Abstract: The present invention relates to functionalizing a surface of an organic material. For example, surfaces of materials having C—H bonds, such as polymers having C—H bonds, can be functionalized. In certain embodiments, a heterobifunctional molecule having a photoactive anchor, a spacer, and a terminal functional group is applied to the surface of an organic material that contains one or more C—H bonds. The heterobifunctional molecule can be bound to any surface having C—H bonds as the photoactive anchor can react with C—H bonds upon irradiation. The terminal functional group has a “click” functionality which can be utilized to functionalize the surface of the organic material with any desired functionalizing moiety having the orthogonal click functionality.

Abstract: The invention relates to novel photo-generated carbohydrate arrays and methods of their use to detect the presence of one or more agents in a sample. The invention also relates to a high-throughput strategy to facilitate the identification and immunological characterization of pathogen-specific carbohydrates, including those of Bacillus anthracis. The invention can be used to determine the presence of a pathogen and whether a subject has been exposed to a pathogen, such as by screening for pathogen-specific antibodies.

Abstract: The invention provides for methods for producing water-soluble iron oxide nanoparticles comprising encapsulating the nanoparticles in phospholipids micelles. Also provided are methods for conjugating the inventive nanoparticles via functionalized phospholipids to a target molecule, such as an antibody. The invention further provides methods for using the nanoparticle-antibody conjugate of the invention as a contrast agent to image specific cells or proteins in a subject using fluorescent and magnetic imaging techniques.

Abstract: Compounds and methods for controlling the surface properties are described. Compounds of the invention can form radicals upon exposure to irradiation, which can then react with nearby molecules to alter the surface properties of various substrates. The invention can provide surfaces that are resistant to dewetting, surfaces that have immobilized molecules such as carbohydrates and polymers immobilized, and surfaces that have metals deposited on the surface. The invention can be utilized in a wide range of application, such as sensors, microreactors, microarrays, electroless deposition of metals, and the like.

Abstract: This invention provides a process for making 3?-O-allyl-dGTP-PC-Biodopy-FL-510, 3?-O-allyl-dATP-PC-ROX, 3?-O-allyl-dCTP-PC- and 3?-O-allyl-dUTP-PC-R6G, and related methods.

Abstract: The present invention relates to methods for preparing degradable model networks from any monomer functionality with any degradation methodology. It is based on the use of Atom-Transfer Radical Polymerization and CLICK chemistry to form the desired product.

Abstract: This invention provides methods, compositions and kits for immunosensing using photocleavable mass tags.

Abstract: Methods for controlling surface functionality of metal oxide nanoparticles, nanoparticles having controlled surface functionality, and uses thereof are described herein. Methods for controlling the surface functionality of a metal oxide nanoparticle are can include attaching a ligand to a metal oxide nanoparticle, where the ligand can include a functional portion that is capable of forming an irreversible bond with an object at a site that is complementary to the functional portion without reacting with other reactive sites that may be present. Moreover, metal oxide nanoparticles having versatile ligands can include an anchoring portion that binds to the surface of the metal oxide nanoparticle and a functional portion that is capable of forming an irreversible bond with an object at a site that is complementary to the functional portion without reacting with other reactive sites that may be present.

Abstract: A terminally chlorinated normal alkane hydrocarbon is produced at high terminal selectivity, by adsorbing a normal alkane into a select zeolite and chlorinating the adsorbed alkane in the zeolite. The zeolite may be of a type having internal channels of diameter slightly larger than that of the alkane, and substantially no internal chambers, and may be selected from the pentasil family of zeolites. The chlorination reaction may be conducted under heating to enhance terminal selectivity even further, in many cases to levels approaching 100%.

Abstract: A terminally chlorinated normal alkane hydrocarbon is produced at high terminal selectivity, by adsorbing a normal alkane into a select zeolite and chlorinating the adsorbed alkane in the zeolite. The zeolite may be of a type having internal channels of diameter slightly larger than that of the alkane, and substantially no internal chambers, and may be selected from the pentasil family of zeolites. The chlorination reaction may be conducted under heating to enhance terminal selectivity even further, in many cases to levels approaching 100%.

Abstract: Emulsion polymerization with initiators that produce triplet radical pairs is controlled by the application of a magnetic field. Both the rate of polymerization and the molecular weight of the polymer can be controlled. Emulsion polymerization with oil-soluble initiators is enabled to proceed to high conversions at convenient rates and to produce polymers having molecular weights comparable to or higher than those achievable with conventional water-soluble initiators.

Abstract: Separation and enrichment of isotopes are effected and rates and products of reactions are controlled by methods employing magnetic isotope effect. By virtue of the invention, when dibenzyl ketone was photolyzed to partial conversion in a dimensionally restricted environment (micelles in soap solution) .sup.13 C enrichment of over 100% was achieved. The .sup.13 C enrichment was found to occur specifically at the carbonyl carbon and to be magnetic field dependent.