An organic compound, a three-dimensional organic structure formed by using the organic compound, a separation sieve and an optical layer having the organic structure, and an optical device having the optical layer as an optical amplification layer are provided. The organic structure includes a plurality of organic molecules self-assembled by non-covalent bonding. Each of the unit organic molecules has an aromatic ring, a first pair of substituents being connected to immediately adjacent positions of substitutable positions of the aromatic ring, and a second pair of substituents being connected to immediately adjacent positions of remaining substitutable positions of the aromatic ring. The unit organic molecules are self-assembled by van der Waals interaction, London dispersion interaction or hydrogen bonding between the first and the second pairs of the substituents and by pi-pi interactions between the aromatic rings.

An organic compound, a three-dimensional organic structure formed by using the organic compound, a separation sieve and an optical layer having the organic structure, and an optical device having the optical layer as an optical amplification layer are provided. The organic structure includes a plurality of organic molecules self-assembled by non-covalent bonding. Each of the unit organic molecules has an aromatic ring, a first pair of substituents being connected to immediately adjacent positions of substitutable positions of the aromatic ring, and a second pair of substituents being connected to immediately adjacent positions of remaining substitutable positions of the aromatic ring. The unit organic molecules are self-assembled by van der Waals interaction, London dispersion interaction or hydrogen bonding between the first and the second pairs of the substituents and by pi-pi interactions between the aromatic rings.

The present disclosure provides a benzene fused heterocyclic derivative of Formula (I): is a single or double bond; n is an integer of 0 or 1; A is —CH.sub.2—, —CH(OH)—, or —C(O)—; G is C or N; X is —CH.sub.2—, O, or —C(O)—; Y is alkyl, aryl, or heterocyclic alkyl optionally substituted with at least one substituent independently selected from a group consisting of: H, halogen, alkyl, alkyl substituted with at least one halogen, aryl, aryl substituted with at least one halogen, —NR.sub.y1R.sub.y2, —OR.sub.y1, —R.sub.y1C(O)R.sub.y3, —C(O)R.sub.y1, —C(O)OR.sub.y2, —C(O)OR.sub.y2Ry3, —NR.sub.y1C(O)R.sub.y2, —NR.sub.y1C(O)NR.sub.y2R.sub.y3, —NR.sub.y1C(O)OR.sub.y2R.sub.y3, —NR.sub.y1C(O)R.sub.y2OR.sub.y3, C(O)NR.sub.y1(R.sub.y2R.sub.y3), —C(O)NR.sub.y1(R.sub.y2OR.sub.y1), —OR.sub.y2R.sub.y3, and —OR.sub.y2OR.sub.y3, wherein each of R.sub.y1 and R.sub.y2 is independently selected from a group consisting of H, oxygen, alkyl, and aryl, and R.sub.y3 is aryl optionally substituted with at least one halogen; Z is —NR.sub.z1R.sub.z2, —NR.sub.z1R.sub.z3, —OR.sub.z1, —OR.sub.z1R.sub.z3, —C(O)R.sub.z1R.sub.z3, —C(O)OR.sub.z1R.sub.z3, —NR.sub.z1C(O)R.sub.z2R.sub.z3, —NR.sub.z1C(O)OR.sub.z2R.sub.z3, —C(O)NR.sub.z1R.sub.z3, or OR.sub.z2OR.sub.z3, wherein each of R.sub.z1 and R.sub.z2 is independently selected from a group consisting of H, oxygen, alkyl and aryl, and R.sub.z3 is aryl optionally substituted with at least one substituent independently selected from a group consisting of halogen, OH, —R.sub.zaCOOR.sub.zb, —OR.sub.zaCOOR.sub.zb, —R.sub.zaSO.sub.2R.sub.zb, —R.sub.zaSO.sub.2NR.sub.zbR.sub.zcR.sub.zd, —R.sub.zaC(O)R.sub.zbR.sub.zc, —R.sub.zaC(O)NR.sub.zbR.sub.zcR.sub.zd, —RZ.sub.aC(O)NR.sub.zbSO.sub.2R.sub.zc, wherein Rza is nil or alkyl, R.sub.zb is H or alkyl, each of R.sub.zb and R.sub.zc is independently selected from a group consisting of H, OH, alkyl, aryl, alkoxyl, or NR.sub.zbR.sub.zc is a nitrogen-containing heterocyclic alkyl ring, R.sub.zd is nil or a sulfonyl alkyl group. ##STR00001##

The present disclosure provides a benzene fused heterocyclic derivative of Formula (I): is a single or double bond; n is an integer of 0 or 1; A is —CH.sub.2—, —CH(OH)—, or —C(O)—; G is C or N; X is —CH.sub.2—, O, or —C(O)—; Y is alkyl, aryl, or heterocyclic alkyl optionally substituted with at least one substituent independently selected from a group consisting of: H, halogen, alkyl, alkyl substituted with at least one halogen, aryl, aryl substituted with at least one halogen, —NR.sub.y1R.sub.y2, —OR.sub.y1, —R.sub.y1C(O)R.sub.y3, —C(O)R.sub.y1, —C(O)OR.sub.y2, —C(O)OR.sub.y2Ry3, —NR.sub.y1C(O)R.sub.y2, —NR.sub.y1C(O)NR.sub.y2R.sub.y3, —NR.sub.y1C(O)OR.sub.y2R.sub.y3, —NR.sub.y1C(O)R.sub.y2OR.sub.y3, C(O)NR.sub.y1(R.sub.y2R.sub.y3), —C(O)NR.sub.y1(R.sub.y2OR.sub.y1), —OR.sub.y2R.sub.y3, and —OR.sub.y2OR.sub.y3, wherein each of R.sub.y1 and R.sub.y2 is independently selected from a group consisting of H, oxygen, alkyl, and aryl, and R.sub.y3 is aryl optionally substituted with at least one halogen; Z is —NR.sub.z1R.sub.z2, —NR.sub.z1R.sub.z3, —OR.sub.z1, —OR.sub.z1R.sub.z3, —C(O)R.sub.z1R.sub.z3, —C(O)OR.sub.z1R.sub.z3, —NR.sub.z1C(O)R.sub.z2R.sub.z3, —NR.sub.z1C(O)OR.sub.z2R.sub.z3, —C(O)NR.sub.z1R.sub.z3, or OR.sub.z2OR.sub.z3, wherein each of R.sub.z1 and R.sub.z2 is independently selected from a group consisting of H, oxygen, alkyl and aryl, and R.sub.z3 is aryl optionally substituted with at least one substituent independently selected from a group consisting of halogen, OH, —R.sub.zaCOOR.sub.zb, —OR.sub.zaCOOR.sub.zb, —R.sub.zaSO.sub.2R.sub.zb, —R.sub.zaSO.sub.2NR.sub.zbR.sub.zcR.sub.zd, —R.sub.zaC(O)R.sub.zbR.sub.zc, —R.sub.zaC(O)NR.sub.zbR.sub.zcR.sub.zd, —RZ.sub.aC(O)NR.sub.zbSO.sub.2R.sub.zc, wherein Rza is nil or alkyl, R.sub.zb is H or alkyl, each of R.sub.zb and R.sub.zc is independently selected from a group consisting of H, OH, alkyl, aryl, alkoxyl, or NR.sub.zbR.sub.zc is a nitrogen-containing heterocyclic alkyl ring, R.sub.zd is nil or a sulfonyl alkyl group. ##STR00001##

A liposomal composition (“ADx-003”) is provided, ADx-003 comprising a first phospholipid; a sterically bulky excipient that is capable of stabilizing the liposomal composition; a second phospholipid that is derivatized with a first polymer; a macrocyclic gadolinium-based imaging agent; and a third phospholipid that is derivatized with a second polymer, the second polymer being conjugated to a targeting ligand, the targeting ligand being represented by Formula I:

##STR00001##

wherein X is —CH.sub.2—, —CH.sub.2—CH.sub.2—, —CHO—, or —O—CO—; Y is —CH—CH═CH— or

##STR00002##

A and B are independently selected from C and N; R.sub.1, R.sub.2, R.sub.3, and R.sub.4 are independently selected from —H, halogen, —OH, and —CH.sub.3; and R.sub.5, R.sub.6, and R.sub.7 are independently selected from —H, halogen, —OH, —OCH.sub.3, —NO.sub.2, —N(CH.sub.3).sub.2, C.sub.1-C.sub.6 alkyl, or a substituted or unsubstituted C.sub.4-C.sub.6 aryl group, except that when A and/or B is N the adjacent R.sub.5 and/or R.sub.7 is —H, or a pharmaceutically acceptable salt thereof.

A liposomal composition (“ADx-003”) is provided, ADx-003 comprising a first phospholipid; a sterically bulky excipient that is capable of stabilizing the liposomal composition; a second phospholipid that is derivatized with a first polymer; a macrocyclic gadolinium-based imaging agent; and a third phospholipid that is derivatized with a second polymer, the second polymer being conjugated to a targeting ligand, the targeting ligand being represented by Formula I:

##STR00001##

wherein X is —CH.sub.2—, —CH.sub.2—CH.sub.2—, —CHO—, or —O—CO—; Y is —CH—CH═CH— or

##STR00002##

A and B are independently selected from C and N; R.sub.1, R.sub.2, R.sub.3, and R.sub.4 are independently selected from —H, halogen, —OH, and —CH.sub.3; and R.sub.5, R.sub.6, and R.sub.7 are independently selected from —H, halogen, —OH, —OCH.sub.3, —NO.sub.2, —N(CH.sub.3).sub.2, C.sub.1-C.sub.6 alkyl, or a substituted or unsubstituted C.sub.4-C.sub.6 aryl group, except that when A and/or B is N the adjacent R.sub.5 and/or R.sub.7 is —H, or a pharmaceutically acceptable salt thereof.

A production method of a compound represented by the formula [I]: ##STR00001##
or a pharmaceutically acceptable salt thereof, or a hydrate thereof.

A production method of a compound represented by the formula [I]: ##STR00001##
or a pharmaceutically acceptable salt thereof, or a hydrate thereof.

The present application provides a medicament having an anti-inflammatory bowel disease function, and a preparation method therefor and an application thereof. The medicament has a structure as represented in formula I or formula II. The medicament and a pharmaceutically acceptable salt, a solvate, a prodrug, a tautomer, a stereoisomer, or a pharmaceutical composition thereof provided by the present application have a good effect on inflammatory bowel diseases, can be used for preparing medicaments for treating the inflammatory bowel diseases, and have important clinical significance and wide application prospects.

The present disclosure provides processes for the preparation of a compound of formula:

##STR00001##

which is useful as an antiviral agent. The disclosure also provides compounds that are synthetic intermediates.