The present invention relates to azirine containing compounds useful as anti-angiogenesis agents and preparation thereof. Particularly the present invention relates to azirine containing compounds of formula I, Formula I wherein R.sub.1, R.sub.2 and R.sub.3 are same as defined in the description. The compounds of the present invention are with asymmetric centers this, they are mixture of enantiomers and mixture of diastereomers in some cases. The present invention includes the individual enantiomers and diastereomeric forms of the compound formula I besides the mixtures thereof.

##STR00001##

The present invention relates to azirine containing compounds useful as anti-angiogenesis agents and preparation thereof. Particularly the present invention relates to azirine containing compounds of formula I, Formula I wherein R.sub.1, R.sub.2 and R.sub.3 are same as defined in the description. The compounds of the present invention are with asymmetric centers this, they are mixture of enantiomers and mixture of diastereomers in some cases. The present invention includes the individual enantiomers and diastereomeric forms of the compound formula I besides the mixtures thereof.

##STR00001##

The present technology relates to compounds of any one of Formula I, II, IIa, III, IV, and/or V as described herein and their tautomers and/or pharmaceutically acceptable salts, compositions, and methods of uses thereof.

The present technology relates to compounds of any one of Formula I, II, IIa, III, IV, and/or V as described herein and their tautomers and/or pharmaceutically acceptable salts, compositions, and methods of uses thereof.

Pyridine compounds of Formula (1) are provided: ##STR00001##
wherein R1, R2, X, Y and Het are defined. The pyridine compounds can be used to treat or prevent plant diseases.

Pyridine compounds of Formula (1) are provided: ##STR00001##
wherein R1, R2, X, Y and Het are defined. The pyridine compounds can be used to treat or prevent plant diseases.

The present invention relates to an organic compound that can enhance the light efficiency of light extracted to the outside of an organic light-emitting element due to having a low refractive index, and thus can be effectively utilized as a material for a light efficiency improving layer provided in the organic light-emitting element. The compound according to the present invention can be employed in the light efficiency improving layer to achieve a high-efficiency, long-lifespan organic light-emitting element having improved light-emitting efficiency, color purity, and lifespan characteristics, as well as low-voltage driving characteristics, and thus can be effectively used in various lighting and display elements.

The present invention relates to an organic compound that can enhance the light efficiency of light extracted to the outside of an organic light-emitting element due to having a low refractive index, and thus can be effectively utilized as a material for a light efficiency improving layer provided in the organic light-emitting element. The compound according to the present invention can be employed in the light efficiency improving layer to achieve a high-efficiency, long-lifespan organic light-emitting element having improved light-emitting efficiency, color purity, and lifespan characteristics, as well as low-voltage driving characteristics, and thus can be effectively used in various lighting and display elements.

The disclosure features methods of analyzing a fluid extracted from a reservoir, the methods including introducing a first composition featuring a first complexing agent into a reservoir at a first location, extracting a fluid from the reservoir at a second location different from the first location, combining the fluid with a second composition featuring a concentration of a lanthanide ion to form a third composition featuring a concentration of a complex formed by the first complexing agent and the lanthanide ion, exposing a quantity of the complex to electromagnetic radiation for a first time period ending at a time t.sub.0, detecting fluorescence emission from the quantity of the complex for a second time period starting at a time t.sub.1>t.sub.0, where t.sub.1−t.sub.0 is greater than 2 microseconds, and determining information about a fluid flow path between the first location and the second location.

Organic compounds for target identification, drug discovery, chemical library production, high-throughput screening, fluorophore conjugation, chemiluminescent compound conjugation, creation of proximity induced modulators (e.g., protein degraders)/chimeric molecules, or a combination thereof are described. The compounds can contain small molecule moieties for identification of their potential targets; an isocyanate, photoactivatable groups; chemical moieties for enrichment and detection of target-small molecule moiety interactions; proximity induced modulator element; fluorophores; chemiluminescent groups; or combinations thereof.