Abstract: A building structure comprising a first film and a second film. The first film and the second film are each impregnated with L-Dopa. The building structure further includes regolith bulk material between the first film and the second film.

Abstract: A structural molecular building block is provided and includes first structural molecules arranged in a three-dimensional structure and second structural molecules. Each of the second structural molecules is attached at a first region thereof to one of the first structural molecules to form the three-dimensional structure into a tessellating molecular building block and has a second region thereof for connection to a corresponding structural molecule of an additional tessellating molecular building block. The second structural molecules facilitate tessellation of the tessellating molecular building block with additional tessellating molecular building blocks to encourage growth of a macroscopic crystal.

Abstract: An apparatus includes a surface acoustic wave (SAW) sensor. The SAW sensor includes a piezoelectric substrate. The SAW sensor also includes first and second interdigitating transistors over the piezoelectric substrate. The first interdigitating transistor is configured to convert an input electrical signal into an acoustic wave. The second interdigitating transistor is configured to convert the acoustic wave into an output electrical signal. The piezoelectric substrate is configured to transport the acoustic wave. The SAW sensor further includes a detection layer over the piezoelectric substrate and positioned at least partially between the first and second interdigitating transistors. The detection layer includes (i) antibodies configured to bind to one or more biological analytes and (ii) a hydrogel layer over the antibodies.

Abstract: The present disclosure provides methods of generating recombinant bacteriophage genomes via semi-synthesis. Specifically, the present technology provides methods of integrating a heterologous nucleic acid sequence into a bacteriophage genome, and isolating recombinant bacteriophages that express the heterologous nucleic acid sequence.

Abstract: A building structure comprising a first film and a second film. The first film and the second film are each impregnated with L-Dopa. The building structure further includes regolith bulk material between the first film and the second film.

Abstract: A structural molecular building block is provided and includes first structural molecules arranged in a three-dimensional structure and second structural molecules. Each of the second structural molecules is attached at a first region thereof to one of the first structural molecules to form the three-dimensional structure into a tessellating molecular building block and has a second region thereof for connection to a corresponding structural molecule of an additional tessellating molecular building block. The second structural molecules facilitate tessellation of the tessellating molecular building block with additional tessellating molecular building blocks to encourage growth of a macroscopic crystal.

Abstract: An apparatus includes a surface acoustic wave (SAW) sensor. The SAW sensor includes a piezoelectric substrate. The SAW sensor also includes first and second interdigitating transistors over the piezoelectric substrate. The first interdigitating transistor is configured to convert an input electrical signal into an acoustic wave. The second interdigitating transistor is configured to convert the acoustic wave into an output electrical signal. The piezoelectric substrate is configured to transport the acoustic wave. The SAW sensor further includes a detection layer over the piezoelectric substrate and positioned at least partially between the first and second interdigitating transistors. The detection layer includes (i) antibodies configured to bind to one or more biological analytes and (ii) a hydrogel layer over the antibodies.

Abstract: The present disclosure provides methods of generating recombinant bacteriophage genomes via semi-synthesis. Specifically, the present technology provides methods of integrating a heterologous nucleic acid sequence into a bacteriophage genome, and isolating recombinant bacteriophages that express the heterologous nucleic acid sequence.