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Phenanthridone

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Identification
Molecular formula
C13H9NO
CAS number
486-23-3
IUPAC name
5H-phenanthridin-6-one
State
State
At room temperature, phenanthridone is a solid. Its crystalline form is stable and it is often used in chemical research and analytical chemistry. It is typically administered in controlled environments to prevent degradation.
Melting point (Celsius)
237.00
Melting point (Kelvin)
510.20
Boiling point (Celsius)
437.90
Boiling point (Kelvin)
711.10
General information
Molecular weight
181.22g/mol
Molar mass
181.1880g/mol
Density
1.3240g/cm3
Appearence

Phenanthridone appears as a pale yellow crystalline solid. Its appearance can vary slightly depending on purity and particle size, but it generally maintains a consistent yellow hue in crystalline form. The compound exhibits some fluorescence under ultraviolet light, appearing as a blue or green glow.

Comment on solubility

Solubility of 5H-phenanthridin-6-one (C13H9NO)

The solubility of 5H-phenanthridin-6-one, a heterocyclic organic compound with intriguing properties, can be somewhat complex. As a general guideline, the solubility of a compound often depends on its chemical structure and the presence of hydrophilic or hydrophobic groups. In the case of 5H-phenanthridin-6-one, we can observe the following:

  • Polarity: This compound contains a nitrogen atom and a carbonyl group, making it moderately polar.
  • Solvent Compatibility: It is typically more soluble in organic solvents like dimethyl sulfoxide (DMSO) and ethanol, while its solubility in water is limited.
  • Temperature Effects: Solubility may increase with temperature, which is common for many organic compounds.
  • Crystallization Potential: Due to its solid state at room temperature, careful consideration should be given to the conditions under which it is dissolved.

In summary, 5H-phenanthridin-6-one exhibits limited water solubility but is more compatible with organic solvents, which can facilitate its usage in various applications. As with many organic compounds, understanding the intricacies of solubility is crucial for optimizing its use in formulations or reactions.

Interesting facts

Interesting Facts about 5H-phenanthridin-6-one

5H-phenanthridin-6-one, a fascinating compound within the realm of nitrogen-containing heterocycles, has been a prominent subject of investigation in various scientific studies. Here are some intriguing details about this compound:

  • Cyclic Structure: The structure of 5H-phenanthridin-6-one features a fused ring system; this cyclic configuration contributes to its unique chemical properties and reactivity.
  • Reactivity: The presence of both nitrogen and carbon atoms makes it a reactive compound, potentially undergoing a variety of chemical transformations. One notable characteristic is its ability to participate in electrophilic substitutions.
  • Biological Significance: Compounds similar to 5H-phenanthridin-6-one have shown promise in biological applications. Some studies suggest they could have potential as antimicrobial or anticancer agents.
  • Synthesis: The synthesis of 5H-phenanthridin-6-one can involve several methods, including cyclization reactions and functionalization of phenanthridine derivatives, showcasing the adaptability of synthetic strategies in organic chemistry.
  • Applications: Beyond biological implications, such compounds can also be found in materials science, potentially serving as dyes or in the development of electronic materials.

As researchers continue to explore the complexities of 5H-phenanthridin-6-one, its multifaceted applications and intriguing chemical behavior keep capturing the interest of both students and experienced chemists alike. The phrase, "The journey of a thousand miles begins with one step," directly applies here as scientists delve into the uncharted territories of its potential!

Synonyms
6(5H)-Phenanthridinone
1015-89-0
Phenanthridin-6(5H)-one
Phenanthridone
6-Phenanthridinol
6-(5H)-phenanthridinone
5H-phenanthridin-6-one
6-Phenanthridinone
6-Phenanthridone
Phenantridone
phenanthridin-6-ol
Phenanthridone (misnomer)
6(5H)-Phenantridinone
5,6-dihydrophenanthridin-6-one
MFCD00004988
NSC 11021
NSC 40943
NSC 61083
CCRIS 2978
AVQ13AUB5J
EINECS 213-804-3
PHENANTHRIDINONE
CHEBI:75292
AI3-16988
NSC-11021
NSC-40943
NSC-61083
CHEMBL45245
PJ 97A
DTXSID0074423
Phenanthridinone; WD 99-004344
SR-01000076089
UNII-AVQ13AUB5J
6Phenanthridone
6Phenanthridinol
6Phenanthridinone
4avu
6(5h)phenanthridinone
6(5H)Phenantridinone
6-hydroxyphenanthridine
Phenanthridin6(5H)one
Maybridge1_005473
Lopac-P-8852
phenanthridine, 6-hydroxy-
Lopac0_000994
Oprea1_280753
Oprea1_801444
SCHEMBL17293
BSPBio_001022
KBioGR_000362
KBioSS_000362
MLS000681669
DivK1c_001761
F3193-0003
DTXCID1032640
5H-Phenanthridin-6-one (PTD)
BCBcMAP01_000038
BDBM27500
HMS557A17
KBio2_000362
KBio2_002930
KBio2_005498
KBio3_000703
KBio3_000704
Bio1_000401
Bio1_000890
Bio1_001379
Bio2_000351
Bio2_000831
HMS1362D03
HMS1792D03
HMS1990D03
HMS2588H14
HMS3263G09
HMS3403D03
ALBB-023266
NSC11021
NSC40943
NSC61083
Tox21_500994
BBL034640
CCG-15140
STL426846
STL426852
AKOS002287896
AKOS003245230
DS-0778
LP00994
SDCCGSBI-0050967.P002
CDS1_000721
IDI1_002106
NCGC00015852-01
NCGC00015852-02
NCGC00015852-03
NCGC00015852-04
NCGC00015852-05
NCGC00015852-06
NCGC00015852-07
NCGC00094290-01
NCGC00094290-02
NCGC00094290-03
NCGC00261679-01
HY-34386
PD014897
SMR000312353
SY024431
6-(5H)-Phenanthridinone, technical grade
Phenanthridinone [6(5H)-Phenanthridinone]
DB-007109
CS-0019648
EU-0100994
NS00042136
P1998
EN300-36056
F11853
P 8852
AG-761/09899006
CU-00000000136-1
SR-01000076089-1
SR-01000076089-2
BRD-K11163873-001-02-8
Q27145196
Z275368072
213-804-3