Abstract: A method of making thin films of sodium fluorides and their derivatives by atomic layer deposition (“ALD”). A sodium precursor is exposed to a substrate in an ALD reactor. The sodium precursor is purged, leaving the substrate with a sodium intermediate bound thereon. A fluorine precursor is exposed to the bound sodium intermediate in the ALD reactor. The fluorine precursor is purged and a sodium fluoride film is formed on the substrate.

Abstract: A method of making thin films of sodium fluorides and their derivatives by atomic layer deposition (“ALD”). A sodium precursor is exposed to a substrate in an ALD reactor. The sodium precursor is purged, leaving the substrate with a sodium intermediate bound thereon. A fluorine precursor is exposed to the bound sodium intermediate in the ALD reactor. The fluorine precursor is purged and a sodium fluoride film is formed on the substrate.

Abstract: Transition metal dichalcogenides (TMDs) are deposited as thin layers on a substrate. The TMDs may be grown on oxide substrates and may have a tunable TMD-oxide interface.

Abstract: The nucleotides can then be polymerized into oligomers. The design of the oligomers will depend on the design of the overall architecture. Simple architectures may be designed by any methods. However, more complex architectures may be design using software, such as caDNAno (as described at cadnano.org/docs.html, and herein incorporated by reference), to minimize errors and time. The user may input the desired shape of the architecture into the software and once finalized, the software will provide the oligomer sequences of the bricks to create the desired architecture. The length of the oligomers may be from about 10 to about 10,000, or less than about 9,000, less than about 8,000, less than about 5,000 nucleotides in length. The length of the oligomer will be optimized for the type of architecture used.

Abstract: The present invention provides compositions and methods for colorimetric detection schemes for detecting a variety of biomolecules. The compositions and methods employ DNA hybridization chain reaction for catalytic aggregation of gold nanoparticles. In this catalytic aggregation scheme, a single target DNA strand triggers the formation of multiple inter-particle linkages in contrast to the single linkage formed in conventional direct aggregation schemes.

Abstract: The present disclosure is directed to an all-optical excitonic switch comprising one or two oligonucleotides that comprises in turn donor/acceptor chromophores and photochromic nucleotide and is assembled with nanometer scale precision using DNA nanotechnology. The disclosed all-optical excitonic switches operate successfully in both liquid and solid phases, exhibiting high ON/OFF switching contrast with no apparent cyclic fatigue. The all-optical excitonic switches disclosed herein have small footprint and volume, low energy requirement, and potential ability to switch at speeds in tens of picosecond.

Abstract: Compositions and methods for encoding and retrieving data into nucleic acid memory for storage. More specifically, data is encoded into spatial locations within a nucleic acid architecture, which allows the data to be retrieved using super resolution microscopy. The data is then interrogated for errors, the errors corrected, and the data is then decoded.

Abstract: Transition metal dichalcogenides (TMDs) are deposited as thin layers on a substrate. The TMDs may be grown on oxide substrates and may have a tunable TMD-oxide interface.

Abstract: By bringing two chromophores close enough together such that near-filed interactions result in a change in absorption and can be measured by absorbance or visually observed with the eye. Examples of near-field interactions that could cause such an effect include electromagnetic dipole-dipole interactions and interactions resulting from orbital overlap as the chromophores are bought very proximate to one another. The change in absorption results in a color change and stronger absorption which produces a brighter color. The manner in which the multiple chromophores are placed close enough together is by using nucleotide self-assembly.

Abstract: The present invention provides compositions and methods for colorimetric detection schemes for detecting a variety of biomolecules. The compositions and methods employ DNA hybridization chain reaction for catalytic aggregation of gold nanoparticles. In this catalytic aggregation scheme, a single target DNA strand triggers the formation of multiple inter-particle linkages in contrast to the single linkage formed in conventional direct aggregation schemes.

Abstract: The present invention provides compositions and methods for colorimetric detection schemes for detecting a variety of biomolecules. The compositions and methods employ DNA hybridization chain reaction for catalytic aggregation of gold nanoparticles. In this catalytic aggregation scheme, a single target DNA strand triggers the formation of multiple inter-particle linkages in contrast to the single linkage formed in conventional direct aggregation schemes.

Abstract: A method of making nanostructures using a self-assembled monolayer of organic spheres is disclosed. The nanostructures include bowl-shaped structures and patterned elongated nanostructures. A bowl-shaped nanostructure with a nanorod grown from a conductive substrate through the bowl-shaped nanostructure may be configured as a field emitter or a vertical field effect transistor. A method of separating nanoparticles of a desired size employs an array of bowl-shaped structures.