Aminacrine | Solubility of Things

Identification

Molecular formula

C₁₃H₁₀N₂

CAS number

90-45-9

IUPAC name

acridin-9-amine

State

Acridin-9-amine is in a solid state at room temperature. It is stable under normal conditions and typically does not require any special storage considerations beyond avoiding excessive heat and moisture.

Melting point (Celsius)

208.00

Melting point (Kelvin)

481.15

Boiling point (Celsius)

371.00

Boiling point (Kelvin)

644.15

General information

Molecular weight

194.24g/mol

Molar mass

194.2400g/mol

Density

1.0100g/cm³

Appearence

Acridin-9-amine, also commonly known as 9-Aminoacridine, typically appears as a crystalline solid. It has a deep yellow color, which is a characteristic feature of acridine derivatives. Under normal conditions, it is a solid and may exhibit a shiny, reflective surface.

Comment on solubility

Solubility Characteristics of Acridin-9-amine

Acridin-9-amine, with its chemical formula C₁₃H₁₀N, has unique solubility properties that are influenced by its aromatic structure and functional groups. Here are some important points to consider regarding its solubility:

Solvent Compatibility: Acridin-9-amine is generally soluble in polar solvents such as ethanol and methanol, but it has limited solubility in nonpolar solvents like hexane.
Water Solubility: Its solubility in water is low, which is typical for many aromatic amines due to their hydrophobic characteristics.
pH Dependence: The solubility can be affected by pH changes; under acidic conditions, the amine group may become protonated, enhancing solubility in aqueous environments.
Temperature Effects: As with many organic compounds, increasing the temperature can enhance solubility, allowing for better dissolution in suitable solvents.

In summary, the solubility of acridin-9-amine can vary significantly depending on the solvent used, the presence of other solutes, and environmental conditions like pH and temperature. Understanding these factors is essential for applications in chemical synthesis and pharmaceuticals.

Interesting facts

Interesting Facts about Acridin-9-amine

Acridin-9-amine is a fascinating compound that belongs to the acridine family, known for its diverse applications in both organic chemistry and pharmaceuticals. Here are some intriguing aspects of this chemical:

Structure and Properties: Acridin-9-amine features a tricyclic structure, which allows for interesting electronic properties and reactivity. This unique structure makes it a versatile scaffold for various chemical modifications.
Pharmaceutical Applications: Compounds related to acridin-9-amine have been investigated for their potential use in treating various diseases, including cancer. Some studies suggest it may exhibit anti-tumor properties, making it a candidate for further research.
Fluorescent Properties: Due to its planarity, acridin-9-amine can exhibit fluorescence. This characteristic is valuable in the fields of bioimaging and diagnostics, where fluorescent markers are used to visualize biological processes.
Useful in Material Science: Acridin derivatives are also being explored for their use in developing organic semiconductors. Their ability to transport charge makes them suitable for applications in electronic devices.
Study of Reactions: Scientists often use acridin-9-amine as a model compound to investigate various organic reactions, enabling them to gain insights into reaction mechanisms and pathways.

Overall, acridin-9-amine is not just a compound of structural elegance, but its potential applications in medicine, technology, and materials science make it a subject of considerable interest in various fields of research.

As scientists continue to explore the depths of its capabilities, acridin-9-amine stands as a testament to the innovation inherent in chemistry!

Synonyms

9-AMINOACRIDINE

90-45-9

Aminacrine

Acridin-9-amine

Aminoacridine

9-Acridinamine

Aminacrin

Monacrin

Izoacridina

Aminoacridina

10-Amino-5-azaanthracene

Acridine, 9-amino-

Aminoacridinum

9-Aminoacridin

9-Aminoakridin

9-Acridinylamine

5-Aminoacridine

Aminoacridine [INN:BAN]

CCRIS 748

NSC 7571

9AA

EINECS 201-995-6

UNII-78OY3Z0P7Z

MFCD00037839

NSC 13000

NSC-13000

BRN 0141171

Quench (Salt/Mix)

Mycosert (Salt/Mix)

CHEBI:74789

AI3-51012

AMINACRINE [MI]

Acridin-9-ylamine

AMINACRINE [VANDF]

AMINOACRIDINE [INN]

Acramine Yellow (Salt/Mix)

AMINOACRIDINE [WHO-DD]

78OY3Z0P7Z

9-AA

DTXSID2024456

XJGFWWJLMVZSIG-UHFFFAOYSA-

Hydrochloride, Aminoacridine

NSC13000

NSC28747

Aminopt

Mykocert

9-amino acridine

WLN: T C666 BNJ IZ

9-Aminoakridin [Czech]

9 Aminoacridine

MLS000780068

8AD

65944-23-2

SMR000420251

iminoacridan

Aminoacrid

Aminoacrine

110166-26-2

9-Amino-acridin

4bds

9-Amino-acridine

acridin-9-yl-amine

Spectrum_001108

SpecPlus_000861

9-Aminoacridine, 97%

Spectrum2_001112

Spectrum3_000617

Spectrum4_000580

Spectrum5_001498

9-Aminoacridine free base

9-Aminoacridine (Standard)

SCHEMBL14999

BSPBio_002154

KBioGR_001020

KBioSS_001588

BIDD:GT0816

CHEMBL43184

DivK1c_006957

SPECTRUM1500810

SPBio_001244

DTXCID104456

BDBM72700

cid_2723598

HY-B1422R

KBio1_001901

KBio2_001588

KBio2_004156

KBio2_006724

KBio3_001654

D08AA02

HMS1921I16

HMS2092K22

HMS3715H04

Pharmakon1600-01500810

9-acridinamine;hydrate;hydrochloride

ALBB-020726

BCP25849

HY-B1422

AC2194

CCG-39037

NSC-28747

NSC757794

s4303

STK387428

AKOS000120447

acridin-9-ylamine;hydrate;hydrochloride

CS-4915

DB11561

FA17682

NSC-757794

NCGC00094857-01

NCGC00094857-02

NCGC00094857-03

NCGC00094857-06

7AD

9-Aminoacridine (purified by sublimation)

AS-17405

SY039786

SBI-0051612.P002

DB-026983

DB-220082

A3298

NS00005526

SW219793-1

EN300-17076

10-Amino-5-azaanthracene;9-Aminoacridine;9AA

AB00052180_09

AB00052180_10

CS-003/03975023

Q513937

SR-01000760844

CU-01000012501-2

SR-01000760844-2

BRD-K00535541-001-02-2

BRD-K00535541-001-04-8

BRD-K00535541-001-05-5

BRD-K00535541-001-06-3

BRD-K00535541-311-04-1

9-Aminoacridine, matrix substance for MALDI-MS, >=99.5% (HPLC)