Performance of electrochemically generated Li21Si5 phase for lithium-ion batteries

The nature of Li-Si alloy phases that are generated in electrochemical lithiation is examined as a function of temperature The electrochemical lithiation is performed at 0 0 V (vs Li/Li+) by short-circuiting an amorphous Si thin-film electrode with a Li metal counter electrode At 25-85 degrees C the well-known Li15Si4 phase (theoretical specific capacity = 3580 mA hg(-1)) forms At 100-120 C however Li21Si5 (4008 mA h g(-1)) that is known to be the most Li-rich phase in Li-Si system is generated The crystallization into Li21S15 is however so kinetically slow that it does not appear in the transient cycling experiment The Li21Si5 phase is converted to amorphous Si upon de-lithiation but the restoration back to the initial phase is only observed at 100-120 degrees C after a prolonged lithiation at 0 0 V The cycleability of this phase is poor due to a successive Li trapping inside the Si matrix which is caused by the formation of electrically isolated Si islands (C) 2010 Elsevier Ltd All rights reserved