Rifampicin | Solubility of Things

Identification

Molecular formula

C₄₃H₅₈Cl₂N₄O₁₂

CAS number

13292-46-1

IUPAC name

15,30-dichloro-2,17-diazaheptacyclo[16.12.0.03,16.04,13.06,11.019,28.021,26]triaconta-1(30),3,6,8,10,13,15,18,21,23,25,28-dodecaene-5,12,20,27-tetrone

State

The compound is typically found as a solid at room temperature. As an antibiotic, it is often formulated into tablets or a powder for suspension for oral administration, as well as a lyophilized powder for intravenous injection. It should be stored in a tightly sealed, light-resistant container to maintain its stability.

Melting point (Celsius)

183.50

Melting point (Kelvin)

456.65

Boiling point (Celsius)

763.15

Boiling point (Kelvin)

1 036.30

General information

Molecular weight

822.95g/mol

Molar mass

822.9460g/mol

Density

1.3000g/cm³

Appearence

Rifampicin typically appears as a red-brown or orange crystalline powder. It can have a very fine texture and is known for its intense color, which is a characteristic feature of many rifamycin antibiotics.

Comment on solubility

Solubility of 15,30-dichloro-2,17-diazaheptacyclo[16.12.0.03,16.04,13.06,11.019,28.021,26]triaconta-1(30),3,6,8,10,13,15,18,21,23,25,28-dodecaene-5,12,20,27-tetrone

The solubility of this complex compound, 15,30-dichloro-2,17-diazaheptacyclo[16.12.0.03,16.04,13.06,11.019,28.021,26]triaconta-1(30),3,6,8,10,13,15,18,21,23,25,28-dodecaene-5,12,20,27-tetrone, can be quite intricate due to its unique structure. Here are some notable points regarding its solubility:

Solvent Interaction: The solubility of this compound is expected to be influenced by the presence of chloride substituents and nitrogen atoms in the molecular structure, which can interact differently with polar and non-polar solvents.
Water Solubility: Given its complex cyclic nature and presence of multiple functional groups, it may exhibit limited solubility in water, as larger organic molecules often do. However, solubility could increase with temperature.
Organic Solvents: This compound may demonstrate enhanced solubility in organic solvents such as ethanol, dimethyl sulfoxide (DMSO), or acetone, which can solvate larger, non-polar structures effectively.
Temperature Dependence: Generally, solubility tends to increase with temperature; thus, heating organic solvents could improve the dissolution of this compound.
pH Influence: The solubility behavior may also vary with pH, particularly due to the dialkylamine and carbonyl functionalities that could protonate or deprotonate under different pH conditions.

In summary, while the exact solubility of 15,30-dichloro-2,17-diazaheptacyclo[16.12.0.03,16.04,13.06,11.019,28.021,26]triaconta-1(30),3,6,8,10,13,15,18,21,23,25,28-dodecaene-5,12,20,27-tetrone may require experimental validation, understanding the influence of molecular structure, solvent interactions, and environmental factors is key to predicting its behavior in solution.

Interesting facts

Interesting Facts about 15,30-Dichloro-2,17-Diazaheptacyclo[16.12.0.03,16.04,13.06,11.019,28.021,26]triaconta-1(30),3,6,8,10,13,15,18,21,23,25,28-dodecaene-5,12,20,27-tetrone

This compound, though complex in name and structure, opens up fascinating possibilities within the realm of chemical research. Here are some intriguing aspects of this unique molecule:

Complexity of Structure: The name itself hints at a highly intricate architecture, featuring multiple cyclic units and functional groups. This complexity often leads to interesting properties and behaviors, making it a gem for chemists.
Diversity of Applications: Compounds with such elaborate frameworks have potential uses in various fields, including:
- Medicinal Chemistry: It may exhibit biological activities worth exploring for pharmaceutical applications.
- Materials Science: Could be investigated for its utility in developing novel materials with desired physical properties.
Synthetic Challenges: The synthesis of such a compound is a monumental challenge that requires advanced techniques and methodologies in organic chemistry. It serves as a testament to the creativity and innovation required in modern chemistry.
Research Opportunities: Researchers are often inspired by complex molecules like this one, leading to new discoveries. This can include understanding reaction mechanisms or designing derivatives for enhanced activity.

In the world of chemistry, compounds like this one exemplify the intersection of complexity and creativity. As a student or a researcher, delving into its synthesis and exploring its properties can yield fruitful insights and pave the way for future breakthroughs.

Synonyms

VAT BLUE 6

130-20-1

Ahcovat Blue BCF

3,3'-Dichloroindanthrene

C.I. Vat Blue 6

D&C Blue No. 9

Alizanthrene Blue RC

5,9,14,18-Anthrazinetetrone, 7,16-dichloro-6,15-dihydro-

Navinon Blue BC

Carbanthrene Blue BCF

Dichloroindanthrone

Ponsol Blue BCS

Ponsol Blue BF

Ponsol Blue BFD

Ponsol Blue BFN

Ponsol Blue BFP

Cibanone Blue FG

Cibanone Blue GF

Paradone Blue RC

Tinon Blue GF

Tinon Blue GL

Fenan Blue BCS

Vat Green B

Blue K

Caledon Blue XRC

Benzadone Blue RC

Ponsol Blue BFDP

Ponsol Blue BFND

Vat Blue K

Cibanone Blue FGF

Cibanone Blue FGL

Solanthrene Blue B

Vat Blue KD

Fenanthren Blue BC

Fenanthren Blue BD

Indanthren Blue BC

Mikethrene Blue BC

Atic Vat Blue BC

Calcoloid Blue BLC

Calcoloid Blue BLD

Calcoloid Blue BLR

Indo Blue B-I

Helanthrene Blue BC

Indanthrene Blue BC

Nihonthrene Blue BC

Palanthrene Blue BC

Pernithrene Blue BC

Sandothrene Blue NG

Solanthrene Blue SB

Amanthrene Blue BCL

Indanthren Blue BCA

Indanthren Blue BCS

Mikethrene Blue BCS

Nyanthrene Blue BFP

Ostanthren Blue BCL

Ostanthren Blue BCS

Romantrene Blue FBC

Calcoloid Blue BLFD

Vat Fast Blue BCS

CI Vat Blue 6

Indanthrene Blue BCF

Palanthrene Blue BCA

Romanthrene Blue FBC

Sandothrene Blue NGR

Sandothrene Blue NGW

Carbanthrene Blue BCS

Carbanthrene Blue RCS

Carbanthrene Blue RBCF

Intravat Blue GF

D&C Blue 9

Solanthrene Blue F-SBA

Monolite Fast Blue 2RV

Vat Sky Blue K

Vat Sky Blue KD

3,3'-Dichloroindanthrone

7,16-Dichloroindanthrone

D and C Blue No. 9

Harmone B 79

Monolite Fast Blue 2RVSA

Navinon Brilliant Blue RCL

Carbantarene Blue BCF

Indotoner Blue B 79

Indo Blue WD 279

Vat Sky Blue KP 2F

Nihonthrene Brilliant Blue RCL

Resinated Indo Blue B 85

C.i.var blue 6

7:16-Dichloro-6:15-indanthrone

7,16-Dichlorodinaphtho[2,3-a:2',3'-h]phenazine-5,9,14,18(6H,15H)-tetraone

C.I. 69825

HSDB 2933

UNII-UBL2KQB85Q

EINECS 204-980-2

NSC 74700

BRN 0068486

CCRIS 9493

CI 69825

DTXSID9044532

Indotoner Blue B-79

CARBANTHRENE BLUE

NSC-74700

UBL2KQB85Q

Resinated Indo Blue B-85

VAT BLUE 6 [HSDB]

BLUE NO. 204

DTXCID7024532

AO204

4-24-00-02195 (Beilstein Handbook Reference)

NSC74700

INDANTHRENE, 7,16-DICHLORO-

15,30-dichloro-2,17-diazaheptacyclo[16.12.0.03,16.04,13.06,11.019,28.021,26]triaconta-1(30),3,6,8,10,13,15,18,21,23,25,28-dodecaene-5,12,20,27-tetrone

7,16-Dichloro-6,15-dihydro-5,9,14,18-anthrazinetetrone

5,9,14,18-Anthrazinetetrone, 7,16-dichloro-6,15-dihydro-,

7,16-dichloro-6,15-dihydro-5,9,14,18-anthrazine-tetrone

Indo Blue BI

dichloro[?]tetrone

MFCD00046965

Harmone B.79

Solanthrene Blue FSBA

7,16-Dichloro-6,15-dihydroanthrazine-5,9,14,18-tetrone

Indo Blue WD-279

3,3'Dichloroindanthrene

3,3'Dichloroindanthrone

7,16Dichloroindanthrone

D AND C BLUE NO 9

SCHEMBL342102

7:16Dichloro6:15indanthrone

AO204 [INCI]

Vat Blue 6 - Technical grade

CHEMBL2001164

UGCDBQWJXSAYIL-UHFFFAOYSA-N

HY-D1273

Tox21_302231

STK031750

AKOS000283016

FV41512

NCGC00255878-01

CAS-130-20-1

NCI60_041636

DB-081214

CS-0145926

NS00013526

H10897

7,16Dichloro6,15dihydro5,9,14,18anthrazinetetrone

Q27291000

5,9,14,18Anthrazinetetrone, 7,16dichloro6,15dihydro

5,14,18-Anthrazinetetrone, 7,16-dichloro-6,15-dihydro-

7,16-dichloro-6,15-dihydrodinaphtho[2,3-a:2',3'-h]phenazine-5,9,14,18-tetrone

7,16-Dichlorodinaphtho[2,3-a:2',3'-h]-phenazine-5,9,14,18(6H,15H)-tetraone

204-980-2

39456-82-1

57284-96-5

7,16-DICHLORO-6,15-DIHYDRO-DINAPHTHO(2,3-A,2',3'-H)PHENAZINE-5,9,14,18-TETRAONE

814-884-8