The present subject matter is directed to a luminogen exhibiting aggregation induced emission, wherein T1, T2, and T3 comprise one or more polyynes as a conjugated bridge. The present subject matter is also directed to an AIEgen comprising a hydrophilic pyridium group as a strong electron-withdrawing group; a piperazine group as an electron-donating group; and a α-Cyanostilbene; wherein the AIEgen exhibits aggregation induced emission. The present subject matter is directed to a method of synthesizing an AIEgen and is further directed to a method of labeling comprising incubating a subject having cells with a conjugate formed by conjugating an AIEgen with an antibody; and selectively labeling desired cells by turn-on imaging, wherein labeling occurs when the desired cells are selectively stained by fluorescent emission of the AIEgen upon degradation of the antibody after cellular internalization of the conjugate through endocytosis.

The present subject matter is directed to a luminogen exhibiting aggregation induced emission, wherein T1, T2, and T3 comprise one or more polyynes as a conjugated bridge. The present subject matter is also directed to an AIEgen comprising a hydrophilic pyridium group as a strong electron-withdrawing group; a piperazine group as an electron-donating group; and a α-Cyanostilbene; wherein the AIEgen exhibits aggregation induced emission. The present subject matter is directed to a method of synthesizing an AIEgen and is further directed to a method of labeling comprising incubating a subject having cells with a conjugate formed by conjugating an AIEgen with an antibody; and selectively labeling desired cells by turn-on imaging, wherein labeling occurs when the desired cells are selectively stained by fluorescent emission of the AIEgen upon degradation of the antibody after cellular internalization of the conjugate through endocytosis.

Compounds of formula (I) wherein, R.sup.1, R.sup.2, R.sup.3, R.sup.4a, R.sup.4b and R.sup.5 are described herein, or a stereoisomer, enantiomer or tautomer thereof or mixtures thereof, or a pharmaceutically acceptable salt or solvate thereof, are described herein, as well as other compounds. These compounds are useful in treating inflammation and/or pain. Compositions comprising a compound of the invention are also disclosed, as are methods of using the compounds to treat inflammation and/or pain.

The present invention provides compounds useful as inhibitors of ATP citrate lyase (ACLY), compositions thereof, and methods of using the same.

Compositions and methods based on the use of mutated HIV-1 gp120 polypeptides having amino acid substitutions at positions 61, 105, 108, 375, 474, 475 and 476 are described. These mutated HIV-1 gp120 polypeptides, which make the HIV env protein more amenable to adopt specific conformations when contacted with gp120 ligands, may be useful as vaccines or tools to identify and characterize agents modulating HIV infection.

Compositions and methods based on the use of mutated HIV-1 gp120 polypeptides having amino acid substitutions at positions 61, 105, 108, 375, 474, 475 and 476 are described. These mutated HIV-1 gp120 polypeptides, which make the HIV env protein more amenable to adopt specific conformations when contacted with gp120 ligands, may be useful as vaccines or tools to identify and characterize agents modulating HIV infection.

The present invention relates to an optical sensing element for detection of a narcotic, the optical sensing element comprising a fluorescent sensing compound provided on a substrate, wherein emission of the fluorescent sensing compound is quenched in the presence of the narcotic, and wherein the fluorescent sensing compound is non-polymeric and comprises an electron donor moiety, an electron acceptor moiety and a moiety that influences solubility of the compound in a solvent. Sensing devices incorporating the sensing element and methods of detecting narcotics are also described.

The present invention relates to an optical sensing element for detection of a narcotic, the optical sensing element comprising a fluorescent sensing compound provided on a substrate, wherein emission of the fluorescent sensing compound is quenched in the presence of the narcotic, and wherein the fluorescent sensing compound is non-polymeric and comprises an electron donor moiety, an electron acceptor moiety and a moiety that influences solubility of the compound in a solvent. Sensing devices incorporating the sensing element and methods of detecting narcotics are also described.

The present specification relates to a compound containing nitrogen, and a color conversion film, a backlight unit, and a display device, including the same.

A compound represented by the formula (1) has excellent lasing properties. G.sup.1 and G.sup.2 are H or substituent; FL.sup.1 and FL.sup.2 are represented by the formula (2); BT is represented by the formula (4); and n1, n2 and m are 1 to 5.

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