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Polyol Process Coupled to Cold Plasma as a New and Efficient Nanohydride Processing Method: Nano-Ni2H as a Case Study

机译：多元醇工艺与冷等离子体耦合作为一种新型高效的纳米氢化物处理方法：以纳米Ni2H为例

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An alternative route for metal hydrogenation has been investigated: cold plasma hydrogen implantation on polyol-made transition metal nanoparticles. This treatment applied to a challenging system, Ni–H, induces a re-ordering of the metal lattice, and superstructure lines have been observed by both Bragg–Brentano and grazing incidence X-ray diffraction. The resulting intermetallic structure is similar to those obtained by very high-pressure hydrogenation of nickel and prompt us to suggest that plasma-based hydrogen implantation in nanometals is likely to generate unusual metal hydride, opening new opportunities in chemisorption hydrogen storage. Typically, almost isotropic in shape and about 30 nm sized hexagonal-packed Ni H single crystals were produced starting from similarly sized cubic face-centred Ni polycrystals.

机译：已经研究了金属氢化的另一种途径：在多元醇制成的过渡金属纳米粒子上进行冷等离子体氢注入。这种处理方法应用于具有挑战性的系统Ni–H，引起金属晶格的重新排序，并且通过Bragg–Brentano和掠入射X射线衍射都观察到了超结构线。最终的金属间结构类似于通过非常高压的镍加氢获得的金属间结构，促使我们建议在纳米金属中进行基于等离子体的氢注入可能会产生不同寻常的金属氢化物，从而为化学吸附氢存储提供了新的机会。典型地，从类似尺寸的立方面心居中的Ni多晶体开始，生产几乎各向同性的形状和约30nm尺寸的六方堆积的Ni H单晶。

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期刊名称 Nanomaterials
作者
Sonia Haj-Khlifa; Sophie Nowak; Patricia Beaunier; Patricia De Rango; Michaël Redolfi; Souad Ammar-Merah;
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作者单位

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年(卷),期 2020(10),1
年度 2020
页码 -1
总页数 11
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
nickel nanoparticles; polyol process; hydrogen cold plasma implantation; nickel hydrides; hydrogen storage;

机译：镍纳米粒子;多元醇工艺;氢冷等离子体注入;氢化镍;储氢;

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1. Correction: Haj-Khlifa, S., et al. Polyol Process Coupled to Cold Plasma as a New and Efficient Nanohydride Processing Method: Nano-Ni 2 H as a Case Study. Nanomaterials 2020, 10 , 136 [J] . Sonia Haj-Khlifa, Sophie Nowak, Patricia Beaunier, Nanomaterials . 2020,第4期

机译：纠正：Haj-Khlifa，S.等人。多元醇过程偶联至冷等离子体作为一种新的高效的纳米氢化物加工方法：纳米Ni 2 h作为一个案例研究。纳米材料2020,10,136
2. Modeling and experimental studies of a transformer coupled plasma (TCP/sup TM/) source design for large area plasma processing [J] . Singh V., Holland J. IEEE Transactions on Plasma Science . 1996,第1期

机译：大面积等离子体处理的变压器耦合等离子体（TCP / sup TM /）源设计的建模和实验研究
3. A study of methods for moving particles in RF processing plasmas [J] . Beck S.E., Collins S.M. IEEE Transactions on Plasma Science . 1994,第2期

机译：在射频处理等离子体中移动粒子的方法的研究
4. Study of power balance in asymmetric capacitively coupled discharge plasmas used for material processing [C] . S. A. Moshkalyov, C. Reyes-Betanzo, J. W. Swart Symposium on Microelectronics Technology and Devices . 2002

机译：用于材料加工的不对称电容耦合放电等离子体电力平衡研究
5. Studies of the effects of fluorocarbon deposition and etching on silicon and silicon dioxide etching processes using methyl trifluoride in an inductively coupled plasma reactor, and the development of a reactive ion beam system for the study of plasma-surface interaction mechanisms. [D] . Rueger, Neal R. 1998

机译：在感应耦合等离子体反应器中研究碳氟化合物沉积和蚀刻对硅和二氧化硅蚀刻工艺的影响（使用三氟化甲基），并开发了用于研究等离子体与表面相互作用机理的反应离子束系统。
6. Correction: Haj-Khlifa S. et al. Polyol Process Coupled to Cold Plasma as a New and Efficient Nanohydride Processing Method: Nano-Ni2H as a Case Study. Nanomaterials 2020 10 136 [O] . Sonia Haj-Khlifa, Sophie Nowak, Patricia Beaunier, 2020

机译：校正：Haj-KhlifaS.等。一种新型的高效纳米氢化物处理方法：将多元醇工艺偶联到冷等离子体上：以纳米Ni2H为例。纳米材料202010136
7. Correction: Haj-Khlifa, S., et al. Polyol Process Coupled to Cold Plasma as a New and Efficient Nanohydride Processing Method: Nano-Ni2H as a Case Study. Nanomaterials 2020, 10, 136 [O] . Sonia Haj-Khlifa, Sophie Nowak, Patricia Beaunier, 2020

机译：纠正：Haj-Khlifa，S.等人。多元醇过程偶联至冷等离子体作为一种新的高效纳米氢化物加工方法：纳米Ni2h作为一个案例研究。纳米材料2020,10,136

Polyol Process Coupled to Cold Plasma as a New and Efficient Nanohydride Processing Method: Nano-Ni2H as a Case Study

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