An imidazopyrazine-derived anion for lithium conducting electrolyte application

Niedzicki Leszek; Korczak Jedrzej; Bitner Anna; Bukowska Maria; Szczecinski Przemyslaw

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An imidazopyrazine-derived anion for lithium conducting electrolyte application

机译：用于锂导电电解质应用的咪唑吡嗪衍生的阴离子

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In this work we present a new lithium salt of 4,5-dicyano-2-(trifluoromethyl) imidazopyrazine (LiTDPI) which was designed for use as an electrolyte in lithium-ion cells. It was synthesized and completely characterized by NMR techniques. The salt is thermally stable up to 350 degrees C and electrochemically stable in carbonate solvents up to +5.1 V vs. Li. Basic electrochemical characterization of this new lithium salt solution shows conductivity of over 2 mS cm(-1) at room temperature and a transference number which is higher than the commercial reference salt, LiPF6 (>0.4 in a EC:DMC 1 : 2 ratio mixture). As a proof of concept, short cycling measurements in a graphite half-cell show good capacity (352 mA h g(-1)) and capacity retention (96% after 50 cycles). The extremely good stability without compromising the performance parameters shows the next leap in progress for tailoring efficient lithium-conducting electrolytes.

机译：在这项工作中，我们提出了一种新的4,5-二氰-2-（三氟甲基）咪唑嗪（LITDPI）的新锂盐，其设计用于锂离子电池中的电解质。它被NMR技术合成并完全表征。盐在碳酸盐溶剂中热稳定至350℃，可在碳酸盐溶剂中电化学稳定，高达+ 5.1V与Li。这种新的锂盐溶液的基本电化学表征在室温下显示出超过2mscm（-1）的电导率，并且转移数高于商业参考盐，LiPf6（EC：DMC 1：2比例混合物中的0.4 ）。作为概念证明，石墨半细胞中的短循环测量显示出良好的容量（352mA H（-1））和容量保留（50次循环后96％）。在不影响性能参数的情况下极好的稳定性显示了剪裁有效锂导电电解质的下一次进展。

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《RSC Advances》 |2015年第123期|共6页
作者
Niedzicki Leszek; Korczak Jedrzej; Bitner Anna; Bukowska Maria; Szczecinski Przemyslaw;
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Warsaw Univ Technol Fac Chem Dept Inorgan Chem &

Solid State Technol PL-00664 Warsaw Poland;

Warsaw Univ Technol Fac Chem Dept Inorgan Chem &

Solid State Technol PL-00664 Warsaw Poland;

Warsaw Univ Technol Fac Chem Dept Inorgan Chem &

Solid State Technol PL-00664 Warsaw Poland;

Warsaw Univ Technol Fac Chem Dept Inorgan Chem &

Solid State Technol PL-00664 Warsaw Poland;

Warsaw Univ Technol Fac Chem Dept Inorgan Chem &

Solid State Technol PL-00664 Warsaw Poland;

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1. An imidazopyrazine-derived anion for lithium conducting electrolyte application [J] . Niedzicki Leszek, Korczak Jedrzej, Bitner Anna, RSC Advances . 2015,第123期

机译：用于锂导电电解质应用的咪唑吡嗪衍生的阴离子
2. Benzimidazole-derived anion for lithium-conducting electrolytes [J] . Niedzicki Leszek, Oledzki Piotr, Bitner Anna, Journal of power sources . 2016,第feba29期

机译：苯并咪唑衍生的阴离子，用于导电锂的电解质
3. Single lithium-ion conducting polymer electrolytes based on poly[(4-styrenesulfonyl)(trifluoromethanesulfonyl)imide] anions [J] . Shaowei Feng, Dongyang Shi, Fang Liu, Electrochimica Acta . 2013,第Null期

机译：基于聚[（4-苯乙烯磺酰基）（三氟甲磺酰基）酰亚胺]阴离子的单一锂离子导电聚合物电解质
4. Lithium-Conducting Ionic Melt Electrolytes from Polyether-Functionalized Fluorosulfonimide Anions [C] . Stephen E. Creager, Peter Hallac, Olt Geiculescu, Meeting of the Electrochemical Society . 2007

机译：聚醚官能化氟磺酰亚胺阴离子的锂导电离子熔体电解质
5. Molecular Interactions of the Difluoro(oxalato)borate Anion and Its Application for Lithium Ion Battery Electrolytes. [D] . Allen, Joshua Lee. 2013

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6. Lithium-ion conducting oxide single crystal as solid electrolyte for advanced lithium battery application [O] . Kunimitsu Kataoka, Hiroshi Nagata, Junji Akimoto -1

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7. Sparse Gaussian process potentials: Application to lithium diffusivity in superionic conducting solid electrolytes [O] . Amir Hajibabaei, Chang Woo Myung, Kwang S. Kim 2021

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An imidazopyrazine-derived anion for lithium conducting electrolyte application

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