Search Results - jan+siebert

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Sol-Gel Synthesis of the V2PC MAX Phase
Background Sol-gel chemistry is a well-known technique that allows for shape processability of target phases, and can be used for the formation of metal oxide and ceramic nanoparticles. Sol-gel chemistry involves dispersing metal ions that are derived from water soluble precursor salts throughout a semi-solid matrix. This allows for assured homogeneity...
Published: 9/7/2023   |   Inventor(s): Christina Birkel, Jordan Sinclair, Jan Siebert
Keywords(s):  
Category(s): Bioanalytical Assays, Chemistries & Devices, Physical Science, Manufacturing/Construction/Mechanical
Production of MAX Phase Cr2GaC Thick Films, Microspheres, and Hollow Microspheres
­Background MAX phases are ternary carbides and nitrides with unique combinations of ceramic properties (e.g., resistance to high temperature, fatigue, and damage) and metallic properties (e.g., high electrical and thermal conductivity). They can be used, for example, as coatings for electronics operating under extreme conditions. Synthesis of MAX...
Published: 2/23/2023   |   Inventor(s): Christina Birkel, Jan Siebert
Keywords(s): Materials and Electronics, Mechanical and Manufacturing
Category(s): Physical Science, Advanced Materials/Nanotechnology, Manufacturing/Construction/Mechanical
Sol-Gel Method for MAX Phase Microwire Synthesis
­Background MAX phases are ternary carbides and nitrides with unique combinations of ceramic properties (e.g., resistance to high temperature, fatigue, and damage) and metallic properties (e.g., high electrical and thermal conductivity). They can be used, for example, as coatings for electronics operating under extreme conditions. Synthesis of MAX...
Published: 2/23/2023   |   Inventor(s): Christina Birkel, Jan Siebert
Keywords(s): Materials and Electronics, Mechanical and Manufacturing
Category(s): Physical Science, Manufacturing/Construction/Mechanical, Advanced Materials/Nanotechnology, Chemical/Biological Sensors