Date published: 2025-12-1
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Tetrafluoroboric acid diethyl ether complex (CAS 67969-82-8) - chemical structure image
Molecular structure of Tetrafluoroboric acid diethyl ether complex, CAS Number: 67969-82-8
Tetrafluoroboric acid diethyl ether complex (CAS 67969-82-8) - chemical structure image
Molecular structure of Tetrafluoroboric acid diethyl ether complex, CAS Number: 67969-82-8
Molecular structure of Tetrafluoroboric acid diethyl ether complex, CAS Number: 67969-82-8

Tetrafluoroboric acid diethyl ether complex (CAS 67969-82-8)

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Alternate Names:
Fluoroboric acid diethyl ether complex
Application:
Tetrafluoroboric acid diethyl ether complex is an effective catalyst for various carbohydrate protection reactions
CAS Number:
67969-82-8
Molecular Weight:
161.93
Molecular Formula:
HBF4•O(CH2CH3)2
For Research Use Only. Not Intended for Diagnostic or Therapeutic Use.
Available in US only.
* Refer to Certificate of Analysis for lot specific data.

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SDS & Certificate of Analysis

Tetrafluoroboric acid diethyl ether complex (FBA-DEE) is an effective catalyst for certain carbohydrate protection reactions. In nanotechnology, it is useful in the development of nanomaterials with unique properties. Specifically, Tetrafluoroboric acid diethyl ether complex has anti-inflammatory, antioxidant, and antifungal properties. In the complex, the diethyl ether likely acts as a ligand, coordinating to the boron atom in fluoroboric acid, effectively stabilizing the compound.


Tetrafluoroboric acid diethyl ether complex (CAS 67969-82-8) References

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  2. 1-Imidoalkylphosphonium salts with modulated Cα-P+ bond strength: synthesis and application as new active α-imidoalkylating agents.  |  Adamek, J., et al. 2017. Beilstein J Org Chem. 13: 1446-1455. PMID: 28845187
  3. Isolation of cationic and neutral (allenylidene)(carbene) and bis(allenylidene)gold complexes.  |  Jin, L., et al. 2016. Chem Sci. 7: 150-154. PMID: 28966767
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  5. Synthesis, Structure⁻Activity Relationships and In Vitro Toxicity Profile of Lactose-Based Fatty Acid Monoesters as Possible Drug Permeability Enhancers.  |  Lucarini, S., et al. 2018. Pharmaceutics. 10: PMID: 29970849
  6. Synthesis and Evaluation of Saccharide-Based Aliphatic and Aromatic Esters as Antimicrobial and Antibiofilm Agents.  |  Campana, R., et al. 2019. Pharmaceuticals (Basel). 12: PMID: 31861227
  7. Coupling Headgroup and Alkene Specific Solution Modifications with Gas-Phase Ion/Ion Reactions for Sensitive Glycerophospholipid Identification and Characterization.  |  Franklin, ET., et al. 2020. J Am Soc Mass Spectrom. 31: 938-945. PMID: 32233382
  8. Investigation of phase II metabolism of 11-hydroxy-Δ-9-tetrahydrocannabinol and metabolite verification by chemical synthesis of 11-hydroxy-Δ-9-tetrahydrocannabinol-glucuronide.  |  Hassenberg, C., et al. 2020. Int J Legal Med. 134: 2105-2119. PMID: 32808050
  9. Azulene Functionalization by Iron-Mediated Addition to a Cyclohexadiene Scaffold.  |  Dunås, P., et al. 2020. J Org Chem. 85: 13453-13465. PMID: 33085490
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  12. Functionalized 10-Membered Aza- and Oxaenediynes through the Nicholas Reaction.  |  Danilkina, NA., et al. 2022. Molecules. 27: PMID: 36144808
  13. Potent and biostable inhibitors of the main protease of SARS-CoV-2.  |  Tsuji, K., et al. 2022. iScience. 25: 105365. PMID: 36338434
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Ordering Information

Product NameCatalog #UNITPriceQtyFAVORITES

Tetrafluoroboric acid diethyl ether complex, 50 ml

sc-251181
50 ml
$100.00
US: Only available in the US

Tetrafluoroboric acid diethyl ether complex, 100 ml

sc-251181A
100 ml
$140.00
US: Only available in the US
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