Abstract: A piezoelectric photovoltaic cell is disclosed. The cell may include a photovoltaic portion, including a sensitized semiconductor material. The cell may also include a piezoelectric portion, including a piezoelectric material.

Abstract: A Seebeck solar cell device is disclosed, combining both photovoltaic and thermoelectric techniques. The device may be formed using, for example, a conventional photovoltaic cell formed from a doped silicon wafer. The material used to form conductors to the front and rear regions of the cell are chosen for their thermoelectric characteristics, including the sign, or polarity, of their Seebeck coefficients. The distal portion of each conductor is insulated from the solar and waste heat and, in some embodiments, is also coupled to a cooling mechanism. Multiple such devices can be connected in series or parallel.

Abstract: A Seebeck solar cell device is disclosed, combining both photovoltaic and thermoelectric techniques. The device may be formed using, for example, a conventional photovoltaic cell formed from a doped silicon wafer. The material used to form conductors to the front and rear regions of the cell are chosen for their thermoelectric characteristics, including the sign, or polarity, of their Seebeck coefficients. The distal portion of each conductor is insulated from the solar and waste heat and, in some embodiments, is also coupled to a cooling mechanism. Multiple such devices can be connected in series or parallel.

Abstract: A piezoelectric ultracapacitor is disclosed capable of converting the kinetic energy of ordinary motion into an electrical potential. Multiple piezoelectric ultracapacitors may be configured together to provide an increased output voltage and various materials may advantageously be used. The piezoelectric ultracapacitor of the present invention may be used in various contexts, including power generation, switching and control and memory. An elastomeric piezoelectric ultracapacitor, along with methods of making and operating such a device, is also disclosed. The elastomeric piezoelectric ultracapacitor utilizes the voltage generation capabilities of a piezoelectric ultracapacitor and the generator mode operation of an elastomer actuator, combined and cooperating in novel ways, to provide improved energy generation capabilities.

Abstract: Piezoelectric ultracapacitor is disclosed capable of converting the kinetic energy of ordinary motion into an electrical potential. The piezoelectric ultracapacitor of the present invention may be used in various contexts, including power generation, switching and control and memory.

Abstract: Piezoelectric ultracapacitor is disclosed capable of converting the kinetic energy of ordinary motion into an electrical potential. The piezoelectric ultracapacitor of the present invention may be used in various contexts, including power generation, switching and control and memory.

Abstract: Piezoelectric ultracapacitor is disclosed capable of converting the kinetic energy of ordinary motion into an electrical potential. The piezoelectric ultracapacitor of the present invention may be used in various contexts, including power generation, switching and control and memory.

Abstract: Piezoelectric ultracapacitor is disclosed capable of converting the kinetic energy of ordinary motion into an electrical potential. The piezoelectric ultracapacitor of the present invention may be used in various contexts, including power generation, switching and control and memory.

Abstract: A piezoelectric ultracapacitor is disclosed capable of converting the kinetic energy of ordinary motion into an electrical potential. Multiple piezoelectric ultracapacitors may be configured together to provide an increased output voltage and various materials may advantageously be used. The piezoelectric ultracapacitor of the present invention may be used in various contexts, including power generation, switching and control and memory. An elastomeric piezoelectric ultracapacitor, along with methods of making and operating such a device, is also disclosed. The elastomeric piezoelectric ultracapacitor utilizes the voltage generation capabilities of a piezoelectric ultracapacitor and the generator mode operation of an elastomer actuator, combined and cooperating in novel ways, to provide improved energy generation capabilities.

Abstract: A standard automotive tire is altered to include a piezoelectric layer coupled to a battery driven propulsion system. The weight of the automobile when moving creates a force that presses against the portion of the piezoelectric layer between the automobile and the road, thereby creating a voltage according to the piezoelectric effect. Electrodes couple the layer to the battery driven propulsion system, preferably through an inductive coupling arrangement, causing a useful current to flow and assist in propelling the car. Piezoelectric materials create a piezoelectric voltage only when a force is applied to the material, or when the force is released. Placement of the piezoelectric material in the tire causes the gravitational force of the automobile (i.e., its weight) to be asserted against a varying portion of the piezoelectric material while the car is moving. A series of electrical pulses is thereby created, vastly increasing the amount of energy that can be harvested from the piezoelectric material.

Abstract: A Seebeck solar cell device is disclosed, combining both photovoltaic and thermoelectric techniques. The device may be formed using, for example, a conventional photovoltaic cell formed from a doped silicon wafer. The material used to form conductors to the front and rear regions of the cell are chosen for their thermoelectric characteristics, including the sign, or polarity, of their Seebeck coefficients. The distal portion of each conductor is insulated from the solar and waste heat and, in some embodiments, is also coupled to a cooling mechanism. Multiple such devices can be connected in series or parallel.