20240010935. HIERARCHICALLY ORDERED CRYSTALLINE MICROPOROUS MATERIALS WITH LONG-RANGE MESOPOROUS ORDER HAVING CUBIC SYMMETRY simplified abstract (Saudi Arabian Oil Company)
HIERARCHICALLY ORDERED CRYSTALLINE MICROPOROUS MATERIALS WITH LONG-RANGE MESOPOROUS ORDER HAVING CUBIC SYMMETRY
Organization Name
Inventor(s)
Rajesh Kumar Parsapur of Thuwal (SA)
Robert P. Hodgkins of Dhahran (SA)
Omer Refa Koseoglu of Dhahran (SA)
Anissa Bendjeriou Sedjerari of Thuwal (SA)
HIERARCHICALLY ORDERED CRYSTALLINE MICROPOROUS MATERIALS WITH LONG-RANGE MESOPOROUS ORDER HAVING CUBIC SYMMETRY - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240010935 titled 'HIERARCHICALLY ORDERED CRYSTALLINE MICROPOROUS MATERIALS WITH LONG-RANGE MESOPOROUS ORDER HAVING CUBIC SYMMETRY
Simplified Explanation
The patent application describes a composition of matter that consists of a hierarchically ordered crystalline microporous material. This material has a well-defined long-range mesoporous ordering of cubic symmetry. The composition contains mesopores with walls made of crystalline microporous material, and there is a mass of mesostructure between these mesopores.
- The composition is a hierarchically ordered crystalline microporous material.
- It possesses well-defined long-range mesoporous ordering of cubic symmetry.
- The mesopores have walls made of crystalline microporous material.
- There is a mass of mesostructure between the mesopores.
- The long-range ordering can be observed through secondary peaks in an x-ray diffraction pattern or by microscopy.
Potential applications of this technology:
- Catalysis: The hierarchically ordered crystalline microporous material can be used as a catalyst in various chemical reactions.
- Gas separation: The mesoporous structure of the composition allows for efficient separation of gases based on their molecular size.
- Drug delivery: The mesopores can be used to encapsulate and deliver drugs to specific targets in the body.
Problems solved by this technology:
- Lack of efficient catalysts: The hierarchically ordered crystalline microporous material can provide a highly efficient catalyst for various chemical reactions.
- Inefficient gas separation: The mesoporous structure of the composition allows for more efficient separation of gases, reducing energy consumption.
- Limited control over drug delivery: The mesopores can provide a controlled release of drugs, improving the effectiveness of drug delivery.
Benefits of this technology:
- Improved catalytic efficiency: The hierarchically ordered crystalline microporous material can enhance the efficiency of catalytic reactions, leading to faster and more sustainable chemical processes.
- Enhanced gas separation: The mesoporous structure allows for more efficient separation of gases, enabling better purification and utilization of gases.
- Controlled drug delivery: The mesopores provide a controlled release of drugs, improving the therapeutic efficacy and reducing side effects.
Original Abstract Submitted
a composition of matter is provided comprising hierarchically ordered crystalline microporous material having well-defined long-range mesoporous ordering of cubic symmetry. the composition possesses mesopores having walls of crystalline microporous material and a mass of mesostructure between mesopores of crystalline microporous material. long-range ordering is defined by presence of secondary peaks in an x-ray diffraction (xrd) pattern and/or cubic symmetry observable by microscopy.
