Abstract: The present disclosure relates to compositions and methods for isolating nucleic acids from a sample comprising nucleic acids, such as physiologically relevant samples or environmental samples. The sample can be incubated with a population of polymers that bind the nucleic acids to form a coacervate in a liquid-liquid phase separated solution. Incubation can be performed at a temperature above a concentration dependent phase separation transition temperature of the polymers. The resulting coacervate can be decanted from the liquid-liquid phase separated solution. The nucleic acids can be separated from the polymers by adding a salt solution, adjusting the pH, or both to disrupt an electrostatic interaction between the nucleic acids and the polymers.

Abstract: Nano- to microscale liquid coacervate particles are provided. The liquid coacervate particles are produced by a process including stimulating a population of liquid droplets containing one or a mixture of components to induce a phase separation point of a first component, and maintaining stimulation at the phase separation point to form a coacervate domain of the first component within each of the droplets to form the liquid coacervate particles. The self-assembled nano, meso, micro and macro liquid coacervate particles and related coated substrates can have utility in drug delivery, bioanalytical systems, controlled cell culture, tissue engineering, biomanufacturing and drug discovery.

Abstract: Methods and apparatus for acoustically assisted droplet generation with or without cell encapsulation.

Abstract: The presently disclosed subject matter relates to modular peptide-substrate protease assays, in particular low cost and reliable methodology for measurement of protease and other enzyme activity that may be detected by optical turbidimetry or visual observation. The presently disclosed subject matter also relates to methods of using the disclosed assays within methods of detecting and monitoring diseases, methods of drug discovery, as well as in detection devices and systems.

Abstract: A kit for detection of an analyte of interest in a liquid sample, and methods of using, are provided. The kit may include a pipette and a disposable pipette tip configured to engage the pipette. The pipette tip may define an acoustic channel configured for allowing flow-through of a liquid. The kit may also include a vibratory device in communication with the acoustic channel and configured for imparting a vibratory force thereto. The impartation of the vibratory force may create standing acoustic waves, thereby separating any negative acoustic contrast particles (NACPs) from the remaining contents of the liquid sample. The NACPs may capable of biospecific recognition of the analyte of interest, thereby separating the analytes of interest, which can then be collected or analyzed accordingly.

Abstract: Nano- to microscale liquid coacervate particles are provided. The liquid coacervate particles are produced by a process including stimulating a population of liquid droplets containing one or a mixture of components to induce a phase separation point of a first component, and maintaining stimulation at the phase separation point to form a coacervate domain of the first component within each of the droplets to form the liquid coacervate particles. The self-assembled nano, meso, micro and macro liquid coacervate particles and related coated substrates can have utility in drug delivery, bioanalytical systems, controlled cell culture, tissue engineering, biomanufacturing and drug discovery.

Abstract: A composition and method is provided for synthesizing silicone particles with narrow size distributions and tunable degrees of crosslinking for encapsulation of an active ingredient or multiple active ingredients in the matrix of the particles for controlled release. The method comprises agitating at least one type of silane monomer having two, three or four siloxane bonds in an acidic aqueous solution under conditions sufficient to allow for hydrolysis of the monomers, adding a catalyst and a solution comprising a co-solvent and the active ingredient(s) to the acidic aqueous solution, and continuing to agitate the combined solution to allow for a condensation reaction and formation of silicone particles with a narrow size distribution encapsulating at least a portion of the active ingredient(s). The tunable degree of crosslink density of the particles formed is based on the ratios of the monomers used, which enables controlled release of the active ingredient(s) from the particles.

Abstract: Disclosed herein are devices and methods for active biofouling control. According to an aspect, a device comprising a surface for contacting a biological material. The device also comprises a mechanism comprising a structure configured to change the surface between a first shape and a second shape. The change from the first shape to the second shape deforms the surface beyond a critical strain for debonding of a fouling agent from the surface when the fouling agent has bonded to the surface in the first shape.

Abstract: A kit for detection of an analyte of interest in a liquid sample, and methods of using, are provided. The kit may include a pipette and a disposable pipette tip configured to engage the pipette. The pipette tip may define an acoustic channel configured for allowing flow-through of a liquid. The kit may also include a vibratory device in communication with the acoustic channel and configured for imparting a vibratory force thereto. The impartation of the vibratory force may create standing acoustic waves, thereby separating any negative acoustic contrast particles (NACPs) from the remaining contents of the liquid sample. The NACPs may capable of biospecific recognition of the analyte of interest, thereby separating the analytes of interest, which can then be collected or analyzed accordingly.

Abstract: Catheters for debonding fouling agents from an interior surface thereof and related methods are disclosed. According to an aspect, a catheter includes a lumen defining a flexible, interior surface that extends substantially along a length of the lumen for contacting a biological material. The catheter also includes cavities extending along the length and positioned within the lumen adjacent to the surface. The cavities each define a cavity opening. The catheter also includes an inflation hub defining hub openings connected to respective cavity openings. The inflation hub defines a pump port configured to interface with a pump. The inflation hub defines one or more fluid pathways that extend between the hub openings and the pump port for permitting flow of gas between the pump and the cavities.

Abstract: A kit for detection of an analyte of interest in a liquid sample, and methods of using, are provided. The kit may include a pipette and a disposable pipette tip configured to engage the pipette. The pipette tip may define an acoustic channel configured for allowing flow-through of a liquid. The kit may also include a vibratory device in communication with the acoustic channel and configured for imparting a vibratory force thereto. The impartation of the vibratory force may create standing acoustic waves, thereby separating any negative acoustic contrast particles (NACPs) from the remaining contents of the liquid sample. The NACPs may capable of biospecific recognition of the analyte of interest, thereby separating the analytes of interest, which can then be collected or analyzed accordingly.

Abstract: Acoustically responsive particles and methods are provided for their use. Methods are provided for making and using tunable, monodisperse acoustically responsive particles and negative contrast acoustic particles, wherein the particles can contain a functional group available for covalent modification.

Abstract: The presently disclosed subject matter is directed to compositions, methods, and systems (e.g., platforms) comprising the same, the systems comprising, consisting of, or consisting essentially of micro- and macro-hydrogels that are formed from polypeptide micelles. The systems have enhanced mechanical properties that can be useful in a wide variety of applications, can be used for controlled release of drug-loaded micelles, and can be designed to reversibly assemble and disassemble on demand.

Abstract: A composition and method is provided for synthesizing silicone particles with narrow size distributions and tunable degrees of crosslinking for encapsulation of an active ingredient or multiple active ingredients in the matrix of the particles for controlled release. The method comprises agitating at least one type of silane monomer having two, three or four siloxane bonds in an acidic aqueous solution under conditions sufficient to allow for hydrolysis of the monomers, adding a catalyst and a solution comprising a co-solvent and the active ingredient(s) to the acidic aqueous solution, and continuing to agitate the combined solution to allow for a condensation reaction and formation of silicone particles with a narrow size distribution encapsulating at least a portion of the active ingredient(s). The tunable degree of crosslink density of the particles formed is based on the ratios of the monomers used, which enables controlled release of the active ingredient(s) from the particles.

Abstract: Acoustically responsive particles and methods are provided for their use. Methods are provided for making and using tunable, monodisperse acoustically responsive particles and negative contrast acoustic particles, wherein the particles can contain a functional group available for covalent modification.

Abstract: Nano- to microscale liquid coacervate particles are provided. The liquid coacervate particles are produced by a process including stimulating a population of liquid droplets containing one or a mixture of components to induce a phase separation point of a first component, and maintaining stimulation at the phase separation point to form a coacervate domain of the first component within each of the droplets to form the liquid coacervate particles. The self-assembled nano, meso, micro and macro liquid coacervate particles and related coated substrates can have utility in drug delivery, bioanalytical systems, controlled cell culture, tissue engineering, biomanufacturing and drug discovery.

Abstract: A kit for detection of an analyte of interest in a liquid sample, and methods of using, are provided. The kit may include a pipette and a disposable pipette tip configured to engage the pipette. The pipette tip may define an acoustic channel configured for allowing flow-through of a liquid. The kit may also include a vibratory device in communication with the acoustic channel and configured for imparting a vibratory force thereto. The impartation of the vibratory force may create standing acoustic waves, thereby separating any negative acoustic contrast particles (NACPs) from the remaining contents of the liquid sample. The NACPs may capable of biospecific recognition of the analyte of interest, thereby separating the analytes of interest, which can then be collected or analyzed accordingly.

Abstract: The presently disclosed subject matter relates to modular peptide-substrate protease assays, in particular low cost and reliable methodology for measurement of protease and other enzyme activity that may be detected by optical turbidimetry or visual observation. The presently disclosed subject matter also relates to methods of using the disclosed assays within methods of detecting and monitoring diseases, methods of drug discovery, as well as in detection devices and systems.

Abstract: The presently disclosed subject matter is directed to compositions, methods, and systems (e.g., platforms) comprising the same, the systems comprising, consisting of, or consisting essentially of micro- and macro-hydrogels that are formed from polypeptide micelles. The systems have enhanced mechanical properties that can be useful in a wide variety of applications, can be used for controlled release of drug-loaded micelles, and can be designed to reversibly assemble and disassemble on demand.

Abstract: An affordable flow cytometry system with a significantly increased analytical rate, volumetric sample delivery and usable particle size including a light beam that interrogates multiple flow streams so as to provide excitation across all of the streams, and an optical objective configured to collect light from the sample streams and image the light onto an array detector.