Abstract: Methods, devices, and systems for performing digital assays are provided. In certain aspects, the methods, devices, and systems can be used for the amplification and detection of nucleic acids. In certain aspects, the methods, devices, and systems can be used for the recognition, detection, and sizing of droplets in a volume. Also provided are compositions and kits suitable for use with the methods and devices of the present disclosure.

Abstract: Provided herein, among other aspects, are methods and apparatuses for analyzing particles in a sample. In some aspects, the particles can be analytes, cells, nucleic acids, or proteins and contacted with a tag, partitioned into aliquots, detected by a ranking device, and isolated. The methods and apparatuses provided herein may include a microfluidic chip. In some aspects, the methods and apparatuses may be used to quantify rare particles in a sample, such as cancer cells and other rare cells for disease diagnosis, prognosis, or treatment.

Abstract: Methods, devices, and systems for performing digital assays are provided. In certain aspects, the methods, devices, and systems can be used for the amplification and detection of nucleic acids. In certain aspects, the methods, devices, and systems can be used for the recognition, detection, and sizing of droplets in a volume. Also provided are compositions and kits suitable for use with the methods and devices of the present disclosure.

Abstract: The present invention provides, among other aspects, functionalized chromophoric polymer dots comprising a hydrophobic core and a hydrophilic cap, and bioconjugates thereof. Also provided are improved methods for preparing functionalized chromophoric polymer dots. Methods for in vivo imaging and molecular labeling are also disclosed.

Abstract: Systems, methods, and devices for discretizing and analyzing fluidic samples are provided. In one aspect, a microfluidic array for discretizing a fluidic sample comprises one or more flow channels and a plurality of fluidic compartments in fluidic communication with the one or more flow channels. In another aspect, a system for discretizing and analyzing fluidic samples comprises a rotor assembly shaped to receive a microfluidic device.

Abstract: Lyophilized chromophoric polymer dot compositions are provided. Also disclosed are methods of making and using the lyophilized compositions, methods of dispersing the lyophilized compositions in aqueous solutions and kits supplying the compositions.

Abstract: Methods and systems for digital measurements are provided. In an embodiment, the method includes producing a plurality of droplets, wherein at least one of the droplets of the plurality of droplets contains an analyte molecule from a sample; measuring at least a first portion of the plurality of droplets to determine individual volumes of droplets in the first portion of the plurality of droplets; analyzing at least a second portion of the plurality of droplets to determine a number of droplets in the second portion of the plurality of droplets that contain the analyte molecule; and using individual volumes of the droplets in the first portion of the plurality of droplets and the number of droplets in the second portion of the plurality of droplets that contain the analyte molecule to determine the concentration of the analyte molecule in the sample.

Abstract: Devices, systems and apparatuses for the discretization and manipulation of sample volumes are provided. Related methods are also provided.

Abstract: The present disclosure provides encoded chromophoric polymer particles that are capable of, for example, optical and/or biomolecular encoding of analytes. The present disclosure also provides suspensions comprising a plurality of encoded chromophoric polymer particles. The present disclosure also provides methods of using the encoded chromophoric polymer particles and systems for performing multiplex analysis with encoded chromophoric polymer particles.

Abstract: The present disclosure provides metal-containing (MC) semiconducting (SC) Pdots (MC-SC-Pdots) with beneficial functionalities in both cellular imaging and manipulation, among other applications. The Pdots comprise at least one nanoparticle comprising at least one metal, and a semiconducting polymer associated with the nanoparticle.

Abstract: The present invention provides, among other aspects, functionalized chromophoric polymer dots comprising a hydrophobic core and a hydrophilic cap, and bioconjugates thereof. Also provided are improved methods for preparing functionalized chromophoric polymer dots. Methods for in vivo imaging and molecular labeling are also disclosed.

Abstract: Polymers, monomers, narrow-band absorbing polymers, narrow-band absorbing monomers, absorbing units, polymer dots, and related methods are provided. Bright, luminescent polymer nanoparticles with narrow-band absorptions are provided. Methods for synthesizing absorbing monomers, methods for synthesizing the polymers, preparation methods for forming the polymer nanoparticles, and applications for using the polymer nanoparticles are also provided.

Abstract: The present disclosure provides encoded chromophoric polymer particles that are capable of, for example, optical and/or biomolecular encoding of analytes. The present disclosure also provides suspensions comprising a plurality of encoded chromophoric polymer particles. The present disclosure also provides methods of using the encoded chromophoric polymer particles and systems for performing multiplex analysis with encoded chromophoric polymer particles.

Abstract: Devices, systems and apparatuses for the discretization and manipulation of sample volumes are provided. Related methods are also provided.

Abstract: The present disclosure provides a method of measuring the quantity of analyte molecules. In some aspects, the method comprises compartmentalizing a sample with binding molecules conjugated to synthetic nucleic acid molecules such that the interaction of the binding molecules with the analyte molecules brings the nucleic acid molecules into proximity. Proximity triggers reactions that result in an optical signal, such as fluorescence, in analyte-containing compartments which can be counted to determine the quantity of analyte present.

Abstract: The present disclosure provides organic-inorganic hybrid polymer particles, which have desirable surface chemistry and optical properties that make them particularly suitable for biological and optical applications. The present disclosure also provides methods of making organic-inorganic hybrid polymer particles. The present disclosure also provides methods of using the organic-inorganic hybrid polymer particles for biological and optical applications.

Abstract: The present disclosure provides organic-inorganic hybrid polymer particles, which have desirable surface chemistry and optical properties that make them particularly suitable for biological and optical applications. The present disclosure also provides methods of making organic-inorganic hybrid polymer particles. The present disclosure also provides methods of using the organic-inorganic hybrid polymer particles for biological and optical applications.

Abstract: Methods, systems, compositions and kits are provided for the analysis of target molecules using chromophoric polymer dots conjugated to biomolecules. The use of chromophoric polymer dots improves detection sensitivity and stability when compared with existing techniques. In some aspects, methods, systems, and kits are provided for detecting a target protein using chromophoric polymer dots conjugated to biomolecules in a Western blot analysis. Related methods, systems, compositions and kits are also provided.

Abstract: Methods, devices, and systems for performing digital assays are provided. In certain aspects, the digital assays comprise compartmentalized volumes. In certain aspects, the methods, devices, and systems can be used for the amplification and detection of nucleic acids. In certain aspects, the methods, devices, and systems can be used for the recognition, detection, and sizing of droplets in a volume.

Abstract: Methods, systems, compositions and kits are provided for the analysis of target molecules using chromophoric polymer dots conjugated to biomolecules. The use of chromophoric polymer dots improves detection sensitivity and stability when compared with existing techniques. In some aspects, methods, systems, and kits are provided for detecting a target protein using chromophoric polymer dots conjugated to biomolecules in a Western blot analysis. Related methods, systems, compositions and kits are also provided.