The effect of thermally treated AlN powder on PVT-grown single crystals

Abstract: Herein, aluminum nitride (AlN) powder is thermally treated via a thermocycle process for use in PVT growth. The thermally treated AlN powder shows reduced impurity concentrations compared to the untreated...

“…In another attempt, thin Li film was evaporated onto SS substrate to eliminate initial sites for heterogeneous lithium nucleation in AFSSBs, and for practical and up-scalable consideration, the Ag-C layer was coated onto SS, both confirmed the improvement of interfacial stability between chlorine-rich solid electrolyte and bared CCs. [153] The anode-free concept has been studied for SSBs by Lee and Han et al, which insert a 10 μm thick Ag-C composite layer between an argyrodite type Li 6 PS 5 Cl (LPSCl) SE and an SS-CC and delivers the cell capacity of a 0.6 Ah and 99.8% of capacity retention after 1000 cycles. [15] Cu foil reacted with LPSCl and SS-CC was electrochemically inactive for Li deposition from the LP-SCl.…”

Optimizing Current Collector Interfaces for Efficient “Anode‐Free” Lithium Metal Batteries

“…In another attempt, thin Li film was evaporated onto SS substrate to eliminate initial sites for heterogeneous lithium nucleation in AFSSBs, and for practical and up-scalable consideration, the Ag-C layer was coated onto SS, both confirmed the improvement of interfacial stability between chlorine-rich solid electrolyte and bared CCs. [153] The anode-free concept has been studied for SSBs by Lee and Han et al, which insert a 10 μm thick Ag-C composite layer between an argyrodite type Li 6 PS 5 Cl (LPSCl) SE and an SS-CC and delivers the cell capacity of a 0.6 Ah and 99.8% of capacity retention after 1000 cycles. [15] Cu foil reacted with LPSCl and SS-CC was electrochemically inactive for Li deposition from the LP-SCl.…”

Optimizing Current Collector Interfaces for Efficient “Anode‐Free” Lithium Metal Batteries