SUN YAT-SEN UNIVERSITY (20240327326). METHOD FOR PREPARING PT-BASED ALLOY / MOFS CATALYST WITH HIGH HYDROGENATION SELECTIVITY AND APPLICATION THEREOF simplified abstract
METHOD FOR PREPARING PT-BASED ALLOY / MOFS CATALYST WITH HIGH HYDROGENATION SELECTIVITY AND APPLICATION THEREOF
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METHOD FOR PREPARING PT-BASED ALLOY / MOFS CATALYST WITH HIGH HYDROGENATION SELECTIVITY AND APPLICATION THEREOF - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240327326 titled 'METHOD FOR PREPARING PT-BASED ALLOY / MOFS CATALYST WITH HIGH HYDROGENATION SELECTIVITY AND APPLICATION THEREOF
The present disclosure pertains to a method for preparing a Pt-based alloy/MOFs catalyst with high hydrogenation selectivity, utilizing a simple solvothermal method to create a unique structure with small metal particles uniformly distributed on the surface of MOFs.
- One-step preparation method for Pt-based alloy/MOFs catalyst
- Simple solvothermal method used for preparation
- Catalyst has small metal particles with uniform distribution
- Catalyst can catalytically hydrogenate cinnamaldehyde, 3-nitrostyrene, and dehydrogenate tetrahydroquinoline
- Wide range of applications for the catalyst
- Potential Applications:
The technology can be applied in various industries such as pharmaceuticals, fine chemicals, and petrochemicals for catalytic hydrogenation and dehydrogenation processes.
- Problems Solved:
The technology addresses the need for a catalyst with high hydrogenation selectivity, uniform distribution of metal particles, and a wide range of applications in different chemical reactions.
- Benefits:
- High hydrogenation selectivity
- Uniform distribution of metal particles
- Wide range of catalytic applications
- Simple and efficient preparation method
- Commercial Applications:
The technology can be utilized in the production of pharmaceuticals, specialty chemicals, and fuel refining processes, enhancing efficiency and selectivity in various reactions.
- Prior Art:
Readers can explore prior research on Pt-based alloy catalysts, MOFs, and catalytic hydrogenation processes to understand the background of this technology.
- Frequently Updated Research:
Stay updated on the latest advancements in Pt-based alloy catalysts, MOFs, and catalytic hydrogenation processes to enhance the understanding and application of this technology.
- Questions about Pt-based alloy/MOFs catalyst:
1. What are the key advantages of using a Pt-based alloy/MOFs catalyst in hydrogenation reactions? 2. How does the preparation method of the catalyst contribute to its catalytic performance?
Original Abstract Submitted
the present disclosure relates to the technical field of molecular biology, and in particular to a method for preparing a pt-based alloy/mofs catalyst with high hydrogenation selectivity, and a preparation method thereof. the present disclosure prepares a pt-based alloy/mofs structure with pt alloy particles uniformly supported on the surface of mofs in one step through a simple solvothermal method, the preparation method of the present disclosure is simple, the reaction environment is not harsh and does not require a special atmosphere. the resulting product has a unique structure, with small metal particles, uniform distribution and not easy to lose, and it will not affect the catalytic activity of the metal. in terms of catalytic performance, the obtained pt alloy/mofs catalyst can catalytically hydrogenate cinnamaldehyde under normal temperature and pressure, and has excellent performance. in addition, the catalyst can also catalyze the selective hydrogenation of 3-nitrostyrene, catalyze the dehydrogenation of tetrahydroquinoline, which proves that the catalyst of the present disclosure has a wide range of applications.