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ZYVEX CORP

Overview
  • Total Patents
    113
About

ZYVEX CORP has a total of 113 patent applications. Its first patent ever was published in 2000. It filed its patents most often in United States, WIPO (World Intellectual Property Organization) and China. Its main competitors in its focus markets micro-structure and nano-technology, machines and electrical machinery and energy are TSINGHUA UNIVERSITY HONGFUJIN, HIRAKI AKIO and NANO PROPRIETARY INC.

Patent filings per year

Chart showing ZYVEX CORPs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Skidmore George D 28
#2 Ellis Matthew D 23
#3 Geisberger Aaron 19
#4 Bray Ken 13
#5 Dyer Mark J 12
#6 Parker Eric G 12
#7 Baur Christof 11
#8 Chen Jian 9
#9 Tsui Kenneth 8
#10 Yu Min-Feng 8

Latest patents

Publication Filing date Title
US2008087841A1 On-chip reflectron and ion optics
US2008078745A1 RF Coil Plasma Generation
US2008078506A1 RF Coil Plasma Generation
US2008017794A1 Coaxial ring ion trap
KR20060133099A Methods for the synthesis of modular poly(phenyleneethynylenes) and fine tuning the electronic properties thereof for the functionalization of nanomaterials
US2005181636A1 Sockets for microassembly
JP2005251745A Probe operation of charged particle beam device
TW200531420A Positioning device for microscopic motion
US2005199822A1 MEMS based charged particle deflector design
US2006083927A1 Thermal interface incorporating nanotubes
EP1671346A2 Method, system and device for microscopic examination employing fib-prepared sample grasping element
US2006005602A1 Calibration for automated microassembly
CN1813023A Nanocomposites and methods thereto
US2005162806A1 Thermal plastic deformation of RF MEMS devices
US2005199821A1 Compact microcolumn for automated assembly
US6923669B1 Microconnectors and non-powered microassembly therewith
US2005161751A1 MEMS device having compact actuator
US2005137652A1 System and method for interfacing cellular matter with a machine
US6877316B1 Electro-thermal scratch drive actuator
US2005077468A1 Systems and method for picking and placing of nanoscale objects utilizing differences in chemical and physical binding forces