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Vanadium phosphate is a chemical compound with the formula VPO4, which is a type of vanadium phosphate catalyst. It is a dark brown, amorphous solid that is widely used in the petroleum industry as a catalyst for fluid catalytic cracking (FCC) processes. This process is essential for converting heavy petroleum fractions into lighter, more valuable products such as gasoline. Vanadium phosphate catalysts are known for their high activity, selectivity, and stability, making them a preferred choice in the refining industry. They are also used in other applications, such as the production of maleic anhydride and the oxidation of various organic compounds. The compound is typically produced through the reaction of vanadium pentoxide with phosphoric acid, resulting in a material that has a high surface area and a porous structure, which are crucial for its catalytic performance.

12359-27-2

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12359-27-2 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 12359-27-2 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 1,2,3,5 and 9 respectively; the second part has 2 digits, 2 and 7 respectively.
Calculate Digit Verification of CAS Registry Number 12359-27:
(7*1)+(6*2)+(5*3)+(4*5)+(3*9)+(2*2)+(1*7)=92
92 % 10 = 2
So 12359-27-2 is a valid CAS Registry Number.

12359-27-2Upstream product

12359-27-2Downstream Products

12359-27-2Relevant academic research and scientific papers

In situ studies of atomic, nano- and macroscale order during VOHPO4·0.5H2O transformation to (VO)2P2O7

Guliants,Holmes,Benziger,Heaney,Yates,Wachs

, p. 265 - 276 (2001)

Transformation of VOHPO4·0.5H2O precursor to well-crystallized (VO)2P2O7, for n-butane oxidation to maleic anhydride was studied by in situ Raman and XRD techniques. Atomic scale changes observed in the precursor structure at 583 K provided new insights into its transformation to (VO)2P2O7. In addition to (VO)2P2O7, nanocrystalline oxidized δ-VOPO4 invisible to XRD was detected during transformation in n-butane/air, possibly due to the specificity of the in situ conditions. Under catalytic reaction conditions the disordered nanocrystalline (VO)2P2O7 in the fresh catalysts (ca. 10-20 nm domains) gradually transformed into well-crystallized (VO)2P2O7 in the equilibrated VPO catalysts (>30 nm domains) with time on stream. Simultaneously, a disordered layer ca. 2 nm thick which was covering the surface (100) planes of (VO)2P2O7 disappeared yielding a solid with high steady-state catalytic performance. Only (VO)2P2O7 was observed both at room temperature and reaction temperature in the equilibrated VPO catalysts. Specific surface termination of the (100) planes of (VO)2P2O7 in the equilibrated VPO catalysts is believed to be responsible for high activity and selectivity of these catalysts for maleic anhydride formation.

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