A compact tube-in-tube microsized lithium-ion battery as an independent microelectric power supply unit

Abstract

Independent and well-packaged miniaturized energy storage devices (MESDs) are indispensable as power sources or backup units for integrated circuits and many dispersive electronics applications. Challenges associated with MESD development relate to their low packaged areal energy density and poor battery performance. Here, we propose a compact tube-in-tube battery configuration to overcome the areal energy density and packaging problems in microbatteries. Compact microtubular microelectrodes rolled up from patterned nanomembranes are sealed in an inert glass capillary with a thin tube wall. The resultant tube-in-tube microsized lithium-ion batteries (micro-LIBs), based on various active materials, exhibit very high and scalable packaged areal energy densities up to 605 microampere hours per square centimeter (μAh cm−2) or 313 μWh cm−2 with footprints as small as 0.39–0.79 mm2. This approach is a practical alternative for microbattery microelectrode, packaging, and configuration innovations.