Abstract: The disclosure describes T cells that express chimeric antigen receptors (CARs), as well as pharmaceutical compositions comprising T cells and methods of making and using such T cells. Particularly, this disclosure describes T cells expressing a first CAR that binds to a first antigen and a second CAR comprising a LAT intracellular signaling domain that binds to a second antigen, and methods of use in treating cancers, such as solid tumors and hematological malignancies.

Abstract: A charging station (10) is provided for electrical DC charging of an electric vehicle with a charging power of at least 150 kW. The charging station (10) has a charging cable (11) with a charging plug (12), via which an electric vehicle to be charged is able to be coupled to the charging station (10) for the purpose of electrical DC charging. A charging interface (13) for electrical AC charging is integrated into the charging station (10). An electric vehicle to be charged can be coupled to the charging interface via a charging cable of the electric vehicle to be charged.

Abstract: A charging station (10) is provided for electrical DC charging of an electric vehicle with a charging power of at least 150 kW. The charging station (10) has a charging cable (11) with a charging plug (12), via which an electric vehicle to be charged is able to be coupled to the charging station (10) for the purpose of electrical DC charging. A charging interface (13) for electrical AC charging is integrated into the charging station (10). An electric vehicle to be charged can be coupled to the charging interface via a charging cable of the electric vehicle to be charged.

Abstract: The specification discloses a method of making an ultracapacitor including the steps of forming a first electrode by adhering CNT on a porous first substrate; placing a non conductive separator over the first electrode, forming a second electrode by adhering a second layer of CNT to a second substrate and placing over the first substrate, attaching a conductive tab to each electrode, rolling the combined electrodes, inserting the rolled electrodes into a metal can, attaching one conductive tab to the bottom of the can, adding an electrolyte to the can, attaching the second conductive tab to a lid of the can, and placing an insulator between the lid and the can.

Abstract: A device and method for the fabrication of a power storage device or ultracapacitor manufactured from a process comprising nickel, chromium or stainless steel sintered on a metal substrate at a temperature of at least 850° C. in an inert atmosphere. The method further comprises stainless steel as the substrate. A catalyst of magnesium, manganese and iron combine with Nitric acid and de-ionized water may also be used.