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Novel metal-doped catalyst for selectively synthesizing bisphenol F and preparation method and application thereof

A metal doping and catalyst technology is applied in the field of catalysts for synthesizing bisphenol F to achieve the effects of energy saving, high catalytic performance and environmental friendliness

Active Publication Date: 2021-03-30
JIANGNAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The present invention designs and synthesizes the titanium dioxide catalyst doped with metal ions, and introduces Sn in the preparation process of titanium dioxide nanobelts. 4+ 、Cu 2+ , Fe 3+ , using the modified catalyst for the synthesis reaction of bisphenol F can increase the yield of the reaction and save costs; this catalyst is rarely reported

Method used

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  • Novel metal-doped catalyst for selectively synthesizing bisphenol F and preparation method and application thereof
  • Novel metal-doped catalyst for selectively synthesizing bisphenol F and preparation method and application thereof
  • Novel metal-doped catalyst for selectively synthesizing bisphenol F and preparation method and application thereof

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] Metal Sn 4+ doped TiO 2 The preparation method of the catalyst comprises the following process steps: adding 2 mL of tetrabutyl titanate to 25 mL of isopropanol to prepare A solution, then adding 40 mg of NaOH and 50 mg of Sn(OH) 4 Dissolve 25 mL of isopropanol to prepare solution B, then add solution B to solution A dropwise, and keep stirring. Transfer the solution obtained in the above process to a 100mL hydrothermal kettle, 170 o C for 24 h. After the completion of the hydrothermal treatment, take it out and cool to room temperature, and use 0.1 mol·L -1 Wash with hydrochloric acid solution followed by three washes with distilled water (20x3 mL) to pH = 7. The sample obtained by suction filtration was at 80 o After drying at C for 48 hours, put it into the muffle furnace and burn it with 10 o C·min -1 The rate of heating up to 650 o After holding at C for 12 hours, the metal Sn 4+ doped TiO 2 catalyst.

[0027] X-ray diffraction characterization (XRD) of ...

Embodiment 2

[0030] Metal Cu 2+ doped TiO 2 The preparation method of the catalyst comprises the following process steps: adding 10 mL of tetrabutyl titanate to 200 mL of isopropanol to prepare A solution, and then mixing 100 mg of NaOH with 50 mg of Cu(OH) 2 Dissolve 150mL of isopropanol to prepare solution B, then add solution B to solution A dropwise, and keep stirring. Transfer the solution obtained in the above process to a 500 mL hydrothermal kettle, 170 o C for 48 h. After the completion of the hydrothermal treatment, take it out and cool to room temperature, and use 0.1 mol·L -1 Wash with hydrochloric acid solution followed by three washes with distilled water (20x3 mL) to pH = 7. The sample obtained by suction filtration was at 80 o After drying at C for 24 hours, put it into a muffle furnace and burn it with 10 o C·min -1 The rate of heating up to 650 o After holding at C for 12h, metal Cu was obtained. 2+ doped TiO 2 catalyst.

[0031]X-ray diffraction characterizatio...

Embodiment 3

[0035] Metal Fe 3+ doped TiO 2 The preparation method of the catalyst comprises the following process steps: adding 20 mL tetrabutyl titanate to 120 mL isopropanol to prepare A solution, and then mixing 80 mg NaOH with 30 mg Fe(OH) 3 Dissolve 110 mL of isopropanol as solution B, then add solution B to solution A dropwise, stirring continuously. The solution obtained by the above process was moved to a 1000mL hydrothermal kettle, 170 o C for 48 h. After the completion of the hydrothermal treatment, take it out and cool to room temperature, and use 0.1 mol·L -1 Wash with hydrochloric acid solution followed by three washes with distilled water (20x3 mL) to pH = 7. The sample obtained by suction filtration was at 80 o After drying at C for 48 hours, put it into the muffle furnace and burn it with 10 o C·min -1 The rate of heating up to 650 o C and then keep it warm for 8 hours to obtain metal-doped titanium dioxide.

[0036] X-ray Diffraction Characterization (XRD) of Fe-...

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Abstract

The invention provides a novel metal-doped catalyst for selectively synthesizing bisphenol F and a preparation method and application thereof, and can solve the technical problem that the catalytic activity of TiO2 serving as a photocatalyst for a synthesis reaction of bisphenol F needs to be further improved. The preparation method of the novel metal-doped catalyst for selectively synthesizing bisphenol F is characterized by comprising the following steps: S1, adding tetrabutyl titanate into isopropanol to prepare a solution A, and dissolving Sn (OH) 4 and NaOH into isopropanol to prepare a solution B; s2, dropwise adding the solution B into the solution A; s3, carrying out hydrothermal reaction on the solution prepared in the step S2; s4, performing suction filtration on the solid-liquidmixture subjected to the hydrothermal reaction in S3, performing acid pickling on a solid-phase sample, and performing back washing with distilled water; and S5, drying the solid-phase sample cleanedin the step S4, and firing to obtain the metal-doped catalyst. The metal-doped catalyst has higher catalytic performance, is environment-friendly and saves energy.

Description

technical field [0001] The invention relates to the technical field of catalysts for synthesizing bisphenol F, in particular to a novel metal-doped catalyst for selectively synthesizing bisphenol F and its preparation method and application. Background technique [0002] Bisphenol F is an important chemical intermediate, which is obtained by condensation reaction of phenol and formaldehyde through hydroxyalkylation. The main products are 2,2'-bisphenol F, 2,4'-bisphenol F and 4,4'-bisphenol F, which are composed of three isomers, among which 4,4'-bisphenol F isomer Best body performance. Because of its unique chemical structure, when synthesizing epoxy resin, polyester resin, polycarbon resin and as phenolic resin modifier and flame retardant, the heat resistance, moisture resistance, insulation, processability and injection molding of the obtained products Casting properties are far superior to similar products made of bisphenol A as raw material. Catalyst is one of the ...

Claims

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Application Information

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IPC IPC(8): B01J23/72B01J23/745B01J23/14B01J37/10B01J21/06C07C37/20C07C39/16C07C45/00C07C49/813
CPCB01J23/72B01J23/745B01J23/14B01J21/063B01J37/10C07C37/20C07C45/00B01J35/39C07C39/16C07C49/813
Inventor 王大伟杨清黄荣辉倪才华仇野
Owner JIANGNAN UNIV