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Load-type monoatomic catalyst and preparation method thereof

A catalyst and supported technology, which is applied in chemical instruments and methods, physical/chemical process catalysts, metal/metal oxide/metal hydroxide catalysts, etc., can solve problems such as poor stability, low loading capacity, and complicated procedures. Achieve the effect of improving the utilization rate of atoms and reducing the amount of precious metals

Active Publication Date: 2019-01-18
INST OF ADVANCED TECH UNIV OF SCI & TECH OF CHINA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the current methods for synthesizing single-atom catalysts generally have problems such as low loading capacity, poor stability, complex procedures, and poor synthesis controllability. The development of convenient and effective single-atom catalyst synthesis methods is of great significance in the field of catalysis.

Method used

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  • Load-type monoatomic catalyst and preparation method thereof
  • Load-type monoatomic catalyst and preparation method thereof
  • Load-type monoatomic catalyst and preparation method thereof

Examples

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Embodiment 1

[0026] A method for preparing a supported single-atom catalyst, wherein the catalyst is composed of monodisperse iridium atoms uniformly supported on the surface of two-dimensional cobalt hydroxide nanosheets, the preparation method comprising:

[0027] Cobalt hydroxide two-dimensional nanoflakes are made into a uniform ink with a concentration of 4 mg / mL, and 5 μL of the uniform ink is evenly loaded onto a glassy carbon electrode with a diameter of 3 mm. The electrode is used as the working electrode in the three-electrode system, the graphite rod is used as the counter electrode, and the silver / silver chloride electrode is used as the reference electrode; Stir evenly in the iridium chloride aqueous solution to obtain an electrolyte solution containing iridium tetrachloride, and the concentration of iridium is 0.1mmol / L, using CHI 660E electrochemical workstation of Shanghai Chenhua Company, at a scanning speed of 5mV / s, and the cathode deposition The scanning potential (rela...

Embodiment 2

[0030] A preparation method of a supported single-atom catalyst, the catalyst is composed of monodisperse ruthenium atoms uniformly supported on the surface of two-dimensional cobalt hydroxide nanosheets, the preparation method comprising:

[0031] Cobalt hydroxide two-dimensional nanoflakes are made into a uniform ink with a concentration of 4 mg / mL, and 5 μL of the uniform ink is evenly loaded onto a glassy carbon electrode with a diameter of 3 mm. The electrode is used as the working electrode in the three-electrode system, the graphite rod is used as the counter electrode, and the silver / silver chloride electrode is used as the reference electrode; Stir evenly in the ruthenium chloride aqueous solution to obtain an electrolyte solution containing ruthenium trichloride, and the concentration of ruthenium is 0.2mmol / L, using CHI 660E electrochemical workstation of Shanghai Chenhua Company, the scanning speed is 4.8mV / s, and the cathode The deposition scan potential (relative...

Embodiment 3

[0034] A preparation method of a supported single-atom catalyst, the catalyst is composed of monodisperse rhodium atoms uniformly supported on the surface of two-dimensional cobalt hydroxide nanosheets, the preparation method comprising:

[0035] Cobalt hydroxide two-dimensional nanoflakes are made into a uniform ink with a concentration of 4 mg / mL, and 5 μL of the uniform ink is evenly loaded onto a glassy carbon electrode with a diameter of 3 mm. The electrode is used as the working electrode in the three-electrode system, the graphite rod is used as the counter electrode, and the silver / silver chloride electrode is used as the reference electrode; Stir well in the sodium hexachlororhodate aqueous solution, obtain the electrolytic solution that comprises sodium hexachlororhodiumate, and the concentration of rhodium is 0.4mmol / L, use CHI660E electrochemical workstation of Shanghai Chenhua Company, at scanning speed be 5.2mV / s, And the cathodic deposition scanning potential (r...

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Abstract

The invention provides a load-type monoatomic catalyst. The catalyst is formed by uniformly loading monodispersed metal atoms on the surface of a nano substrate material. A preparation method thereofcomprises the following steps: in an electrolyte solution containing metal salt, performing electrochemical deposition by using a three-electrode system, using a glassy carbon electrode loaded with the nano substrate material as a working electrode, using a graphite rod as a counter electrode, using a silver / silver chloride electrode as a reference electrode, performing linear volt-ampere scanning, enabling the metal atoms to be monodispersely and uniformly deposited on the nano substrate material, to obtain the load-type monoatomic catalyst. The load-type monoatomic catalyst is capable of, based on electro-deposition, constructing a monoatomic structure, through an electro-deposition method, rapidly, efficiently, and controllably depositing single atoms, and realizing deposition of positive and negative electrodes, and the obtained load-type monoatomic catalyst has important significance to a general application in the catalytic and particle physical field.

Description

technical field [0001] The invention relates to the technical field of supported single-atom catalysts, in particular to a supported single-atom catalyst and a preparation method thereof. Background technique [0002] The emerging single-atom structure is obtained by depositing individual metal atoms on the substrate material independently. A series of characteristics such as synergy, especially in the field of catalysis. At present, single-atom catalysts have shown excellent activity, selectivity and stability in a series of reactions, such as water-gas shift, hydrogenation, water electrolysis, oxygen reduction, etc., and the metal loading can be effectively reduced by designing single-atom catalysts , improve atomic utilization and save costs. In addition, the single-atom structure in single-atom catalysts also provides a platform for particle physics research on atomic models. However, the current methods for synthesizing single-atom catalysts generally have problems s...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J23/89B01J23/835B01J23/825B01J27/24B01J27/051C25D5/18
CPCB01J23/825B01J23/835B01J23/8913B01J27/0515B01J27/24C25D5/18
Inventor 张志荣冯晨刘春晓周仕明曾杰
Owner INST OF ADVANCED TECH UNIV OF SCI & TECH OF CHINA
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