Amorphous glass-perovskite composite as solid electrolyte for lithium-ion battery

“…However, for academic purposes, the study conducted by Araki et al [ 476 ] on the fundamental physical properties of Li 3 x La 1/3− x M O 3 ( M = Ta, Nb) revealed that the thermal expansion coefficient was ~3 × 10 −6 K −1 above 400 K regardless of x . More studies were conducted to analyze modified synthesis methods, understand the interface mechanisms, and improve the conductivity using modified strategies [ 276 , 477 , 478 , 479 , 480 , 481 , 482 , 483 , 484 , 485 , 486 , 487 , 488 , 489 , 490 , 491 ] such as combining 10–15 wt.% LLTO electrolyte with polymer electrolytes/ionic liquid [ 492 ] or commercial 1 mol L −1 LiPF 6 in mixture of ethylene carbonate+dimethyl carbonate+diethyl carbonate (EC:DMC:DEC) electrolytes with LLTO, and in some cases using polymer separators. These batteries are typically termed “hybrid composite SSBs”, and the reduction of Ti in the LLTO electrolyte cannot be suppressed in these cells.…”

Sulfide and Oxide Inorganic Solid Electrolytes for All-Solid-State Li Batteries: A Review

“…However, for academic purposes, the study conducted by Araki et al [ 476 ] on the fundamental physical properties of Li 3 x La 1/3− x M O 3 ( M = Ta, Nb) revealed that the thermal expansion coefficient was ~3 × 10 −6 K −1 above 400 K regardless of x . More studies were conducted to analyze modified synthesis methods, understand the interface mechanisms, and improve the conductivity using modified strategies [ 276 , 477 , 478 , 479 , 480 , 481 , 482 , 483 , 484 , 485 , 486 , 487 , 488 , 489 , 490 , 491 ] such as combining 10–15 wt.% LLTO electrolyte with polymer electrolytes/ionic liquid [ 492 ] or commercial 1 mol L −1 LiPF 6 in mixture of ethylene carbonate+dimethyl carbonate+diethyl carbonate (EC:DMC:DEC) electrolytes with LLTO, and in some cases using polymer separators. These batteries are typically termed “hybrid composite SSBs”, and the reduction of Ti in the LLTO electrolyte cannot be suppressed in these cells.…”

Sulfide and Oxide Inorganic Solid Electrolytes for All-Solid-State Li Batteries: A Review

“…In this one the A cation is situated at the corner of the cube, while B cation is situated at the centre. This variety of ABO 3 combinations give us materials that can be used in various fields such as photovoltaic [7], solid oxide fuel cells (SOFC) [8,9] and batteries [10,11]. The LaAlO 3 , a typical perovskite with variety applications, has allured considerable interest as over layer in conventional thermal barrier coatings [12], as a Promotion of electrochemical performances of LiNi 0 .…”

Electronic, transport and optical properties in perovskite compound LaGaO₃

“…As a comparison, the ionic conductivity of bulk glass-ceramic containing about 60% crystalline is included in Figure 15f from Salami et al The bulk glass-ceramic electrolyte was fabricated by meltquench method using a rolling machine and its ionic conductivity is 1.3 × 10 −5 S cm −1 , higher than 4.733 × 10 −6 S cm −1 of the crystalline counterpart. [173]…”

“… Influence of dopants on the conductivity: a) changes of lattice parameter as well as ionic conductivity of bulk Li 0.33+ x La 0.56− x Sr x TiO 3 after A‐site substitution of Sr (data from [159 ] ), b) changes of ionic conductivity of rf‐sputtered Li 0.33+ x La 0.56− x Sr x TiO 3 (data from [161 ] ), c) changes of bulk and grain boundary ionic conductivity at different concentration of Al 3+ , (data from [168 ] ), d) influence of B‐site substitution on the lattice parameters and ionic conductivities of Li 0.24 La 0.587 Ti 1‐ x Sn x O 3 and Li 0.24‐ x La 0.587 Ti 1‐ x Ta x O 3 (data from [ 162 ] ), e) conductivity of La (2/3) − x Li 3 x ⊡ (1/3) − 2 x TiO 3 at different Li + concentration and processing temperatures (data from 166 , 167 , 168 ] ), and f) conductivity of Li 0.5 La 0.5 TiO 4 thin‐film electrolytes deposited by PLD at various temperatures (data from 166 , 171 ] and [ 172 ] where PLD was used, and [176 ] where melt‐quench was used.) …”

All‐Solid‐State Thin Film μ‐Batteries for Microelectronics