Abstract: Title: Method for providing a substrate for an electrochemical cell with a catalytic material Abstract The invention relates to a method for providing a substrate for an electrochemical cell with a catalytic material. The method comprises atomic layer deposition (ALD) that comprises providing a catalyst precursor for the catalytic material. The ALD further comprises providing a carrier precursor for forming a carrier material. The invention further relates to a substrate provided with a catalytic material and a PEM electrolysis cell comprising a substrate provided with a catalytic material.

Abstract: The present disclosure relates to a 3D formable photovoltaic solar panel, in particular to a semi-finished free-formable photovoltaic module for a 3D formed solar panel, and to a method for manufacturing thereof. The semi-finished free-formable photovoltaic module comprising: a plurality of laterally spaced back contactable flexible photovoltaic elements; a plurality of flexible electrically conductive wiring elements forming an electrically conductive interconnection between flexible photovoltaic elements, each wiring element having an overlap with the respective back terminals of adjacent flexible photovoltaic elements; and an encapsulant over layer, wherein the encapsulant cover layer essentially fixates the overlaps of the wiring elements with respect to the respective back terminals.

Abstract: The disclosed technology relates to electrode layers of ion insertion type batteries and to electrode layer materials, wherein the electrode layer materials have a good electronic conductivity and a good ion conductivity, and wherein the electrode layers offer a good rate performance and a high storage capacity. The disclosed technology further relates to ion insertion type battery cells and batteries including such electrode layers, e.g., as an anode. The disclosed technology further relates to methods of forming such electrode layers and to methods for fabricating ion insertion type battery cells and batteries. The electrode layers according to the disclosed technology comprise titanium oxide comprising chlorine and may be deposited by atomic layer deposition at temperatures lower than 150° C.

Abstract: The disclosed technology relates to electrode layers of ion insertion type batteries and to electrode layer materials, wherein the electrode layer materials have a good electronic conductivity and a good ion conductivity, and wherein the electrode layers offer a good rate performance and a high storage capacity. The disclosed technology further relates to ion insertion type battery cells and batteries including such electrode layers, e.g., as an anode. The disclosed technology further relates to methods of forming such electrode layers and to methods for fabricating ion insertion type battery cells and batteries. The electrode layers according to the disclosed technology comprise titanium oxide comprising chlorine and may be deposited by atomic layer deposition at temperatures lower than 150° C.