Abstract: Provided herein is a microfluidic device and related method for controlling flow of different fluid components of a fluid. The microfluidic device comprises an input channel, focusing channel and an assaying channel. The microfluidic device is adapted to separate a fluid into at least two fluid components, and is further adapted to detect a target material comprised within one of the fluid components. The method comprises providing a channel, the channel having a dimension which is a function of a dimension of one of the fluid components and deliver the fluid through the channel at a set flow rate.

Abstract: Described herein are automated, integrated microfluidic device comprising a chemical reaction chip comprising for performing chemical reaction, a microscale column integrated with the chip and configured for liquid flow from the column to at least one flow channel, and wherein the fluid flow into the column is controlled by on-chip valves; and comprising at least two on-chip valves for controlling fluid flow in the microfluidic device.

Abstract: Multi-ligand capture agents comprising two or more ligands are described, and related compositions, methods and systems.

Abstract: Polynucleotide-encoded capture agents for target detection and in particular modular polynucleotide-capture agents comprising a target binding component, a scaffold component and an encoding component formed by standardized molecular units that can be coupled and decoupled in a controlled fashion, and related compositions methods and systems.

Abstract: A programmable logic array (PLA) comprising a two-dimensional array of a plurality of nanometer-scale switches is provided. Each switch comprises a pair of crossed wires which form a junction where one wire crosses another and at least one connector species connecting the pair of crossed wires in the junction. The connector species comprises a bi-stable molecule. A plurality of switches is configurable as an AND gate and a plurality of switches is configurable as an OR gate.

Abstract: Fabrication of metallic or non-metallic wires with nanometer widths and nanometer separation distances without the use of lithography. Wires are created in a two-step process involving forming the wires at the desired dimensions and transferring them to a planar substrate. The dimensions and separation of the wires are determined by the thicknesses of alternating layers of different materials that are in the form of a superlattice. Wires are created by evaporating the desired material onto the superlattice that has been selectively etched to provide height contrast between layers. The wires thus formed upon one set of superlattice layers are then transferred to a substrate.

Abstract: Provided herein are methods and systems for detecting and/or sorting targets in a sample based on the combined use of polynucleotide-encoded protein and substrate polynucleotides. The polynucleotide-encoded protein is comprised of a protein that specifically binds to a predetermined target and of an encoding polynucleotide that specifically binds to a substrate polynucleotide, wherein the substrate polynucleotide is attached to a substrate.

Abstract: A microfluidic structure and method, where the structure comprises a featureless gasket layer allowing for efficient and reproducible structure production and assembly. Layering methods allow for the use of a variety of device materials and easy assembly.

Abstract: Fabrication of metallic or non-metallic wires with nanometer widths and nanometer separation distances without the use of lithography. Wires are created in a two-step process involving forming the wires at the desired dimensions and transferring them to a planar substrate. The dimensions and separation of the wires are determined by the thicknesses of alternating layers of different materials that are in the form of a superlattice. Wires are created by evaporating the desired material onto the superlattice that has been selectively etched to provide height contrast between layers. The wires thus formed upon one set of superlattice layers are then transferred to a substrate.

Abstract: Multi-ligand capture agents comprising two or more ligands are described, and related compositions, methods and systems.

Abstract: A system and method for selecting nanometer-scaled devices. The method includes a plurality of semiconductor wires. Two adjacent semiconductor wires of the plurality of semiconductor wires are associated with a separation smaller than or equal to 100 nm. Additionally, the system includes a plurality of address lines. Each of the plurality of address lines includes a gate region and an inactive region and intersects the plurality of semiconductor wires at a plurality of intersections. The plurality of intersections includes a first intersection and second intersection. The first intersection is associated with the gate region, and the second intersection is associated with the inactive region.

Abstract: A patterning method for the creation of two-dimensional nanowire structures. Nanowire patterning methods are used with lithographical patterning approaches to form patterns in a layer of epoxy and resist material. These patterns are then transferred to an underlying thin film to produce a two-dimensional structure with desired characteristics.

Abstract: Methods and apparatus enable radiosynthesis of radiolabeled compounds using electrochemical trapping and release. The trapping and release of radioactive isotopes all occur inside a microreactor, a vial or similar device, thus eliminating the need for azeotropic drying and several dead-end filling steps, as well as the necessity to move concentrated radioisotopes from one compartment of the chip to another. These and other features allow radioisotope enrichment to be carried out internally within a radiochemical synthesis chip, providing faster and more robust operation, as well as producing very high radiochemical labeling yields.

Abstract: Microfluidic devices methods and systems for detecting a target in a fluidic component of a sample are shown. In such devices, methods and systems, the flow resistance of various channels where the sample is introduced is adjusted to control separation of the fluidic component from the sample and/or performance of assays for the detection of the target in the fluidic component in a controlled fashion. Such performance is controlled by binding affinity of the target with capture agents or diffusion of the target in the fluidic component.

Abstract: Arrays and substrates comprising a material, in particular capture agents and/or detectable targets, attached to the substrates along substantially parallel lines forming a barcoded pattern and related methods and systems.

Abstract: Methods and devices for controlling thermal conductivity and thermoelectric power of semiconductor nanowires are described. The thermal conductivity and the thermoelectric power are controlled substantially independently of the electrical conductivity of the nanowires by controlling dimensions and doping, respectively, of the nanowires. A thermoelectric device comprising p-doped and n-doped semiconductor nanowire thermocouples is also shown, together with a method to fabricate alternately p-doped and n-doped arrays of silicon nanowires.

Abstract: Provided herein are methods and systems for detecting and/or sorting targets in a sample based on the combined use of polynucleotide-encoded-protein and substrate polynucleotides. The polynucleotide-encoded protein is comprised of a protein that specifically binds to a predetermined target and of an encoding polynucleotide that specifically binds to a substrate polynucleotide, wherein the substrate polynucleotide is attached to a substrate.

Abstract: New microfluidic devices, useful for carrying out chemical reactions, are provided. The devices are adapted for on-chip solvent exchange, chemical processes requiring multiple chemical reactions, and rapid concentration of reagents.

Abstract: A method by which silicon nanostructures may be selectively coated with molecules or biomolecules using an electrochemical process. This chemical process may be employed as a method for coating many different nanostructures within a circuit, each with a different molecular or biomolecular material. The density of devices within a circuit of devices that can be coated with different molecules is limited only by the ability to electronically address each device separately. This invention has applications toward the fabrication of molecular electronic circuitry and toward the fabrication of nanoelectronic molecular sensor arrays.

Abstract: An interface system and device for interfacing a microfluidic chip system is disclosed comprising an adapter having channels and ports connecting to the microfluidic chip system and an external fluidic system. An interface, device and method are provided herein, that disclose the connection of larger volumes of an external fluidic system to smaller volumes of a microfluidic chip system and the ability to effectively purge microfluidic channels without contamination.