1
Jonathan Phillips: Plasma generation of supported metal catalysts. The Penn State Research Foundation, Thomas J Monahan, November 23, 1999: US05989648 (122 worldwide citation)


The present invention relates to a method of producing catalytic materials which comprises passing an aerosol comprising a mixture of metal powder and support through a plasma torch.


2
Jonathan Phillips, William L Perry, William J Kroenke: Method for producing metallic nanoparticles. The Regents of the University of California, Samuel L Borkowsky, February 10, 2004: US06689192 (112 worldwide citation)


Method for producing metallic nanoparticles. The method includes generating an aerosol of solid metallic microparticles, generating non-oxidizing plasma with a plasma hot zone at a temperature sufficiently high to vaporize the microparticles into metal vapor, and directing the aerosol into the hot z ...


3
Jonathan Phillips, Seth S Gleiman, Chun Ku Chen: Spherical boron nitride particles and method for preparing them. The Regents of the University of California, Samuel L Borkowsky, November 25, 2003: US06652822 (93 worldwide citation)


Spherical and polyhedral particles of boron nitride and method of preparing them. Spherical and polyhedral particles of boron nitride are produced from precursor particles of hexagonal phase boron nitride suspended in an aerosol gas. The aerosol is directed to a microwave plasma torch. The torch gen ...


4
Jonathan Phillips, Seth S Gleiman, Chun Ku Chen: Method for producing ceramic particles and agglomerates. The Regents of the University of California, Samuel L Borkowsky, July 17, 2001: US06261484 (83 worldwide citation)


A method for generating spherical and irregularly shaped dense particles of ceramic oxides having a controlled particle size and particle size distribution. An aerosol containing precursor particles of oxide ceramics is directed into a plasma. As the particles flow through the hot zone of the plasma ...


5
Randell L Mills, William R Good, Jonathan Phillips, Arthur I Popov: Lower-energy hydrogen methods and structures. Blacklight Power, Jeffrey S Farkas & Manelli PLLC Melcher, February 15, 2000: US06024935 (43 worldwide citation)


Methods and apparatus for releasing energy from hydrogen atoms (molecules) by stimulating their electrons to relax to quantized lower energy levels and smaller radii (smaller semimajor and semiminor axes) than the "ground state" by providing energy sinks or means to remove energy resonant with the h ...


6
Jonathan Phillips: Pediatric intramedullary nail and method. Krieg DeVault, March 7, 2006: US07008425 (36 worldwide citation)


An intramedullary nail (20) and related method for fixing a fracture in a long bone. The nail (20) comprises an elongate member (22) having a longitudinal axis (54), a proximal end section (32), a distal end section (34) and a solid central section (24) extending between the proximal and distal end ...


7
William Watler, Jonathan Phillips, David Young: System and method for dynamic modification of web content. Frost Brown Todd, William S Morriss, November 30, 2010: US07844907 (26 worldwide citation)


A system and method for dynamic modification and generation of data. One embodiment includes an annotation server that is connected to a user and a content provider. The annotation server is configured to modify a copy of an enterprise's stored Web content without necessarily modifying the actual st ...


8
Jonathan Phillips, William L Perry, William J Kroenke: Method for producing metallic microparticles. The Regents of the University of California, Samuel L Borkowsky, June 29, 2004: US06755886 (21 worldwide citation)


Method for producing metallic particles. The method converts metallic nanoparticles into larger, spherical metallic particles. An aerosol of solid metallic nanoparticles and a non-oxidizing plasma having a portion sufficiently hot to melt the nanoparticles are generated. The aerosol is directed into ...


9
Jonathan Phillips: Pediatric intramedullary nail and method. Krieg DeVault, L Scott Paynter, November 30, 2010: US07842036 (11 worldwide citation)


An intramedullary nail (20) and related method for fixing a fracture in a long bone. The nail (20) comprises an elongate member (22) having a longitudinal axis (54), a proximal end section (32), a distal end section (34) and a solid central section (24) extending between the proximal and distal end ...


10
Jonathan Phillips, William L Perry, Chun Ku Chen: Method for producing carbon nanotubes. The Regents of the University of California, Samuel L Borkowsky, February 14, 2006: US06998103 (9 worldwide citation)


Method for producing carbon nanotubes. Carbon nanotubes were prepared using a low power, atmospheric pressure, microwave-generated plasma torch system. After generating carbon monoxide microwave plasma, a flow of carbon monoxide was directed first through a bed of metal particles/glass beads and the ...



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