Date published: 2026-4-24
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Benzophenone-4,4′-dicarboxylic Acid (CAS 964-68-1) - chemical structure image
Molecular structure of Benzophenone-4,4′-dicarboxylic Acid, CAS Number: 964-68-1
Benzophenone-4,4′-dicarboxylic Acid (CAS 964-68-1) - chemical structure image
Molecular structure of Benzophenone-4,4′-dicarboxylic Acid, CAS Number: 964-68-1
Molecular structure of Benzophenone-4,4′-dicarboxylic Acid, CAS Number: 964-68-1

Benzophenone-4,4′-dicarboxylic Acid (CAS 964-68-1)

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Alternate Names:
4,4′-Carbonyldibenzoic Acid
CAS Number:
964-68-1
Molecular Weight:
270.24
Molecular Formula:
C15H10O5
For Research Use Only. Not Intended for Diagnostic or Therapeutic Use.
* Refer to Certificate of Analysis for lot specific data.

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SDS & Certificate of Analysis

Benzophenone-4,4′-dicarboxylic Acid aslo know as 4,4′-Carbonyldibenzoic acid or 4,4′-CDA, is a synthetic compound that offers a multitude of applications in the realm of chemical and biological research. Due to its unique properties, it serves as a valuable resource for researchers, enabling diverse uses including the synthesis of compounds and the exploration of biochemical and physiological impacts. Benzophenone-4,4′-dicarboxylic Acid is frequently employed as a foundation in the creation of compounds, and it also serves in the investigation of how these compounds function. Moreover, it′s used to probe the biochemical and physiological consequences of these compounds, as well as their impact on cells and tissues. The full mechanism of action of Benzophenone-4,4′-dicarboxylic Acid remains unclear. Nonetheless, it′s postulated that Benzophenone-4,4′-dicarboxylic Acid operates as a blocker of the enzyme monoamine oxidase (MAO) type A, which plays a role in the metabolism of neurotransmitters such as serotonin, dopamine, and norepinephrine. By inhibiting MAO type A, Benzophenone-4,4′-dicarboxylic Acid could potentially heighten levels of these neurotransmitters, which might result in an uplifted mood and increased energy levels.


Benzophenone-4,4′-dicarboxylic Acid (CAS 964-68-1) References

  1. Mixed-ligand metal-organic frameworks with large pores: gas sorption properties and single-crystal-to-single-crystal transformation on guest exchange.  |  Park, HJ. and Suh, MP. 2008. Chemistry. 14: 8812-8821. PMID: 18792044
  2. Direct grafting-from of PEDOT from a photoreactive Zr-based MOF - a novel route to electrically conductive composite materials.  |  Mohmeyer, A., et al. 2019. Chem Commun (Camb). 55: 3367-3370. PMID: 30816376
  3. Light- and Humidity-Responsive Chiral Nematic Photonic Crystal Films Based on Cellulose Nanocrystals.  |  Chen, H., et al. 2020. ACS Appl Mater Interfaces. 12: 24505-24511. PMID: 32362108
  4. A 2-Fold Interpenetrated Nitrogen-Rich Metal-Organic Framework for Rapid and Selective Adsorption of Congo Red.  |  Mao, Y., et al. 2020. Inorg Chem. 59: 8213-8219. PMID: 32459475
  5. Expanding the NUIG MOF family: synthesis and characterization of new MOFs for selective CO2 adsorption, metal ion removal from aqueous systems, and drug delivery applications.  |  Winterlich, M., et al. 2021. Dalton Trans. 50: 6997-7006. PMID: 33949547
  6. Fluorescent Eu3+/Tb3+ Metal-Organic Frameworks for Ratiometric Temperature Sensing Regulated by Ligand Energy.  |  Miao, WN., et al. 2022. Inorg Chem. 61: 14322-14332. PMID: 36026489
  7. Synthesis of lanthanide coordination polymers with benzophenone-4,4′-dicarboxylate: Effect of lanthanide contraction on structures  |  Yi-Bo Wang, Lin-Pei Jin. 2004. Chinese Journal of Chemistry. 22: 1272-1278.
  8. Hydrothermal synthesis and structure of new lanthanide coordination polymers with dicarboxylic acid and 1,10-phenanthroline  |  Yibo Wang a, Zheming Wang b, Chunhua Yan b, Linpei Jin a,∗. 2004. Journal of Molecular Structure. 692: 177=186.
  9. Photocrosslinking of poly(ethylene terephthalate) copolymers containing photoreactive comonomers  |  Junzuo Wang a, Bishwa R. Nayak a, David Creed b, Charles E. Hoyle a b, Lon J. Mathias a. 2005. Polymer. 46: 6897-6909.
  10. Large-scale synthesis of porous yolk-shell structured In2O3 using indium(III) benzophenone-4,4′-dicarboxylate sub-microspheres as precursors  |  Li-Na Jin, Qing Liu, Wei-Yin Sun. 2013. Materials Letters. 102–103,: 112-115.
  11. Two sinusoidal wavelike 2D coordination polymers with benzophenone-4,4′-dicarboxylate  |  Lan Qin a, Lei Yu a, Xiao-Zhi Yan a, Wen-Na Zhao b, Lei Han. 2014. Inorganica Chimica Acta. 409: 233-237.
  12. Assembly of Interpenetration and Polycatenation Structures with a V-shape Ligand Benzophenone-4,4′-dicarboxylic Acid  |  Chang-Yan Sun, Bin Dong, Wen-Jun Li. 2014. Wiley Online Library. 640: 1799-1804.
  13. Metal Ion-Driven Assembly of Coordination Polymers Based on 1,3-Bis(4-imidazolylphenoxy)propane: Crystal Structures and Photocatalytic Properties  |  Hai-Tao Wu, Jun-Ru Wang, Yu-Chen Zhu, Yong Wang, Wen-Yu Yin, Hong-Jian Cheng & Rong-Xin Yuan. 2020. Journal of Chemical Crystallography. 50: 428–437.
  14. A stable zinc(II)-organic framework as rapid and multi-responsive luminescent sensor for metal ions in water  |  u-Dian Xu, Yu Liang, Jun-Feng Li, Lei Zhou, Li-Zhuang Chen & Fang-Ming Wang. 2020. Journal of Coordination Chemistry. 73: 867-876.

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Product NameCatalog #UNITPriceQtyFAVORITES

Benzophenone-4,4′-dicarboxylic Acid, 25 g

sc-485386
25 g
$245.00
1-800-457-3801
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