Glassy cathode deposition on solid electrolyte substrate applied to lithium middle-temperature all-solid-state batteries was investigated. The 30Li(2)O center dot 47.5V(2)O(5)center dot 22.5B(2)O(3) (LBV) glassy cathode is crystallized on Li7La3Zr2O12 (LLZ) solid electrolyte substrate at various temperatures (650-850 degrees C) and holding times (0.5-5 min). The phase composition of the crystallized glass and vanadium oxidation state are determined by the XRD and XPS analysis. The different lithium vanadates form at all studied temperatures, and the boron-containing phases appear at temperatures greater than 750 degrees C. SEM investigation shows that the lithium borate-vanadate glass crystallized at 750 degrees C to create the optimal interface and close contact between the electrode and the electrolyte. Processing at lower temperatures does not allow for good contact, and processing at higher temperatures leads to the interaction between the cathode material and ceramic electrolyte. The optimal mode of 30Li(2)O center dot 47.5V(2)O(5)center dot 22.5B(2)O(3) glassy cathode deposition on the substrate is found to be glass powder annealing for 0.5 min at 750 degrees C. This LBV vertical bar LLZ cell has the highest conductivity and the lowest polarization resistance on the cathode vertical bar electrolyte interface. The universality of this deposition mode is demonstrated using Li3.65Al0.05Ge0.95P0.2O4 ceramic substrate as an example. Thus, the LBV glass can be used for the formation of an optimal interface with other lithium-ion solid electrolytes. (C) 2018 Elsevier Ltd. All rights reserved.