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47307-52-8

isophthalic anhydride is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

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  • 47307-52-8 Structure

  • Basic information

    1. Product Name: isophthalic anhydride
    2. Synonyms: isophthalic anhydride
    3. CAS NO:47307-52-8
    4. Molecular Formula:
    5. Molecular Weight: 314.251
    6. EINECS: N/A
    7. Product Categories: N/A
    8. Mol File: 47307-52-8.mol

  • Chemical Properties

    1. Melting Point: N/A
    2. Boiling Point: N/A
    3. Flash Point: N/A
    4. Appearance: N/A
    5. Density: N/A
    6. Refractive Index: N/A
    7. Storage Temp.: N/A
    8. Solubility: N/A
    9. CAS DataBase Reference: isophthalic anhydride(CAS DataBase Reference)
    10. NIST Chemistry Reference: isophthalic anhydride(47307-52-8)
    11. EPA Substance Registry System: isophthalic anhydride(47307-52-8)

  • Safety Data

    1. Hazard Codes: N/A
    2. Statements: N/A
    3. Safety Statements: N/A
    4. WGK Germany:
    5. RTECS:
    6. HazardClass: N/A
    7. PackingGroup: N/A
    8. Hazardous Substances Data: 47307-52-8(Hazardous Substances Data)

47307-52-8 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 47307-52-8 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 4,7,3,0 and 7 respectively; the second part has 2 digits, 5 and 2 respectively.
Calculate Digit Verification of CAS Registry Number 47307-52:
(7*4)+(6*7)+(5*3)+(4*0)+(3*7)+(2*5)+(1*2)=118
118 % 10 = 8
So 47307-52-8 is a valid CAS Registry Number.

47307-52-8Upstream product

47307-52-8Relevant articles and documents

Fuel-Driven Dynamic Combinatorial Libraries

Bergmann, Alexander M.,Boekhoven, Job,Kriebisch, Christine M. E.

, p. 7719 - 7725 (2021)

In dynamic combinatorial libraries, molecules react with each other reversibly to form intricate networks under thermodynamic control. In biological systems, chemical reaction networks operate under kinetic control by the transduction of chemical energy. We thus introduced the notion of energy transduction, via chemical reaction cycles, to a dynamic combinatorial library. In the library, monomers can be oligomerized, oligomers can be deoligomerized, and oligomers can recombine. Interestingly, we found that the dynamics of the library's components were dominated by transacylation, which is an equilibrium reaction. In contrast, the library's dynamics were dictated by fuel-driven activation, which is a nonequilibrium reaction. Finally, we found that self-assembly can play a large role in affecting the reaction's kinetics via feedback mechanisms. The interplay of the simultaneously operating reactions and feedback mechanisms can result in hysteresis effects in which the outcome of the competition for fuel depends on events that occurred in the past. In future work, we envision diversifying the library by modifying building blocks with catalytically active motifs and information-containing monomers.

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