Cas no 39627-24-2 (2-(p-Tolyl)benzamide)

2-(p-Tolyl)benzamide is a benzamide derivative featuring a para-tolyl substituent, making it a valuable intermediate in organic synthesis and pharmaceutical research. Its well-defined aromatic structure offers versatility in the development of bioactive compounds, particularly in medicinal chemistry applications. The compound exhibits stability under standard conditions, facilitating handling and storage. Its distinct molecular framework allows for selective functionalization, enabling researchers to explore structure-activity relationships in drug discovery. The presence of both amide and aryl groups enhances its utility in cross-coupling reactions and as a precursor for heterocyclic systems. High purity grades are available to ensure reproducibility in synthetic workflows.
2-(p-Tolyl)benzamide structure
2-(p-Tolyl)benzamide structure
Product Name:2-(p-Tolyl)benzamide
CAS No:39627-24-2
MF:C14H13NO
MW:211.259123563766
CID:1514567
PubChem ID:10171345
Update Time:2025-10-28

2-(p-Tolyl)benzamide Chemical and Physical Properties

Names and Identifiers

    • [1,1'-Biphenyl]-2-carboxamide, 4'-methyl-
    • 4'-Methyl[1,1'-biphenyl]-2-carboxamide
    • HS-4644
    • 4'-methylbiphenyl-2-carboxamide
    • 4'-methyl-[1,1'-biphenyl]-2-carboxamide
    • IDXMMWSJDMRAMN-UHFFFAOYSA-N
    • 2-(p-tolyl)benzamide
    • 39627-24-2
    • AKOS000278513
    • SCHEMBL6004326
    • 2-(p-Tolyl)benzamide
    • Inchi: 1S/C14H13NO/c1-10-6-8-11(9-7-10)12-4-2-3-5-13(12)14(15)16/h2-9H,1H3,(H2,15,16)
    • InChI Key: IDXMMWSJDMRAMN-UHFFFAOYSA-N
    • SMILES: O=C(C1C=CC=CC=1C1C=CC(C)=CC=1)N

Computed Properties

  • Exact Mass: 211.09979
  • Monoisotopic Mass: 211.099714038g/mol
  • Isotope Atom Count: 0
  • Hydrogen Bond Donor Count: 1
  • Hydrogen Bond Acceptor Count: 1
  • Heavy Atom Count: 16
  • Rotatable Bond Count: 2
  • Complexity: 243
  • Covalently-Bonded Unit Count: 1
  • Defined Atom Stereocenter Count: 0
  • Undefined Atom Stereocenter Count : 0
  • Defined Bond Stereocenter Count: 0
  • Undefined Bond Stereocenter Count: 0
  • XLogP3: 2.6
  • Topological Polar Surface Area: 43.1?2

Experimental Properties

  • PSA: 43.09

2-(p-Tolyl)benzamide Pricemore >>

Related Categories No. Product Name Cas No. Purity Specification Price update time Inquiry
TRC
T212435-25mg
2-(p-Tolyl)benzamide
39627-24-2
25mg
$230.00 2023-05-17
TRC
T212435-50mg
2-(p-Tolyl)benzamide
39627-24-2
50mg
$431.00 2023-05-17
TRC
T212435-100mg
2-(p-Tolyl)benzamide
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100mg
$ 800.00 2023-09-06
TRC
T212435-250mg
2-(p-Tolyl)benzamide
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250mg
$1780.00 2023-05-17

Additional information on 2-(p-Tolyl)benzamide

Comprehensive Guide to [1,1'-Biphenyl]-2-carboxamide, 4'-methyl- (CAS No. 39627-24-2): Properties, Applications, and Market Insights

[1,1'-Biphenyl]-2-carboxamide, 4'-methyl- (CAS No. 39627-24-2) is a specialized organic compound that has garnered significant attention in pharmaceutical and material science research. This biphenyl derivative features a carboxamide group at the 2-position and a methyl substituent at the 4'-position, making it a versatile intermediate for synthesizing more complex molecules. Its unique structural properties contribute to its wide range of applications, particularly in drug discovery and advanced material development.

The chemical industry has seen a growing demand for 4'-methyl-[1,1'-biphenyl]-2-carboxamide due to its role as a key building block in medicinal chemistry. Researchers are particularly interested in its potential as a precursor for non-steroidal anti-inflammatory drugs (NSAIDs) and anticancer agents, aligning with current healthcare trends focusing on targeted therapies. The compound's molecular structure allows for various modifications, enabling the creation of novel therapeutic agents with improved efficacy and reduced side effects.

From a physicochemical perspective, [1,1'-Biphenyl]-2-carboxamide, 4'-methyl- typically appears as a white to off-white crystalline powder with moderate solubility in organic solvents. Its melting point and stability profile make it suitable for various synthetic processes under standard laboratory conditions. These characteristics are frequently searched by chemists evaluating the compound for specific applications, reflecting the practical considerations in research and development workflows.

In material science, this biphenyl-based compound has shown promise in the development of organic semiconductors and liquid crystal displays (LCDs). The growing demand for flexible electronics and energy-efficient display technologies has increased interest in such specialized intermediates. The compound's ability to influence molecular packing and charge transport properties makes it valuable for optimizing device performance in next-generation electronic applications.

The synthesis of CAS 39627-24-2 typically involves palladium-catalyzed cross-coupling reactions, a topic of considerable interest in green chemistry research. Current trends emphasize developing more sustainable synthetic routes with reduced metal catalyst loading and improved atom economy. These aspects are particularly relevant to researchers looking for eco-friendly synthetic methodologies that align with the principles of green chemistry.

Market analysis indicates steady growth in demand for 4'-methyl biphenyl carboxamide derivatives, driven by expanding pharmaceutical R&D activities and the electronics industry's needs. The compound's price and availability fluctuate based on raw material costs and production capacity, with manufacturers increasingly focusing on quality control and batch-to-batch consistency to meet stringent industry standards.

Quality specifications for [1,1'-Biphenyl]-2-carboxamide, 4'-methyl- typically include parameters such as purity (often ≥98%), residual solvent content, and heavy metal limits. These specifications are crucial for researchers and formulators who require high-quality intermediates for sensitive applications. The compound's HPLC profile and spectroscopic characteristics (including NMR and mass spectra) are frequently requested by analytical laboratories for verification purposes.

Storage and handling recommendations for this compound emphasize protection from moisture and light, with suggested storage temperatures ranging from 2-8°C for long-term preservation. These practical considerations are essential for maintaining the compound's stability and ensuring reproducible results in downstream applications, addressing common concerns among laboratory technicians and research scientists.

Recent patent literature reveals innovative applications of 39627-24-2 in developing novel photovoltaic materials and organic light-emitting diodes (OLEDs). This aligns with current industry focus on renewable energy technologies and energy-efficient lighting solutions. The compound's electronic properties make it suitable for tuning the performance characteristics of these advanced materials.

From a regulatory perspective, [1,1'-Biphenyl]-2-carboxamide, 4'-methyl- is generally regarded as a research chemical with no significant environmental or health concerns when handled properly. However, standard laboratory safety protocols should always be followed, including the use of personal protective equipment and proper ventilation, addressing common safety queries from researchers.

The future outlook for this compound appears promising, with potential applications emerging in bioconjugation chemistry and targeted drug delivery systems. These applications capitalize on the compound's ability to serve as a molecular scaffold for attaching various functional groups, meeting the growing demand for precision medicine approaches in healthcare.

For researchers sourcing this material, it's important to verify supplier credentials and request comprehensive certificates of analysis (CoA). The analytical data should include confirmation of structure by appropriate spectroscopic methods and purity assessment by validated analytical techniques, addressing quality assurance concerns prevalent in the research community.

In conclusion, [1,1'-Biphenyl]-2-carboxamide, 4'-methyl- (CAS No. 39627-24-2) represents a valuable chemical building block with diverse applications across multiple industries. Its significance in pharmaceutical development, material science, and emerging technologies ensures continued interest from the scientific community. As research progresses, we can anticipate new applications and improved synthetic methodologies for this versatile compound.

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