The invention discloses a monosubstituted or polysubstituted amphiphilic hypocrellin derivative, and a preparation method and application thereof. The amphiphilic hypocrellin derivative substituted by a group containing PEG, a quaternary ammonium salt or the like prepared according to the invention has an obvious red shift in its absorption spectrum and a significantly enhanced molar extinction coefficient, compared with the parent hypocrellin, can efficiently produce singlet state oxygen and other reactive oxygen species under photosensitive conditions; has different amphiphilicities and increased biocompatibility with cells or tissues by regulating its hydrophilicity and hydrophobicity; can meet the requirements of different clinical drugs, and solves the requirements of different drug delivery methods for different drug hydrophilicity and lipophilicity. Under identical conditions, the amphiphilic hypocrellin derivative photosensitizer according to the invention has higher ability to photodynamically inactivate tumor cells than the first and second generation commercial photosensitizers.

A fluorenylaminoketone photoinitiator, a preparation method thereof, and a UV photocurable composition containing same. The photoinitiator has a compound having a structure as shown in general formula (I) or a derivative compound thereof. The fluorenylaminoketone photoinitiator may effectively improve the solubility of traditional photoinitiators and reduce the use of micromolecular active diluents, and may also have high sensitivity and good deep-layer curing. It has very good promotion effect on popularization and application of photocurable compositions, particularly colored ink systems, in the field of photocuring. A UV photocurable composition containing such a fluorenylaminoketone photoinitiator can have an advantage in terms of high sensitivity, no residue after development, good pattern integrity, no or little odor of coating layers after curing, or excellent yellowing resistance.

A fluorenylaminoketone photoinitiator, a preparation method thereof, and a UV photocurable composition containing same. The photoinitiator has a compound having a structure as shown in general formula (I) or a derivative compound thereof. The fluorenylaminoketone photoinitiator may effectively improve the solubility of traditional photoinitiators and reduce the use of micromolecular active diluents, and may also have high sensitivity and good deep-layer curing. It has very good promotion effect on popularization and application of photocurable compositions, particularly colored ink systems, in the field of photocuring. A UV photocurable composition containing such a fluorenylaminoketone photoinitiator can have an advantage in terms of high sensitivity, no residue after development, good pattern integrity, no or little odor of coating layers after curing, or excellent yellowing resistance.

A process for the preparation of (2R, 6R)-hydroxynorketamine is provided. The process requires no chromatography purification and affords the (2R, 6R)-hydroxynorketamine in eight steps with a 26% overall yield and greater than 97% purity.

A process for the preparation of (2R, 6R)-hydroxynorketamine is provided. The process requires no chromatography purification and affords the (2R, 6R)-hydroxynorketamine in eight steps with a 26% overall yield and greater than 97% purity.

A process for the preparation of (2R, 6R)-hydroxynorketamine is provided. The process requires no chromatography purification and affords the (2R, 6R)-hydroxynorketamine in eight steps with a 26% overall yield and greater than 97% purity.

Disclosed is a method for preparing a benzyl amine compound, i.e., synthesizing a benzyl amine compound by means of an oxidation reaction between a methylbenzene/ethylbenzene compound and arylamine by using an ionic iron (III) complex containing 1,3-di-tert-butylimidazolium cation and having a molecular formula of [(RNCHCHNR)CH][FeBr.sub.4] (R being tert-butyl) and di-t-butyl peroxide as an oxidant. The present invention is not only applicable to a methylbenzene compound containing a benzylic primary carbon-hydrogen bond but also applicable to an ethylbenzene compound containing a benzylic secondary carbon-hydrogen bond, and therefore is widely applicable. This is the first case where the preparation of a benzyl amine compound by means of an oxidation reaction between a methylbenzene/ethylbenzene compound and arylamine is implemented by an iron catalyst.

Disclosed is a method for preparing a benzyl amine compound, i.e., synthesizing a benzyl amine compound by means of an oxidation reaction between a methylbenzene/ethylbenzene compound and arylamine by using an ionic iron (III) complex containing 1,3-di-tert-butylimidazolium cation and having a molecular formula of [(RNCHCHNR)CH][FeBr.sub.4] (R being tert-butyl) and di-t-butyl peroxide as an oxidant. The present invention is not only applicable to a methylbenzene compound containing a benzylic primary carbon-hydrogen bond but also applicable to an ethylbenzene compound containing a benzylic secondary carbon-hydrogen bond, and therefore is widely applicable. This is the first case where the preparation of a benzyl amine compound by means of an oxidation reaction between a methylbenzene/ethylbenzene compound and arylamine is implemented by an iron catalyst.

A thermally activated delayed fluorescence (TADF) material, a synthesizing method thereof, and an electroluminescent device is provided. The TADF is a target compound synthesized from an electron donator and an electron acceptor. The target compound has a D.sub.n-A molecular structure, wherein n denotes 1, 2, or 3, D is the electron donator, and A is the electron acceptor.

A thermally activated delayed fluorescence (TADF) material, a synthesizing method thereof, and an electroluminescent device is provided. The TADF is a target compound synthesized from an electron donator and an electron acceptor. The target compound has a D.sub.n-A molecular structure, wherein n denotes 1, 2, or 3, D is the electron donator, and A is the electron acceptor.