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Fabrication of the Ni-NiCl2 Composite Cathode Material for Fast-Response Thermal Batteries

Qianqiu Tian, Jiajun Wang, Wendi Xiang, Jun Zhao, Hao Guo, Jing Hu, Xiaopeng Han, Wenbin Hu

2021Frontiers in Chemistry23 citationsDOIOpen Access PDF

Abstract

Thermal batteries with a high power density and rapid activation time are crucial for improving the fast response ability of sophisticated weapons. In this study, an Ni-NiCl 2 composite was prepared via hydrogen reduction and employed as a cathode material. Discharge tests on a battery assembled using the fabricated composite revealed that its initial internal resistance decreased and the activation time reduced. Notably, the Ni-NiCl 2 cathode increased the energy output by 47% (from 6.76 to 9.94 Wh in NiCl 2 and Ni-NiCl 2 , respectively) with a cut-off voltage of 25 V; the power density of the novel battery system reached 11.4 kW/kg. The excellent performance of the thermal battery benefited from the high electrode potential and low internal resistance of Ni-NiCl 2 . This study contributes to the development of high-performance electrode materials for next-generation thermal battery-related technologies.

Topics & Concepts

Internal resistanceBattery (electricity)CathodeMaterials scienceComposite numberPower densityFabricationElectrodeVoltageThermalComposite materialElectrical engineeringChemistryPower (physics)EngineeringPathologyPhysicsPhysical chemistryMeteorologyQuantum mechanicsAlternative medicineMedicineMolten salt chemistry and electrochemical processesThermal Expansion and Ionic ConductivityAdvancements in Solid Oxide Fuel Cells
Fabrication of the Ni-NiCl2 Composite Cathode Material for Fast-Response Thermal Batteries | Litcius