2693-46-1

Basic information

• Product Name: 3-AMINOFLUORANTHENE
• Synonyms: 3-AMINOFLUORANTHENE;3-FLUORANTHENAMINE;TIMTEC-BB SBB003376;4-Aminofluoranthene;4-Fluoranthenamine;fluoranthen-3-ylamine;3-AMINOFLUOROANTHENE;3-AMINOFLUORANTHENE 95%
• CAS NO: 2693-46-1
• Molecular Formula: C₁₆H₁₁N
• Molecular Weight: 217.27
• EINECS: 220-263-7
• Product Categories: Aromatic Halides (substituted)
• Mol File: 2693-46-1.mol
• Article Data: 5

Chemical Properties

• Melting Point: 115-117 °C(lit.)
• Boiling Point: 347.82°C (rough estimate)
• Flash Point: 246.2 °C
• Appearance: /
• Density: 1.1227 (rough estimate)
• Vapor Pressure: 5.71E-08mmHg at 25°C
• Refractive Index: 1.8230 (estimate)
• Storage Temp.: 2-8°C(protect from light)
• PKA: 4.21±0.30(Predicted)
• CAS DataBase Reference: 3-AMINOFLUORANTHENE(CAS DataBase Reference)
• NIST Chemistry Reference: 3-AMINOFLUORANTHENE(2693-46-1)
• EPA Substance Registry System: 3-AMINOFLUORANTHENE(2693-46-1)

Safety Data

• Hazard Codes: Xn
• Statements: 22-51/53
• Safety Statements: 61
• RIDADR: UN 3077 9/PG 3
• WGK Germany: 2
• RTECS: LL4000000
• HazardClass: 9
• PackingGroup: III
• Hazardous Substances Data: 2693-46-1(Hazardous Substances Data)

Usage

Description

3-Aminofluoranthene, also known as Fluoranthene-3-amine, is an organic compound with a fluoranthene core structure and an amino group attached to the third carbon position. It is a yellow-green to brown crystalline powder that exhibits unique chemical and physical properties, making it a potential candidate for various applications in different industries.

Uses

Used in Chemical Research:
3-Aminofluoranthene is used as a chemical intermediate for the synthesis of various organic compounds and materials. Its unique structure and reactivity make it a valuable building block in the development of new molecules with specific properties and functions.
Used in Pharmaceutical Industry:
3-Aminofluoranthene is used as a starting material for the development of new drugs and pharmaceutical compounds. Its chemical properties allow for the creation of novel molecules with potential therapeutic applications.
Used in Fluorescent Probes:
3-Aminofluoranthene is used as a fluorescent probe for ligand-binding assays of odorant-binding proteins. Its fluorescent properties enable the detection and analysis of specific interactions between ligands and their target proteins, which can be crucial in understanding the mechanisms of various biological processes and the development of new drugs.
Used in Analytical Chemistry:
3-Aminofluoranthene's fluorescent properties also make it a useful tool in analytical chemistry for the detection and quantification of specific substances in complex samples. Its ability to emit light upon interaction with certain molecules can be exploited to develop sensitive and selective analytical methods for various applications.
Used in Environmental Monitoring:
The fluorescent properties of 3-Aminofluoranthene can be utilized in environmental monitoring to detect and quantify pollutants or contaminants in air, water, or soil samples. This can help in assessing the quality of the environment and the effectiveness of pollution control measures.
Used in Material Science:
3-Aminofluoranthene's unique chemical and physical properties can be exploited in the development of new materials with specific characteristics, such as improved conductivity, enhanced stability, or tailored optical properties. These materials can find applications in various industries, including electronics, energy, and aerospace.

InChI:InChI=1/C16H11N/c17-15-9-8-13-11-5-2-1-4-10(11)12-6-3-7-14(15)16(12)13/h1-9H,17H2

Upstream product

• 110-86-1 pyridine 
• 98-09-9 benzenesulfonyl chloride 
• 892-21-7 3-nitrofluoranthene 
• 19361-41-2 3-Acetamidofluoranthene 
• 17798-09-3 3-hydroxyfluoranthene 
• 7664-41-7 ammonia 
• 206-44-0 fluoranthene 

Downstream Products

• 17798-09-3 3-hydroxyfluoranthene 
• 19361-41-2 3-Acetamidofluoranthene 
• 206-00-8 Pyrido-3',2':3,4-fluoranthen 
• 25911-51-7 3-Chlorofluoranthene 
• 3561-63-5 C₂₃H₁₇N₃O 
• 3561-61-3 2-Phenylazo-fluoranthen-3-ylamine 
• 20279-21-4 1,2,3,10b-tetrahydrofluoranthene 
• 60354-76-9 1-(fluoranthen-3-yl)-1H-pyrrole-2,5-dione 
• 35324-28-8 3-hydroxy-1,2,3,10b-tetrahydrofluoranthene 
• 92866-01-8 2-bromo-3-fluorantheneamine 
• 1329425-04-8 C₂₃H₁₃ClO 
• 1329425-06-0 C₂₅H₁₇ClO 
• 1329425-10-6 C₃₂H₂₁Cl 
• 1329425-12-8 C₃₈H₃₃BO₂ 

Relevant articles and documents

NMR and DFT study on onium ions derived from substituted fluoranthenes and benzo[κ]fluoranthenes

Fluoranthene and benzo[k]fluoranthene (3) are nonalternant polyaromatic hydrocarbons. Their derivatives, 3-acetyl, 8-acetyl, 3-nitro, and 3-aminofluoranthenes (4, 5, 7, and 8) were reacted in FSO3H/SO 2ClF and the solutions were observed by NMR measurements at low temperatures, which showed the formation of PAH-substituted onium ions. The most deshielded 13C peaks in fluoranthene frames were observed at 155.7 and 148.7 ppm for 4H+, 154.4 ppm for 5H+, 159.1 and 139.6 ppm for 7H+, and 139.7 ppm for 8H+. Distribution of the positive charges were estimated on the basis of changes in 13CNMR chemical shifts between onium ions and their corresponding parent compounds. Only limited delocalization of positive charges into the aromatic rings was found to occur. GIAO-derived NMR chemical shifts calculated by the DFT method were generally consistent with the experimental chemical shifts. DFT calculations suggested that benzo[k]fluoranthene (3) is favored to be protonated at C-3/C-7 positions. GIAO-derived NICS(1)zz were computed to elucidate aromaticity/antiaromaticity, and the results suggested that the five-membered rings are antiaromatic for cations 4H+, 7H+, 8H +, and 3aH+ (3-benzo[k]fluoranthenium ion).

Efficient method for the synthesis of N-cyclic maleamic acids and N-cyclic maleimides

Provided are methods for the synthesis of N-cyclic maleamic acids and N-cyclic maleimide derivatives, as well as N-cyclic maleamic acids and N-cyclic maleimides synthesized thereby. The method for synthesis of an N-cyclic maleamic acid involves reacting an amino group-containing N-cyclic compound with maleic anhydride in acetic acid to obtain an N-cyclic maleamic acid. An N-cyclic maleimide can be formed by adding hexamethyldisilazane to an N-cyclic maleamic acid prepared according to the above-described method, thereby cyclizing a maleamic acid site of the N-cyclic maleamic acid. The described methods allow for the products to be obtained at high yields.

Synthesis and characterization of nitro-, nitroso-, and aminofluoranthenes

The synthesis is reported of the five mononitrofluoranthenes. 1-Nitrofluoranthene was synthesized in 20percent from fluoranthene, 2-nitrofluoranthene in 24percent from 1,2,3,10b-tetrahydrofluoranthene, 3-nitrofluoranthene in 13percent from fluoranthene and 7- and 8-nitrofluoranthene in 34percent from 1,2,3,10b-tetrahydrofluoranthene.The pure nitrofluoranthenes were converted into their nitroso and amino analogues.The nitrosopyrenes were also synthesized.Characterisation of each compound is described.