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An architectural construct is a synthetic material that includes a matrix characterization of different crystals. An architectural construct may be comprised of, for example, graphene, graphite, or boron nitride. It may be configured as a solid mass or as parallel layers that may be as thin as a sin

An architectural construct is a synthetic material that includes a matrix characterization of different crystals. An architectural construct may be comprised of, for example, graphene, graphite, or boron nitride. It may be configured as a solid mass or as parallel layers that may be as thin as a single atom. In large part, its configuration determines how it behaves under a variety of conditions. In implementations in which it is arranged as parallel layers, the architectural construct can be configured to behave in a desirable manner by selecting the layers' thicknesses, their composition, the amount of distance between them, and/or another variable.

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1. An architectural construct designed to facilitate micro-scale processing on a nano-scale and configured to have an acoustic resonant frequency, the architectural construct comprising: a first layer comprised of a matrix characterization of crystals and having a first thickness; anda second layer

1. An architectural construct designed to facilitate micro-scale processing on a nano-scale and configured to have an acoustic resonant frequency, the architectural construct comprising: a first layer comprised of a matrix characterization of crystals and having a first thickness; anda second layer comprised of a matrix characterization of crystals and having a second thickness,wherein: the first and second layers are arranged so that they are parallel to each other,the matrix characterization of crystals of the first layer and the matrix characterization of crystals of the second layer are arranged in (i) an aligned orientation or (ii) one or both of a translationally offset orientation and a rotationally offset orientation,the first and second layers are separated by a distance, in which a zone exists between the first and second layers,the first layer is configured to acoustically resonate at a first resonant frequency, andthe second layer is configured to acoustically resonate at a second resonant frequency,wherein the distance between the first and second layers, orientation of the matrix characterization of crystals of the first and second layers, and the first and second thicknesses are selected such that the architectural construct acoustically resonates at a predetermined resonant frequency. 2. The architectural construct of claim 1, wherein the first and second layers are separated by one or more spacer molecules or atoms. 3. The architectural construct of claim 1, wherein the first and second layers are configured on a support structure. 4. The architectural construct of claim 1, wherein the first thickness is equal to the second thickness and the first resonant frequency is equal to the second resonant frequency. 5. The architectural construct of claim 1, wherein the first and second layers are primarily comprised of boron nitride or carbon. 6. The architectural construct of claim 1, further comprising a dopant in at least one of the first and second layers. 7. The architectural construct of claim 6, wherein the dopant is presented on an edge of the first layer or the second layer. 8. An architectural construct designed to facilitate micro-scale processing on a nano-scale and configured to have a predetermined index of refraction, the architectural construct comprising: a first layer comprised of a matrix characterization of a crystal in a first portion of the architectural construct and having a first thickness; anda second layer comprised of a matrix characterization of a crystal in a second portion of the architectural construct and having a second thickness,wherein: the first and second layers are arranged so that they are parallel to each other,the matrix characterization of the first layer and the matrix characterization of the second layer are arranged in (i) an aligned orientation or (ii) one or both of a translationally offset orientation and a rotationally offset orientation,the first and second layers are separated by a distance, in which a zone exists between the first and second layers, andthe architectural construct is configured to have a predetermined index of refraction,and wherein the first and second thicknesses are different thicknesses such that the predetermined index of refraction of the first portion is different than that of the second portion. 9. The architectural construct of claim 8, wherein the first and second layers are primarily comprised of carbon or boron nitride. 10. The architectural construct of claim 8, further comprising: a third layer comprising a matrix characterization of a crystal and having a third thickness; anda fourth layer comprising a matrix characterization of a crystal and having a fourth thickness,wherein: the third and fourth layers are arranged so that they are parallel to the first and second layers,the third and the fourth layers are separated by a second distance, andthe architectural construct has a different index of refraction through the first and second layers than it does through the third and fourth layers. 11. The architectural construct of claim 8, wherein the distance between the first and second layers is selected such that the architectural construct has the predetermined index of refraction. 12. The architectural construct of claim 8, further comprising one or more spacer molecules or atoms to separate the first and second layers by the distance. 13. The architectural construct of claim 8, further comprising a dopant in at least one of the first and second layers. 14. The architectural construct of claim 13, wherein the dopant is presented on an edge of the first layer or the second layer. 15. An architectural construct designed to facilitate micro-scale processing on a nano-scale and configured to transmit radiant energy, the architectural construct comprising: a first layer comprised of a matrix characterization of a crystal and having a first thickness; anda second layer comprised of a matrix characterization of a crystal and having a second thickness,wherein: the first and second layers are arranged so that they are parallel to each other,the matrix characterization of the first layer and the matrix characterization of the second layer are arranged in (i) an aligned orientation or (ii) one or both of a translationally offset orientation and a rotationally offset orientation,the first and second layers are separated by a distance, in which a zone exists between the first and second layers, andwherein the first layer is configured to transmit radiant energy of a first particular wavelength and the second layer is configured to transmit radiant energy of a second particular wavelength through the zone between the layers. 16. The architectural construct of claim 15, wherein the distance between the first and second layers and the first and second thicknesses is selected such that the architectural construct transmits radiant energy of the particular wavelength through the zone between the layers. 17. The architectural construct of claim 15, wherein the first and second layers are separated by one or more spacer molecules or atoms. 18. The architectural construct of claim 15, wherein the first and second layers are configured on a support structure. 19. The architectural construct of claim 15, wherein the first and second layers are primarily comprised of boron nitride or carbon. 20. The architectural construct of claim 15, further comprising a dopant in at least one of the first and second layers. 21. The architectural construct of claim 20, wherein the dopant is presented on an edge of the first layer or the second layer.