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An in situ synthesis of single-atom bi 0 bridged tio 2 @biocl’s approach to composite photocatalytic materials

A technology of composite photocatalysis and in-situ synthesis, applied in the field of photocatalytic materials, can solve the problems of reducing the utilization rate of photogenerated electrons, high recombination rate of photogenerated carriers, and restricting applications, so as to improve photoreduction efficiency, low preparation cost, The effect of enhancing selectivity

Active Publication Date: 2021-09-14
UNIV OF SCI & TECH BEIJING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, single TiO 2 The high recombination rate of photogenerated carriers reduces the utilization rate of photogenerated electrons, which greatly restricts its photoreduction of CO 2 application in

Method used

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  • An in situ synthesis of single-atom bi <sup>0</sup> bridged tio <sub>2</sub> @biocl’s approach to composite photocatalytic materials
  • An in situ synthesis of single-atom bi <sup>0</sup> bridged tio <sub>2</sub> @biocl’s approach to composite photocatalytic materials
  • An in situ synthesis of single-atom bi <sup>0</sup> bridged tio <sub>2</sub> @biocl’s approach to composite photocatalytic materials

Examples

Experimental program
Comparison scheme
Effect test

Embodiment example 1

[0024] Add 20mg of P25 to 50mL of 8M NaOH solution, stir magnetically for 0.5h, then transfer to a reaction kettle, heat treat at 150°C for 30h, cool to room temperature naturally, centrifuge the white precipitate, wash with 0.1M HCl solution and remove Wash with ion water until the pH of the solution is 7, and dry at 80° C. for 12 hours to obtain hydrogen titanate nanotubes. Next, 50mg BiCl 3 and 50 μL of concentrated hydrochloric acid were added to 42 mL of absolute ethanol to obtain clear BiCl 3Then add 50 mg of hydrogen titanate nanotubes to the alcohol solution, after ultrasonic dispersion, stir for 1 h, then centrifuge to collect the precipitate and dry it at 80 °C for 1 h to obtain defect-rich hydrogen titanate / BiOCl composite Material. Then, the obtained defect-rich hydrogen titanate / BiOCl composite was placed in a tube furnace and annealed in air to obtain defect-rich TiO 2 @BiOCl heterojunction. Among them, the heating rate of the tube furnace is 5°C / min, the hea...

Embodiment example 2

[0028] Add 50mg of P25 to 50mL of 10M NaOH solution, stir magnetically for 0.5h, then transfer to a reaction kettle, heat treat at 150°C for 48h, cool to room temperature naturally, centrifuge the white precipitate, wash with 0.1M HCl solution and remove Wash with ion water until the pH of the solution is 7, and dry at 80° C. for 12 hours to obtain hydrogen titanate nanotubes. Next, 200mg BiCl 3 and 200 μL of concentrated hydrochloric acid were added to 42 mL of absolute ethanol to obtain clear BiCl 3 Then add 50 mg of hydrogen titanate nanotubes to the alcohol solution, after ultrasonic dispersion, stir for 1 h, then centrifuge to collect the precipitate and dry it at 80 °C for 1 h to obtain defect-rich hydrogen titanate / BiOCl composite Material. Then, the obtained defect-rich hydrogen titanate / BiOCl composite was placed in a tube furnace and annealed in air to obtain defect-rich TiO 2 @BiOCl heterojunction. Among them, the heating rate of the tube furnace is 7°C / min, the...

Embodiment example 3

[0032] Add 70mg of P25 to 50mL of 12M NaOH solution, stir it magnetically for 0.5h, then transfer it to a reaction kettle, heat-treat at 150°C for 50h, cool to room temperature naturally, centrifuge the white precipitate, and remove it with 0.1M HCl solution. Wash with ion water until the pH of the solution is 7, and dry at 80° C. for 12 hours to obtain hydrogen titanate nanotubes. Next, 300mg BiCl 3 and 300 μL of concentrated hydrochloric acid were added to 42 mL of absolute ethanol to obtain clear BiCl 3 Then add 50 mg of hydrogen titanate nanotubes to the alcohol solution, after ultrasonic dispersion, stir for 1 h, then centrifuge to collect the precipitate and dry it at 80 °C for 1 h to obtain defect-rich hydrogen titanate / BiOCl composite Material. Then, the obtained defect-rich hydrogen titanate / BiOCl composite was placed in a tube furnace and annealed in air to obtain defect-rich TiO 2 @BiOCl heterojunction. Among them, the heating rate of the tube furnace is 10°C / mi...

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Abstract

The invention discloses an in-situ synthesis of single atom Bi 0 Bridged TiO 2 A method for @BiOCl composite photocatalytic materials. The method first prepares defect-rich TiO by a combination of hydrothermal and annealing. 2 nanotube@BiOCl nanosheet heterojunction, and then in CO 2 In a mixed atmosphere with water vapor, under the action of a xenon lamp, TiO 2 In situ generation of Bi at the interface of nanotubes and BiOCl nanosheets 0 single atom interlayer. This metal Bi with high electron cloud density 0 Single atoms can efficiently guide electrons generated from BiOCl to TiO 2 Surface, accelerated composite catalyst photoreduction of CO 2 The efficiency of, meanwhile, the Bi released from BiOCl 0 single atoms in TiO 2 Bi-Ti bimetallic sites were reconstructed on the surface, which greatly improved the reduction product CH of the composite catalyst. 4 selectivity. This method is novel in idea, cheap and easy to obtain raw materials, low in cost, simple in process and good in repeatability. 2 Catalysts offer new ideas.

Description

technical field [0001] The invention belongs to the technical field of photocatalytic materials, in particular to an in-situ synthesis of single atom Bi 0 Bridged TiO 2 A method for @BiOCl composite photocatalytic materials. Background technique [0002] Combustion of fossil fuels and human activities have contributed to atmospheric CO 2 The ever-increasing content of carbon dioxide has led to numerous climate, environmental and energy issues becoming increasingly prominent. Therefore, it is necessary to develop low-cost catalysts with excellent catalytic performance to convert CO by photocatalytic means. 2 Converted to CO, CH 4 、CH 3 OH, CH 2 CH 2 and other high value-added carbon compounds to achieve CO 2 The utilization of energy is of great significance to solving environmental problems and energy crises. [0003] In many CO 2 Among catalytic energy utilization materials, TiO 2 Due to its non-toxic, cheap, stable chemical properties, and high catalytic activit...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J27/135C07C1/02C07C9/04
CPCB01J27/135B01J35/004C07C1/02C07C2527/135C07C9/04
Inventor 董文钧李荣洁栾庆洁董诚汤薇
Owner UNIV OF SCI & TECH BEIJING