Applied materials, inc. (20240301549). METAL ORGANONITRILE PRECURSORS FOR THIN FILM DEPOSITION simplified abstract
METAL ORGANONITRILE PRECURSORS FOR THIN FILM DEPOSITION
Organization Name
Inventor(s)
Thomas Joseph Knisley of Livonia MI (US)
Bhaskar Jyoti Bhuyan of San Jose CA (US)
Mark Saly of Santa Clara CA (US)
Shalini Tripathi of Detroit MI (US)
Charles H. Winter of Bloomfield Hills MI (US)
Zachary J. Devereaux of Webberville MI (US)
METAL ORGANONITRILE PRECURSORS FOR THIN FILM DEPOSITION - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240301549 titled 'METAL ORGANONITRILE PRECURSORS FOR THIN FILM DEPOSITION
The patent application discusses metal complexes with nitrile ligands of the type MOXL, where M is molybdenum or tungsten, X is a halogen, and each L is an organonitrile ligand with the general formula NCR, where each R is a C2-C18 group. It also covers metal complexes with dinitrile bidentate ligands of the type MOXL', where L' is a dinitrile ligand, and dinitrile bridging ligands of the type (MOX)L', where L' is a dinitrile bridging ligand connecting the two metal atoms. Methods of making and using these metal complexes are described.
- Metal complexes with nitrile ligands MOXL
- Metal complexes with dinitrile bidentate ligands MOXL'
- Metal complexes with dinitrile bridging ligands (MOX)L'
- Methods of making and using these metal complexes
Potential Applications: - Catalysis in organic synthesis - Coordination chemistry studies - Material science research
Problems Solved: - Enhancing catalytic activity - Exploring new coordination chemistry - Advancing material science research
Benefits: - Improved understanding of metal-nitrile interactions - Potential for novel catalytic applications - Contribution to the field of inorganic chemistry
Commercial Applications: Title: "Innovative Metal Complexes with Nitrile Ligands for Advanced Catalysis" This technology could be utilized in pharmaceutical manufacturing, fine chemical production, and academic research laboratories. The market implications include potential collaborations with chemical companies and academic institutions for further research and development.
Prior Art: Readers can start searching for prior art related to metal-nitrile complexes in inorganic chemistry journals, patent databases, and academic publications.
Frequently Updated Research: Stay updated on the latest advancements in metal-nitrile complex research by following key journals in inorganic chemistry and attending relevant conferences and symposiums.
Questions about Metal Complexes with Nitrile Ligands: 1. How do metal-nitrile complexes impact catalytic reactions in organic synthesis? 2. What are the potential environmental implications of using metal complexes with nitrile ligands in industrial applications?
Original Abstract Submitted
metal complexes with nitrile ligands of the type moxl, where m is molybdenum or tungsten, x is a halogen, each l is independently an organonitrile ligand with the general formula ncr, where each r is independently a c2-c18 group. metal complexes with dinitrile bidentate ligands of the type moxl′, where l′ is a dintrile ligand, and dinitrile bridging ligands of the type (mox)l′, where l′ is a dinitrile bridging ligand connecting the two metal atoms. methods of making and using the metal complexes are described.