Solid electrodes, assemblies and solid state batteries thereof

1 - 15 . (canceled) 16 . A continuous web of inorganic lithium ion conducting sulfide solid electrolyte comprising a source roll forming layers of the inorganic lithium ion conducting sulfide solid electrolyte and a protective interleave disposed adjacent to the layers of the inorganic lithium ion conducting sulfide solid electrolyte. 17 . The continuous web of claim 16 wherein the web is wound about a spool to form a continuous source roll for storage, transport, and manufacture. 18 . The continuous web of claim 16 wherein the interleave is a porous polymer. 19 . The continuous web of claim 16 wherein the interleave is a dry polymer. 20 . The continuous web of claim 19 wherein the dry polymer is gel-able. 21 . The continuous web of claim 16 wherein the interleave further serves as a porous or gel separator in a battery cell in which the solid electrolyte is disposed. 22 . The continuous web of claim 16 wherein the interleave is a smooth polyolefin layer. 23 . The continuous web of claim 16 wherein the interleave is a smooth polyester layer. 24 . The continuous web of claim 16 wherein the interleave further serves as a backing layer to facilitate conveyance of the solid electrolyte during battery or battery cell component manufacture. 25 . A method of making a battery cell, the method comprising: providing a continuous web continuous web of inorganic lithium ion conducting sulfide solid electrolyte comprising a source roll forming layers of the inorganic lithium ion conducting sulfide solid electrolyte and a protective interleave disposed adjacent to the layers of the inorganic lithium ion conducting sulfide solid electrolyte; and. removing the interleave during battery cell manufacture. 26 . A method of making a battery cell, the method comprising: disposing between positive and negative electrodes a continuous web of inorganic lithium ion conducting sulfide solid electrolyte comprising a source roll forming layers of the inorganic lithium ion conducting sulfide solid electrolyte and a protective interleave disposed adjacent to the layers of the inorganic lithium ion conducting sulfide solid electrolyte, wherein the continuous web of inorganic lithium ion conducting sulfide solid electrolyte serves as electrolyte in the battery cell. 27 . The method of claim 26 wherein the battery cell is fully solid-state 28 . The method of claim 26 wherein the battery cell is a hybrid battery further comprising a liquid or gel phase electrolyte. 29 . The method of claim 28 wherein the liquid phase electrolyte combines with the interleave to form a separator layer in the battery cell. 30 . The method of claim 29 wherein the battery further comprises lithium polysulfide species dissolved in the liquid phase electrolyte.