The electron tunneling device includes first and second non-insulating layers spaced apart such that a given voltage can be provided therebetween from solar power.
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Abstract: The electron tunneling device includes first and second non-insulating layers spaced apart such that a given voltage can be provided therebetween. The device also includes an arrangement disposed between the non-insulating layers and configured to serve as a transport of electrons between the non-insulating layers. This arrangement includes a first layer of an amorphous material such that using only the first layer of amorphous material in the arrangement would result in a given value of a parameter in the transport of electrons, with respect to the given voltage. The arrangement further includes a second layer of material, which is configured to cooperate with the first layer of amorphous material such that the transport of electrons includes, at least in part, transport by tunneling, and such that the parameter, with respect to the given voltage, is increased above the given value of the parameter. Background: The present invention relates generally to optoelectronic devices and, more particularly, to electron tunneling devices, especially for solar energy conversion. Recent energy crises have highlighted the growing demands placed on traditional sources of power, such as gas and electricity. With rising energy costs, it is desirable to find alternative power sources to augment traditional power sources such as hydroelectric and thermonuclear. Solar energy conversion provides such an alternative by tapping into the readily available power of the sun.