May 30, 2022): 598. http://dx.doi.org/10.3390/catal12060598.

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Changes in the structural and textural properties of NiAl-layered double hydroxides (LDHs) (with 2–4 molar ratios of metals) and state of nickel that occur in different steps of the synthesis of nickel catalysts were studied using XRD, thermal analysis, TPR, low-temperature nitrogen adsorption, XANES, EXAFS, and electron microscopy methods. Relations between nickel content, catalyst reduction conditions, state of nickel, and its catalytic properties were revealed. It was shown that the use of NiAl LDH as the catalyst precursor even at a high content of active metal allows for the obtaining of the dispersed particles of supported nickel that are active in the aqueous-phase hydrogenation of furfural. The catalyst activity and conversion of furfural were found to increase with elevation of the catalyst reduction temperature and the corresponding growth of the fraction of reduced nickel. However, a lower reduction temperature (500 °C) makes it possible to form smaller nickel particles with the size of 4–6 nm, and a high Ni content (Ni:Al = 4) can be used to obtain the active Ni@NiAlOx catalyst. Under mild reaction conditions (90 °C, 2.0 MPa), the furfural conversion reached 93%, and furfuryl alcohol was formed with the selectivity of 70%. Under more severe reaction conditions (150 °C, 3.0 MPa), complete conversion of furfural was achieved, and cyclopentanol and tetrahydrofurfuryl alcohol were the main hydrogenation products.
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9

Coudun, C., and Jean-François Hochepied. "Precipitation of Nickel Hydroxides from Nickel Dodecylsulphate." Solid State Phenomena 106 (September 2005): 35–40. http://dx.doi.org/10.4028/www.scientific.net/ssp.106.35.

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Classical precipitation techniques applied to a nickel di-dodecylsulphate Ni(DS)2 precursor were developed. In the range of concentrations studied this precursor forms direct micelles in water. In pH-controlled double jet precipitation with soda at 60°C, the pure a, poorly crystallised bbc and well crystallised b phases are successively obtained by pH shifts from 8 to 11, whereas the platelet morphology remains similar. In the same conditions, classical salts never lead to a phase and the particle size and morphology is pH dependent. Hydroxide precipitation by ammonia decomplexation, via heating at 60°C, Ni(DS)2 leads to well-calibrated stacks of b- Ni(OH)2 nanopancakes (300 nm in diameter and 200 nm stacking length) whereas classical salts lead to micrometric particles characterised by thin interconnected walls.
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10

Wang, Dongai, Meihua Liu, Yuanmin Zhu, and Feihui Li. "Influence of Double-Pulse Electrodeposition Parameters on the Performance of Nickel/Nanodiamond Composite Coatings." Coatings 11, no. 9 (September 3, 2021): 1068. http://dx.doi.org/10.3390/coatings11091068.

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In this study, using 45# carbon steel as the substrate, a first experimental analysis was carried out on the polarisation behaviour of different component wattage plating solutions in order to determine the reasonable content of nanodiamond particles in a nickel/nanodiamond composite plating solution. Secondly, the effect of double-pulse forward and reverse duty cycle and reverse working time on the performance of nickel/nanodiamond composite plating was then investigated by testing the thickness, hardness and surface roughness of the composite plating and observing the surface micromorphology. The experimental results show that, when the content of nanodiamond particles in the plating solution is 5 g/L, the anti-pulse working time, forward and reverse pulse duty cycle of the double-pulse plating parameters are 20, 0.3 and 0.2 ms, respectively, and the composite plating layer prepared by double pulse has good comprehensive performance. This research work provides technical support for the optimisation of process parameters for the preparation of nickel/nanodiamond composite coatings by double-pulse electrodeposition.
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11

Karaś, M., M. Nowak, M. Opyrchał, M. Bigaj, and A. Najder. "Influence of the Zinc Sublayer Method Production and Heat Treatment on the Microhardness of the Composite Ni-Al2O3 Coating Deposited on the 5754 Aluminium Alloy." Archives of Metallurgy and Materials 59, no. 1 (March 1, 2014): 355–58. http://dx.doi.org/10.2478/amm-2014-0059.

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Abstract In this study, the effect of zinc interlayer on the adhesion of nickel coatings reinforced with micrometric Al2O3 particles was examined. Nickel coating was applied by electroplating on EN AW - 5754 aluminium alloy using Watts bath at a concentration of 150 g/l of nickel sulphate with the addition of 50 g/l of Al2O3. The influence of zinc intermediate coating deposited in single, double and triple layers on the adhesion of nickel coating to aluminium substrate was also studied. The adhesion was measured by the thermal shock technique in accordance with PN-EN ISO 2819. The microhardness of nickel coating before and after heat treatment was additionally tested. It was observed that the number of zinc interlayers applied does not significantly affect the adhesion of nickel which is determined by thermal shock. No defect that occurs after the test, such as delamination, blistering or peeling of the coating was registered. Microhardness of the nickel coatings depends on the heat treatment and the amount of zinc in the interlayer. For both single and double zinc interlayer, the microhardness of the nickel coating containing Al2O3 particles increased after heat treatment, but decreased when a triple zinc interlayer was applied.
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12

Ryltsova, Irina G., Olga V. Nestroinaia, and Olga E. Lebedeva. "Nickel(III) containing layered double hydroxides with hydrotalcite structure." Butlerov Communications 57, no. 2 (February 28, 2019): 116–22. http://dx.doi.org/10.37952/roi-jbc-01/19-57-2-116.

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Synthesis of layered double hydroxides (LDH) was carried out by the method of coprecipitating of components from the solution at room temperature and variable pH, followed by aging at 98 °C for 2 days. During the synthesis the following compositions were specified: M2+6M3+1.5Ni3+0.5, where M2+ is Mg, Cu or Ca, M3+ is Al, Fe, or Co. In order to convert nickel cations to oxidation state +3, an oxidizing agent – sodium hypochlorite – was introduced into the reaction system. It is shown that the use of this method of synthesis allows to obtain layered double hydroxides containing aluminum and nickel or iron and nickel in the positions of triply charged cations in the structure of brucite-like layers. The formation of hydrotalcite-like structure was confirmed by XRD. The synthesized materials had morphology typical for layered double hydroxides. According to transmission electron microscopy, the samples consisted of aggregates of plate-like particles. The behavior during heat treatment was studied by thermogravimetric analysis. It was shown that the replacement of aluminum with iron cations in the structure of nickel-containing LDH led to a slight decrease in thermal stability of LDH. The thermal destruction of the obtained samples occured in two stages. The first stage, observed in the temperature range from 20 to 220 °C, included the loss of physically sorbed and crystalline water. In the second stage, when heated above 220 °C, simultaneous dehydroxylation of brucite-like layers and removal of carbonate anions from the interlayer space were observed, which resulted in the destruction of the layered structure. Heat treatment at 500 °C led to the transformation of layered double hydroxides into a mixture of corresponding oxides.
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13

Zheng, Xiaoting, Zhengxiang Gu, Qingqing Hu, Baoyou Geng, and Xiaojun Zhang. "Ultrathin porous nickel–cobalt hydroxide nanosheets for high-performance supercapacitor electrodes." RSC Advances 5, no. 22 (2015): 17007–13. http://dx.doi.org/10.1039/c5ra01294e.

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Ultrathin porous nickel–cobalt layered double hydroxide (Ni–Co LDH) hybrid nanosheets on metal nickel sheets shows highly electrochemical performance which synthesizing via a facile hydrothermal method without any adscititious surfactant.
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14

Afineevskii, Andreiy V., Dmitriy A. Prozorov, Mikhail V. Lukin, Tatiana Yu Osadchaya, and Yaroslav P. Sukhachev. "NICKEL CATALYTIC PROPERTIES IN REACTION OF LIQUID-PHASE HYDROGENATION OF CARBON-CARBON DOUBLE BOND." IZVESTIYA VYSSHIKH UCHEBNYKH ZAVEDENIY KHIMIYA KHIMICHESKAYA TEKHNOLOGIYA 60, no. 6 (July 19, 2017): 95. http://dx.doi.org/10.6060/tcct.2017606.5409.

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The hydrogenating of carbon-carbon double bond in a molecule of sodium maleate over a partially deactivated catalysts based on nickel in a water solution at atmospheric pressure was investigated. Kinetic regularities of the investigated processes were obtained. It was found that sulfide additives lead to the decrease in an order of the reaction for both skeletal and supported nickel catalysts, however, the correlation of activity versus the amounts of sulfur introduced is complex and independent on the amount of active metal on the catalyst surface. We proposed the method for the synthesis of a supported nickel catalyst resistant to oxidation with atmospheric oxygen and an activity of the one is more than twice better then activity of Raney nickel. The stability of the nickel catalyst (Raney nickel and nickel supported on silica) in the presence of sulfide ions impurities in the reaction system was shown. It was found that the supported nickel catalyst has a much higher resistance to deactivation than the skeletal catalyst. The role of the support at the adsorption of sulfide from solution during deactivation of the investigated catalysts was demonstrated. It was suggested that the higher stability of the supported catalyst for deactivation is due to the sorption of the catalytic poison by silica gel. It is suggested the possibility of adjusting the selectivity of the catalyst deactivation character without changing the nature of the solvent. It was presented the possibility of purposeful variation in a wide range of adsorption properties of the active metal surface relative to the reactants, which makes possible to develop approaches to the synthesis of catalysts with given parameters of activity and selectivity relative to certain classes of organic compounds.Forcitation:Afineevskii A.V., Prozorov D.A., Osadchaya T.Yu., Sukhachev Ya.P., Lukin M.V. Nickel catalytic properties in reaction of liquid-phase hydrogenation of carbon-carbon double bond. Izv. Vyssh. Uchebn. Zaved. Khim. Khim. Tekhnol. 2017. V. 60.N 6. P. 95-101.
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15

ZHAO, Long-zhi, Ming-juan ZHAO, Na LI, Hong YAN, and Jin-song ZHANG. "Microstructure of nickel foam/Mg double interpenetrating composites." Transactions of Nonferrous Metals Society of China 20 (July 2010): s463—s466. http://dx.doi.org/10.1016/s1003-6326(10)60519-5.

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16

Nudelman, Israel L., Vladimir V. Fuko, Sara Morgenstern, Shamai Giler, and Shlomo Lelcuk. "Gastrointestinal Anastomosis with the Nickel-Titanium Double Ring." World Journal of Surgery 24, no. 7 (July 2000): 874–77. http://dx.doi.org/10.1007/s002680010140.

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17

Nestroinaia, Olga V., Irina G. Ryltsova, and Olga E. Lebedeva. "Effect of Synthesis Method on Properties of Layered Double Hydroxides Containing Ni(III)." Crystals 11, no. 11 (November 21, 2021): 1429. http://dx.doi.org/10.3390/cryst11111429.

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Unstable oxidation state +3 of nickel can be stabilized in the structure of layered double hydroxides, the resulting crystallinity and properties being dependent on the synthesis method. Three different wet chemical methods (co-precipitation at variable pH, co-precipitation followed by hydrothermal treatment, co-precipitation with microwave treatment) were used to synthesize Mg/Ni–Al layered double hydroxides containing triply charged nickel cations. Lattice parameters of the samples synthesized by various methods were found to differ from each other by about 1.5%. The most crystallized sample was obtained by hydrothermal synthesis. The oxidation state of nickel in the LDH samples was confirmed by XPS. TEM mapping gave evidence of the uniform distribution of nickel in all the samples. The LDHs’ reduction with hydrogen and thermal transformations of the phase composition and morphology of LDHs were studied in detail. The properties of the samples synthesized by the different methods were shown to be quite similar.
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18

Balram, Anirudh, Jie Chao Jiang, Moisés Hernández Fernández, and Dennis De Sheng Meng. "Nickel-Cobalt Double Hydroxide Decorated Carbon Nanotubes via Aqueous Electrophoretic Deposition towards Catalytic Glucose Detection." Key Engineering Materials 654 (July 2015): 70–75. http://dx.doi.org/10.4028/www.scientific.net/kem.654.70.

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In this work, we present a facile technique based on electrophoretic deposition (EPD) to produce transition metal hydroxide decorated carbon nanotubes (CNT) for electrochemical applications. We specifically explore the performance of nickel-cobalt hydroxides given their high activity, conductivity and stability as compared to the individual hydroxides. We exploit the high local pH at the negative electrodes during water-based EPD to form nanoparticles of nickel-cobalt hydroxides in situ on the CNT surface. We focus our work here on obtaining functional and conductive deposits on CNTs. The hydrophilic binderless deposits of Ni-Co double hydroxide decorated CNTs obtained here are used for non-enzymatic glucose detection. XPS data and electrochemical testing reveal difference in the deposited double hydroxide based on chronology of charging salt addition even at the same ratio. When cobalt and nickel salts are sequentially added at a ratio of 1:1, the deposited double hydroxides show excellent glucose sensitivity of ~3300μA/mM.cm2 at applied potential of 0.55V vs. Ag/AgCl reference electrode.
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19

Chu, Kunpeng, Baoshan Guo, Lan Jiang, Yanhong Hua, Shuai Gao, Jingang Jia, and Ningwei Zhan. "Throughput Improvement in Femtosecond Laser Ablation of Nickel by Double Pulses." Materials 14, no. 21 (October 24, 2021): 6355. http://dx.doi.org/10.3390/ma14216355.

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In this study, femtosecond laser double pulses were tested to improve their nickel ablation efficiency. The experimental results indicated that compared with single pulses, double pulses with different delay times generated craters with larger diameters and depths. The results obtained for three sets of double pulses with different energy ratios indicated that double pulses with an energy ratio of 1:9 had the highest ablation efficiency, followed by those with energy ratios of 2:8 and 5:5. The double pulses with the aforementioned three energy ratios achieved the maximum ablation efficiency when the delay time was 3–4 ps. Compared with single pulses, double pulses with an energy ratio of 1:9 generated craters with an up to 34% greater depth and up to 14% larger diameter. In addition, an interference effect was observed with a double pulse delay time of 0 ps, which has seldom been reported in the literature. The double pulses were simulated using the two-temperature model. The simulation results indicated that double pulses with an energy ratio of 1:9 with a delay time of 4 ps can perform the strongest ablation. These simulation results are in line with the experimental results.
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20

Tanaka, Hiroshi, Shinya Suzuki, and Masaru Miyayama. "Electrode Properties of Nickel-Aluminum Layered Double Hydroxides in Aqueous Electrolyte Solutions." Key Engineering Materials 566 (July 2013): 115–18. http://dx.doi.org/10.4028/www.scientific.net/kem.566.115.

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Electrochemical properties of restacked nanosheets (RS-LDH) of nickel-aluminum layered double hydroxide were investigated for the first time. RS-LDH was prepared by delaminating nickel-aluminum layered double hydroxide powder (powder LDH) into nanosheets and restacking them. RS-LDH and powder LDH showed same discharge capacity of 230 mAhg1 at a current density of 500 mAg1, but RS-LDH showed a larger capacity than powder LDH at a large current density of 1000 mAg1. This increase in capacity was assumed to be attributed to the increased specific surface area and ion conductivity.
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21

Yang, Yang, Renxi Jin, Shuo Zhao, Jihong Liu, Yunfeng Li, Xiaodan Yu, Zhan Shi, and Yan Xing. "In situ reduction of well-dispersed nickel nanoparticles on hierarchical nickel silicate hollow nanofibers as a highly efficient transition metal catalyst." RSC Advances 6, no. 39 (2016): 32580–85. http://dx.doi.org/10.1039/c6ra01529h.

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22

Xing, Junheng, Shaoyan Wu, and K. Y. Simon Ng. "Electrodeposition of ultrathin nickel–cobalt double hydroxide nanosheets on nickel foam as high-performance supercapacitor electrodes." RSC Advances 5, no. 108 (2015): 88780–86. http://dx.doi.org/10.1039/c5ra17481c.

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23

Kuznecov, Aleksandr, and Nina Sosnovskaya. "THE USE OF ORGANIC COMPOUNDS CONTAINING THE TRIPLE BOND C≡C IN THE PROCESS OF ELECTROCHEMICAL NICKEL PLATING." Modern Technologies and Scientific and Technological Progress 2022, no. 1 (May 16, 2022): 25–26. http://dx.doi.org/10.36629/2686-9896-2022-1-25-26.

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The influence of the structure of organic compounds, as well as the presence of double and triple bonds on the process of brilliant electrochemical nickel plating is considered. It is shown that triple-bonded compounds are effective additives for the electrochemical production of shiny nickel coatings
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24

Pethybridge, Sarah J., Beth K. Gugino, and Julie R. Kikkert. "Efficacy of Double Nickel LC (Bacillus amyloliquefaciens D747 Strain) for Management of White Mold in Snap and Dry Bean." Plant Health Progress 20, no. 1 (January 1, 2019): 61–66. http://dx.doi.org/10.1094/php-01-19-0006-rs.

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White mold caused by Sclerotinia sclerotiorum is a serious disease affecting snap and dry bean production. Management is reliant upon fungicides to protect flowers from infection by ascospores. The inability to use conventional fungicides in organic production represents a substantial hurdle, although products approved by the National Organic Program (NOP) offer a substitute for disease management. In many cases, copper-based products are central to disease management programs in organic production, but the potential for crop loss from premature flower abscission in snap and dry bean owing to phytotoxicity when applied at high temperatures and for other undesirable environmental outcomes has driven interest in biopesticides registered by the NOP as alternatives. Five small-plot, replicated field trials (three in snap bean and two in light red kidney bean) were conducted across three years (2016 to 2018) to evaluate the efficacy of the biopesticide Double Nickel LC (Bacillus amyloliquefaciens D747 strain) for the management of white mold. Trials were inoculated with S. sclerotiorum ascospores to ensure uniform disease potential. The incidence of white mold in plots receiving two applications of Double Nickel LC (2.34 liters/ha) was not significantly different from the conventional fungicide standards. No significant difference in white mold incidence was found between 2.34 and 4.68 liters/ha of Double Nickel LC in either crop. Responses in pod yield components from improved white mold management in either crop were variable. The potential of Double Nickel LC for use in organic production of snap and light red kidney bean for management of white mold is discussed.
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25

Kang, Zhe, Ting Xiao, Xin Yu Tan, Peng Xiang, and Li Hua Jiang. "A Novel Nickel/Iron-Layered Double Hydroxide for Supercapacitors." Applied Mechanics and Materials 665 (October 2014): 115–18. http://dx.doi.org/10.4028/www.scientific.net/amm.665.115.

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A facile one-step method of growing nickel/iron layered double hydroxide (Ni/Fe-LDH) films with nanosheet structures on Ti sheet is presented and the electrochemical performance is investigated. Cyclic voltammogram of Ni/Fe-LDH electrode shows a pair of well-defined redox peaks at-0.4~-1.4 V, which is quite different with the previous reports on LDHs used for supercapacitors. This result implies the Ni/Fe-LDH may be an alternative for the cathode of the asymmetric supercapacitors.
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26

Zhu, Min, Shiming Zhou, Chuanhao Yao, Lingwen Liao, and Zhikun Wu. "Reduction-resistant and reduction-catalytic double-crown nickel nanoclusters." Nanoscale 6, no. 23 (2014): 14195–99. http://dx.doi.org/10.1039/c4nr04981k.

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Ni6(SCH2CH2Ph)12(Ni6) was synthesized using three different methods and fully characterized; importantly, the reduction-resistance and reduction-catalysis properties of Ni6 were revealed.
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27

Fujihara, Tetsuaki, Yuichiro Horimoto, Taiga Mizoe, Fareed Bhasha Sayyed, Yosuke Tani, Jun Terao, Shigeyoshi Sakaki, and Yasushi Tsuji. "Nickel-Catalyzed Double Carboxylation of Alkynes Employing Carbon Dioxide." Organic Letters 16, no. 18 (September 8, 2014): 4960–63. http://dx.doi.org/10.1021/ol502538r.

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28

Boehly, T., B. Yaakobi, D. Shvarts, D. Meyerhofer, P. Audebert, J. Wang, M. Russotto, et al. "X-ray laser experiments using double foil nickel targets." Applied Physics B Photophysics and Laser Chemistry 50, no. 3 (March 1990): 165–72. http://dx.doi.org/10.1007/bf00357279.

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29

Khaderi, S. N., M. R. J. Scherer, C. E. Hall, U. Steiner, U. Ramamurty, N. A. Fleck, and V. S. Deshpande. "The indentation response of Nickel nano double gyroid lattices." Extreme Mechanics Letters 10 (January 2017): 15–23. http://dx.doi.org/10.1016/j.eml.2016.08.006.

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30

Donnelly, T., J. G. Lunney, S. Amoruso, R. Bruzzese, X. Wang, and X. Ni. "Double pulse ultrafast laser ablation of nickel in vacuum." Journal of Applied Physics 106, no. 1 (July 2009): 013304. http://dx.doi.org/10.1063/1.3159010.

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31

Sturgeon, Matthew R., Marykate H. O'Brien, Peter N. Ciesielski, Rui Katahira, Jacob S. Kruger, Stephen C. Chmely, Jessica Hamlin, et al. "Lignin depolymerisation by nickel supported layered-double hydroxide catalysts." Green Chem. 16, no. 2 (2014): 824–35. http://dx.doi.org/10.1039/c3gc42138d.

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32

Rivera, J. A., G. Fetter, Y. Jiménez, M. M. Xochipa, and P. Bosch. "Nickel distribution in (Ni,Mg)/Al-layered double hydroxides." Applied Catalysis A: General 316, no. 2 (January 2007): 207–11. http://dx.doi.org/10.1016/j.apcata.2006.09.031.

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33

Dutta, Soumen, Arindam Indra, Yi Feng, Taeseup Song, and Ungyu Paik. "Self-Supported Nickel Iron Layered Double Hydroxide-Nickel Selenide Electrocatalyst for Superior Water Splitting Activity." ACS Applied Materials & Interfaces 9, no. 39 (September 19, 2017): 33766–74. http://dx.doi.org/10.1021/acsami.7b07984.

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34

Li, Ning, Zhong Zhang, Yiwei Liu, Ying Lu, Danfeng He, Li Xu, Xiahua Zhong, and Shuxia Liu. "Magnetic and luminescence properties of an inorganic 3D nickel–vanadium bimetallic framework." New Journal of Chemistry 41, no. 3 (2017): 1245–49. http://dx.doi.org/10.1039/c6nj03413f.

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35

Huang, Chao, Hong You Li, Hao Ping Zeng, Yu Ying Shi, and Kai Yong Jiang. "An Experimental Study of Bipolar Pulse Electroforming Nickel." Advanced Materials Research 152-153 (October 2010): 238–41. http://dx.doi.org/10.4028/www.scientific.net/amr.152-153.238.

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An experimental study of bipolar pulse electroforming nickel is presented in this paper. Based on the principles of electric double layer and double diffusing layer, the advantages of pulse electroforming over direct current electroforming, bipolar pulse electroforming over single pulse and pulse-reverse current were explained in the view of microcosmic. The influence of major technological parameters on the process of electroforming was investigated. The experimental results indicate that the the quality and precision of the electroformed coating, as well as the mechanical properties of electroformed parts, can be improved, with the bipolar pulse power.
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36

Hunter, B. M., W. Hieringer, J. R. Winkler, H. B. Gray, and A. M. Müller. "Effect of interlayer anions on [NiFe]-LDH nanosheet water oxidation activity." Energy & Environmental Science 9, no. 5 (2016): 1734–43. http://dx.doi.org/10.1039/c6ee00377j.

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37

Wang, Gongbao, Erik-Jan Lindeboom, Chris van Heerewaarden, and Adriaan J. Minnaard. "Synthesis of ene-yne-enes by nickel-catalyzed double SN2′ substitution of 1,6-dichlorohexa-2,4-diyne." Catalysis Science & Technology 7, no. 11 (2017): 2347–55. http://dx.doi.org/10.1039/c7cy00429j.

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Jin, Renxi, Yang Yang, Yunfeng Li, Lin Fang, Yan Xing, and Shuyan Song. "In situ assembly of well-dispersed gold nanoparticles on hierarchical double-walled nickel silicate hollow nanofibers as an efficient and reusable hydrogenation catalyst." Chem. Commun. 50, no. 41 (2014): 5447–50. http://dx.doi.org/10.1039/c4cc01286k.

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39

Yoshida, Jun, Kazunori Tateyama, Hidetaka Yuge, and Mitsuo Hara. "Hexagonal ordering of racemic Ni(ii) complexes in the interlayer space of a clay mineral." Chemical Communications 56, no. 73 (2020): 10670–73. http://dx.doi.org/10.1039/d0cc04977h.

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40

Zhang, Xiao Ning. "Modified Fabric and Its Electromagnetic Protection Characteristics." Materials Science Forum 510-511 (March 2006): 306–9. http://dx.doi.org/10.4028/www.scientific.net/msf.510-511.306.

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A metallic modification technique on fabric is put forward in this paper. Morphologies and element analysis of modified fabric samples with copper and nickel-iron double films were carried out by using SEM and EDX. Shielding effectiveness (SE) on the samples was tested within 0.1~1000MHz and 1.5~18GHz. Within 0.1~1000MHz, modified fabric SE is between –93dB and –110dB. Two nickel-plated methods were compared. The measurement results of two modified fabric indicate that nickel-iron alloy films are better than nickel film on SE. With the advantages of low cost, flexibility , high electromagnetic protection characteristics, the modified fabric has a widely applicable foreground.
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41

Djaenudin, Djaenudin, and Dani Permana. "The Effect of Iron Ion to the Removal of Nickel Ion From Electroplating Wastewater Using Double Chamber Electrodeposition Cell (DCEC) Reactor." Molekul 12, no. 1 (May 30, 2017): 14. http://dx.doi.org/10.20884/1.jm.2017.12.1.232.

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Modern society demands industrial technology advances to produce products that have high durability and long utilization lives. Materials made from ferrous metal become a solution to meet these industry needs. Ferrous metal is corrosive and it requires more care to support the performance. Electroplating or metal coating applied to iron or nickel solves this problem. In the production process, the usage of nickel is only 30%-40% and the remaining 60-70% is wasted through effluent. Nickel is a toxic heavy metal that can cause cancer. The purpose of this study is to evaluate the effect of iron concentration on nickel metal removal in electroplating wastewater using an insulated electrolytic reactor double chamber electrodeposition cell (DCEC). The result of this study shows that any ratio variation of iron concentration to nickel gives varying impacts on nickel removal efficiency, electric current efficiency, and specific energy. On the fourth variation, the iron ratio of 1.29% removed 83.1% nickel (the highest removal efficiency) at the cost of 20.687 kWh / kg specific energy. The number is extremely high for energy needs. On the other hand, the variation of iron ratio of 1.73% consumpting only 15.067 kWh / kg, the lowest specific energy needs, resulted in the lowest removal efficiency of 63.6%.
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42

Waalkes, Michael P., Jie Liu, Kazimierz S. Kasprzak, and Bhalchandra A. Diwan. "Metallothionein-I/II Double Knockout Mice Are No More Sensitive to the Carcinogenic Effects of Nickel Subsulfide than Wild-Type Mice." International Journal of Toxicology 24, no. 4 (July 2005): 215–20. http://dx.doi.org/10.1080/10915810591000668.

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Metallothionein (MT) is a high-affinity metal-binding protein thought to mitigate the toxicity of various metals. MT may limit the toxicity of a metal by direct binding or through action as an antioxidant for metals that generate reactive oxygen species. Nickel compounds have carcinogenic potential in humans and animals, possibly by production of oxidative stress. The impact of MT deficiency on the carcinogenic effects of nickel is unknown. Thus, groups ( n = 25) of male MT-I/II double knockout (MT-null) or MT wild-type (WT) mice were exposed to a single treatment of nickel (0.5 or 1.0 mg Ni3S2/site, intramuscularly, [i.m.], into both hind legs), or left untreated (control) and observed over the next 104 weeks. There were no differences in the incidence of spontaneous tumors in MT-null and WT mice. Nickel induced injection site fibrosarcomas in a dose-related fashion to a similar extent in both WT and MT-null mice. Nickel-treatment had no effect on total lung tumor incidence, although some phenotypic-specific differences occurred in the proportion of benign and malignant pulmonary tumors. Overall, MT-null mice appear no more sensitive to the carcinogenic effects of nickel than WT mice. Thus, poor MT production does not appear to be a predisposing factor for nickel carcinogenesis.
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43

Li, Yizhen, Jiaying Yu, Wei Li, Guoli Fan, Lan Yang, and Feng Li. "The promotional effect of surface defects on the catalytic performance of supported nickel-based catalysts." Physical Chemistry Chemical Physics 18, no. 9 (2016): 6548–58. http://dx.doi.org/10.1039/c5cp07371e.

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44

Huang, Peipei, Changyan Cao, Yongbin Sun, Shuliang Yang, Fang Wei, and Weiguo Song. "One-pot synthesis of sandwich-like reduced graphene oxide@CoNiAl layered double hydroxide with excellent pseudocapacitive properties." Journal of Materials Chemistry A 3, no. 20 (2015): 10858–63. http://dx.doi.org/10.1039/c5ta02427g.

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Tahira, Aneela, Zafar Hussain Ibupoto, Mikhail Vagin, Umair Aftab, Muhammad Ishaq Abro, Magnus Willander, and Omer Nur. "An efficient bifunctional electrocatalyst based on a nickel iron layered double hydroxide functionalized Co3O4 core shell structure in alkaline media." Catalysis Science & Technology 9, no. 11 (2019): 2879–87. http://dx.doi.org/10.1039/c9cy00351g.

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46

Zhang, Lingyan, Kai Xu, Tulu Liang, and Jin Shi. "Strengthening Analysis of Ni-Sn Alloy Layer by Double Alloying Method Combined with First-Principles Calculation." Nanomaterials 12, no. 23 (November 22, 2022): 4127. http://dx.doi.org/10.3390/nano12234127.

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Surface modification improves the performance of materials in practical applications. In this paper, mechanical alloying pretreatment is adopted. Advanced non-equilibrium processing of a high-current pulse electron beam is then used to obtain an Sn-rich Ni-Sn alloy layer, characterized by a higher surface hardness than the initial pure nickel layer. In addition, the atomic structure of the Sn-doped nickel substrate in the alloy layer is simulated, and the improvement of the alloy layer is analyzed based on the first principle. Mechanical alloying and electron beam irradiation form fine and even nanocrystals on the surface of the nickel. Sn doping is also important for enlarging the lattice and increasing the stress.
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47

Wen, Li-Rong, Ning-Ning Wang, Wu-Bo Du, Qiang Ma, Lin-Bao Zhang, and Ming Li. "Nickel-promoted oxidative domino Csp3–H/N–H bond double-isocyanide insertion reaction to construct pyrrolin-2-ones." Organic & Biomolecular Chemistry 19, no. 13 (2021): 2895–900. http://dx.doi.org/10.1039/d1ob00139f.

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Wang, Yunqiu, Yu-Xi Song, Wen-Yi Tong, Yuanyuan Zhang, Ruijuan Qi, Ping-Hua Xiang, Rong Huang, et al. "Electric field control of magnetism in nickel with coaxial cylinder structure at room temperature by electric double layer gating." J. Mater. Chem. C 5, no. 40 (2017): 10609–14. http://dx.doi.org/10.1039/c7tc03617e.

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Jing, Chuan, Xiaoli Liu, Xiaoying Liu, Debin Jiang, Biqin Dong, Fan Dong, Jinshu Wang, Nan Li, Tian Lan, and Yuxin Zhang. "Crystal morphology evolution of Ni–Co layered double hydroxide nanostructure towards high-performance biotemplate asymmetric supercapacitors." CrystEngComm 20, no. 46 (2018): 7428–34. http://dx.doi.org/10.1039/c8ce01607k.

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50

Antico, Andrea, and Roberto Soana. "Nickel Sensitization and Dietary Nickel are a Substantial Cause of Symptoms Provocation in Patients with Chronic Allergic-Like Dermatitis Syndromes." Allergy & Rhinology 6, no. 1 (January 2015): ar.2015.6.0109. http://dx.doi.org/10.2500/ar.2015.6.0109.

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Data in literature seem to show that, in patients with contact allergic dermatitis, dietary nickel might be a cause of systemic dermatitis, but little information exists in literature about the role of nickel sensitization and dietary nickel in patients with allergic-like chronic dermatitis syndromes. The prevalence of nickel sensitization in patients with chronic allergic-like, non-IgE-mediated skin diseases, and the possible impact of dietary nickel on symptom provocation and persistence has been assessed in the present retrospective study on a case series of 1726 patients referred to our allergy unit for chronic allergic-like skin diseases. IgE-mediated pathogenesis and other differential diagnoses excluded, patients were patch tested. Nickel-positive patients underwent an elimination diet and double-blind placebo-controlled nickel challenge (DBPCNC) test. A total of 339 (20%) tested nickel-positive. Fifty-two patients (15%) recovered by avoiding sources of nickel contact and 29 (10%) dropped out. Out of the remaining nickel-sensitized patients, 277 (80%) achieved complete or near complete recovery with low-nickel content diet, and 185 of them (89%) were positive to DBPCNC. We conclude that nickel sensitization and dietary nickel seem to be the chief trigger for provocation and persistence of symptoms in an important part (~11%) of patients with chronic allergic-like dermatitis syndromes.
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