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Lithiophilic Hydrogen-Substituted Graphdiyne Aerogels with Ionically Conductive Channels for High-Performance Lithium Metal Batteries

Xin Gao, X. R. Zheng, Yusheng Ye, Hiang Kwee Lee, Pu Zhang, Andy Cui, Xin Xiao, Yufei Yang, Yi Cui

2024Nano Letters16 citationsDOI

Abstract

Lithium (Li) metal stands as a promising anode in advancing high-energy-density batteries. However, intrinsic issues associated with metallic Li, especially the dendritic growth, have hindered its practical application. Herein, we focus on molecular combined structural design to develop dendrite-free anodes. Specifically, using hydrogen-substituted graphdiyne (HGDY) aerogel hosts, we successfully fabricated a promising Li composite anode (Li@HGDY). The HGDY aerogel's lithiophilic nature and hierarchical pores drive molten Li infusion and reduce local current density within the three-dimensional HGDY host. The unique molecular structure of HGDY provides favorable bulk pathways for lithium-ion transport. By simultaneous regulation of electron and ion transport within the HGDY host, uniform lithium stripping/platting is fulfilled. Li@HGDY symmetric cells exhibit a low overpotential and stable cycling. The Li@HGDY||lithium iron phosphate full cell retained 98.1% capacity after 170 cycles at 0.4 C. This study sheds new light on designing high-capacity and long-lasting lithium metal anodes.

Topics & Concepts

AnodeLithium (medication)Materials scienceAerogelDendrite (mathematics)OverpotentialNanotechnologyChemical engineeringCurrent densityElectrical conductorCathodeElectrochemistryChemistryElectrodeComposite materialPhysical chemistryMedicineGeometryPhysicsEngineeringMathematicsQuantum mechanicsEndocrinologyAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research