Abstract: A material is provided that includes a first section for storing energy and a second section for releasing energy received from the first section in which the energy is preferably electrical energy that is used for one from among heat dissipation, heat generation, light emission and powering of an electric circuit. Ideally the material includes a third layer adapted to collect energy and convert the energy to electrical energy for storage in the first section. A fourth protection section is provided on at least one side of the material. The material can be formed of woven strips, laminated sections, or in coaxial sections that are woven together to form a flexible fabric material having at least one characteristic from among breathability, wickability, moisture resistance, moisture-proof, and stretchability.
Abstract: A material is provided that includes a first section for storing energy and a second section for releasing energy received from the first section in which the energy is preferably electrical energy that is used for one from among heat dissipation, heat generation, light emission and powering of an electric circuit. Ideally the material includes a third layer adapted to collect energy and convert the energy to electrical energy for storage in the first section. A fourth protection section is provided on at least one side of the material. The material can be formed of woven strips, laminated sections, or in coaxial sections that are woven together to form a flexible fabric material having at least one characteristic from among breathability, wickability, moisture resistance, moisture-proof, and stretchability.
Abstract: A material that includes a first section for storing energy and a second section for collecting and converting energy for storage by the first section in which the stored energy is preferably electrical energy that is used for one from among heat dissipation, heat generation, light emission and powering of an electric circuit in a plurality of devices, ideally covered with a layer to form at least one self-contained panel for operation independently or with other panels to form a system. The material can be formed of layers having devices or components embedded therein, the layers preferably laminated together using a battened pattern of adhesion. A control bus system allows master or slave designation as well as power sharing to the individual panels in the garment as well as among garments.