Hydrogen release and uptake in the Li-Zn-N system

Nguyen Trang T. T.; Reed Daniel; Book David; Anderson Paul A.

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Hydrogen release and uptake in the Li-Zn-N system

机译：Li-Zn-N系统中的氢释放和吸收

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Reactions of ZnCl2 + nLiNH(2) at a range of molar ratios and temperatures gave a mixture of Zn3N2 and LiZ-nN as products; no stable amide chloride, imide chloride or nitride chloride phases were identified. Temperature-programmed desorption with mass spectrometry (TPD-MS) showed that the main gas emitted was ammonia (NH3). The addition of lithium hydride (LiH) changed the main gaseous product from NH3 to H-2, which was released at a low temperature beginning around 90 degrees C. Neither pure LiZnN nor Zn3N2 could be rehydrogenated under the conditions studied. However, mixtures of LiZnN and Zn3N2, and LiZnN and LiCl reacted with H-2 at 300 degrees C to form LiNH2 and zinc metal. (C) 2015 Published by Elsevier B.V.

机译：ZnCl2 + nLiNH（2）在一定摩尔比和温度下的反应生成了Zn3N2和LiZ-nN的混合物。未鉴定出稳定的酰胺氯化物，酰亚胺氯化物或氮化物氯化物相。程序升温程序解吸质谱法（TPD-MS）显示，排放的主要气体是氨（NH3）。氢化锂（LiH）的添加将主要气体产物从NH3变为H-2，该产物在大约90摄氏度开始于低温下释放。在研究的条件下，纯LiZnN和Zn3N2都无法再氢化。但是，LiZnN和Zn3N2的混合物以及LiZnN和LiCl的混合物在300℃下与H-2反应形成LiNH2和金属锌。（C）2015由Elsevier B.V.发布

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《Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics》 |2015年第1期|共4页
作者
Nguyen Trang T. T.; Reed Daniel; Book David; Anderson Paul A.;
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正文语种 eng
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Lithium amide; Zinc nitride; Lithium zinc nitride; Hydrogen absorption/desorption; Reversible hydrogen storage; Temperature-programmed desorption with mass spectrometry (TPD-MS);

机译：酰胺锂;氮化锌;氮化锌锌;氢吸收/解吸;可逆储氢;温度程序解吸质谱（TPD-MS）;

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1. Hydrogen release and uptake in the Li-Zn-N system [J] . Nguyen Trang T. T., Reed Daniel, Book David, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2015,第Suppla1期

机译：Li-Zn-N系统中的氢释放和吸收
2. New compounds in the potassium-aluminium-hydrogen system observed during release and uptake of hydrogen [J] . Lene Mosegaard Arnbjerg, Torben R. Jensen International journal of hydrogen energy . 2012,第1期

机译：在氢的释放和吸收过程中观察到钾铝氢系统中的新化合物
3. Nanoengineering-Enabled Solid-State Hydrogen Uptake and Release in the LiBH4 Plus MgH2 System [J] . Xuefei Wan, Tippawan Markmaitree, William Osborn The journal of physical chemistry, C. Nanomaterials and interfaces . 2008,第46期

机译：LiBH4 Plus MgH2系统中启用纳米工程的固态氢吸收和释放
4. Optimization of Hydrogen Uptake and Release in Automotive-scale Metal Hydride Systems [C] . Daniel E. Dedrick, Michael Kanouff, Jay Keller, World hydrogen energy conference;WHEC 2010 . 2011

机译：汽车规模金属氢化物系统中氢的吸收和释放的优化
5. Nanoengineering-Enabled Solid-State Hydrogen Uptake and Release in the Lithium Borohydride plus Magnesium Hydride System. [D] . Wan, Xuefei. 2011

机译：纳米工程实现的固态氢在硼氢化锂加氢化镁系统中的吸收和释放。
6. Hydrogen Uptake and Release in Carbon Nanotube Electrocatalysts [O] . Rui Lobo, Jorge Ribeiro, Filipe Inok 2021

机译：碳纳米管电催化剂中的氢气吸收和释放
7. Hydrogen Storage Materials: Nanosizing Ammonia Borane with Nickel: A Path toward the Direct Hydrogen Release and Uptake of BNH Systems (Adv. Sustainable Syst. 4/2018) [O] . Qiwen Lai, Aditya Rawal, Md Zakaria Quadir, 2018

机译：储氢材料：纳米氨硼烷镍：朝向直接氢释放的途径和BNH系统的摄取（ADV。可持续系统。4/2018）
8. Uptake and release of hydrogen in palladium by weakly-bound sites. [R] . Richards, P. M., Kay, B. D., Wampler, W. R. 1990

机译：通过弱结合位点吸收和释放钯中的氢。

Hydrogen release and uptake in the Li-Zn-N system

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