Abstract: Embodiments of the present invention provide devices methods for sequencing DNA using arrays of reaction cavities containing sensors to monitor changes in solutions contained in the reaction cavities. Additional embodiments provide devices and methods for sequencing DNA using arrays of reaction cavities that allow for optical monitoring of solutions in the reaction cavities. Test and fill reaction schemes are disclosed that allow DNA to be sequenced. By sequencing DNA using parallel reactions contained in large arrays, DNA can be rapidly sequenced.

Abstract: Metallic nanoclusters capable of providing an enhanced Raman signal from an organic Raman-active molecule incorporated therein are provided. The nanoclusters may be further functionalized, for example, with coatings and layers, such as adsorption layers, metal coatings, silica coatings, probes, and organic layers. The nanoclusters are generally referred to as COINs (composite organic inorganic nanoparticles) and are capable of acting as sensitive reporters for analyte detection. A variety of organic Raman-active compounds and mixtures of compounds can be incorporated into the nanocluster.

Abstract: Metallic nanoclusters capable of providing an enhanced Raman signal from an organic Raman-active molecule incorporated therein are provided. The nanoclusters may be further functionalized, for example, with coatings and layers, such as adsorption layers, metal coatings, silica coatings, probes, and organic layers. The nanoclusters are generally referred to as COINs (composite organic inorganic nanoparticles) and are capable of acting as sensitive reporters for analyte detection. A variety of organic Raman-active compounds and mixtures of compounds can be incorporated into the nanocluster.

Abstract: Embodiments of the present invention provide devices methods for sequencing DNA using arrays of reaction cavities containing sensors to monitor changes in solutions contained in the reaction cavities. Additional embodiments provide devices and methods for sequencing DNA using arrays of reaction cavities that allow for optical monitoring of solutions in the reaction cavities. Test and fill reaction schemes are disclosed that allow DNA to be sequenced. By sequencing DNA using parallel reactions contained in large arrays, DNA can be rapidly sequenced.

Abstract: Embodiments of the present invention provide devices and methods for detecting, identifying, distinguishing, and quantifying modification states of proteins and peptides using Surface Enhanced Raman (SERS) and Raman spectroscopy. Applications of embodiments of the present invention include, for example, proteome wide modification profiling and analyses with applications in disease diagnosis, prognosis and drug efficacy studies, enzymatic activity profiling and assays.

Abstract: Embodiments of the present invention provide devices and methods for detecting, identifying, distinguishing, and quantifying modifications to nucleic acids, proteins, and peptides using SERS and Raman spectroscopy. Applications of embodiments of the present invention include proteome wide modification profiling and analyses with applications in disease diagnosis, prognosis and drug efficacy studies, enzymatic activity profiling and assays.