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Frederic Te Zenhausern

from Fountain Hills, AZ
Age ~61
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Also known as:
Frederic D Zenhausern, Frederic M Zenhausern, Frederick Zenhausern, Frederic Zenhausern Blv, Zenhausern Dr Frederic, Frederick N, Frederic N, Frede N
Phone and address:
15818 Palomino Rd, Scottsdale, AZ 85268
Related to:
Monika A Fox, 47Nicole M Zenhausern, 66Ryan ZenhausernAlissia M Zenhausern, 32
Connected to:
Amer M Zeni, 41Christina M Zeni, 31Patrick D Zeni, 42Walter N Zenick, 83Blake D Zenie, 51Michael E Zenilman, 66Zenios M Zenios, 51Tracie D Zenis, 52Christina J Zenisek, 74Michael W Zenisek, 73

Frederic Zenhausern Phones & Addresses

  • 15818 Palomino Rd, Fountain Hills, AZ 85268
  • 15818 Palomino Blvd, Fountain Hills, AZ 85268
  • 610 Deer Pass Dr, Sedona, AZ 86351
  • 51 Elm Dr, Skillman, NJ 08558
  • Chandler, AZ
  • Princeton, NJ
  • Mohegan Lake, NY
  • Maricopa, AZ

Resumes

Resumes

Frederic Zenhausern Photo 1

Full Professor Basic Medical Science; Professor Biomedical Engineering; Center Director

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Location:
15818 east Palomino Blvd, Fountain Hills, AZ 85268
Industry:
Medical Devices
Work:
Tgen 2003 - 2010
Senior Investigator
The University of Arizona 2003 - 2010
Full Professor Basic Medical Science; Professor Biomedical Engineering; Center Director
Arizona State University 2003 - 2009
Director and Professor
Honor Health Research Institute 2003 - 2009
Director, Personalized Medicine Research Laboratory
Tgen 2003 - 2009
Professor and Associate Director, Mdtv
Education:
Rutgers University - Newark 1998 - 2000
Master of Business Administration, Masters, Finance University of Geneva 1989 - 1993
Doctorates, Doctor of Philosophy, Applied Physics University of Geneva 1987 - 1990
Bachelors, Bachelor of Science, Biochemistry
Frederic Zenhausern Photo 2

Endowed Chair Professor And Director

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Location:
15818 east Palomino Blvd, Fountain Hills, AZ 85268
Work:
The University of Arizona
Endowed Chair Professor and Director
Frederic Zenhausern Photo 3

Director And Professor At Center For Applied Nanobioscience, Arizona State University

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Position:
Director and Professor at Center for Applied Nanobioscience, Arizona State University
Location:
Phoenix, Arizona Area
Industry:
Medical Devices
Work:
Center for Applied Nanobioscience, Arizona State University
Director and Professor
Education:
Université de Geneve 1987 - 2002
Rutgers, The State University of New Jersey-Newark 1998 - 2000
MBA, finance

Business Records

Name / Title
Company / Classification
Phones & Addresses
Frederic Zenhausern
President
WHITESPACE ENTERPRISE CORPORATION
Commercial Physical Research, Nsk
15818 Palomino Blvd, Fountain Hills, AZ 85268
PO Box 15818, Scottsdale, AZ 85268
Frederic Zenhausern
Chairman
Diomics Corporation
Testing Laboratory
550 W Texas Ave, Midland, TX 79701
4145 W Mercury Way, Chandler, AZ 85226
3850 E Baseline Rd, Mesa, AZ 85206
PO Box 5666, La Jolla, CA 92037

Publications

Us Patents

Method And Apparatus For Monitoring A Physical Or Chemical Conversion Of A Grain Material

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US Patent:
6495341, Dec 17, 2002
Filed:
Dec 28, 2000
Appl. No.:
09/687407
Inventors:
Frederic Zenhausern - Fountain Hills AZ
Assignee:
Alpha MOS
International Classification:
G01N 3304
US Classification:
435 31, 4352875, 435 29, 435 34, 436122, 436 20
Abstract:
The present invention is a method and apparatus for monitoring, preferably in real time, the physical or chemical conversion of a grain material. The method employs multivariate analysis of a collected sample. In a preferred embodiment a steeping conversion is monitored by multicomponent chemical analysis of the steepwater.

Mhcd And Microfluidic Apparatus And Method

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US Patent:
6586885, Jul 1, 2003
Filed:
Aug 20, 2001
Appl. No.:
09/932913
Inventors:
Bernard F. Coll - Fountain Hills CA
Frederic Zenhausern - Fountain Hills AZ
Jeremy W. Burdon - Scottsdale AZ
Chowdary R. Koripella - Scottsdale AZ
Assignee:
Motorola, Inc. - Schaumburg IL
International Classification:
H05B 3126
US Classification:
31511121, 31511141, 250307, 257 21575, 216 41
Abstract:
A microhollow cathode discharge (MHCD) cavity and microfluidic channel are combined for interrogation of samples. The apparatus includes a dielectric body and layers of conductive material defining a MHCD cavity containing an environment for carrying a gas discharge within the MHCD cavity. The gas discharge generates gas based electromagnetic waves. Electrical connections apply a cathode discharge potential to the layers of conductive material. A microfluidic channel is integrated on the substrate, and a path extends from the MHCD cavity laterally through a portion of the microfluidic channel. A detector, which may be integrated on the common substrate, is positioned to receive electromagnetic waves from the path and electronic circuitry is coupled to the detector for acquiring and processing data.

Method And Apparatus For Plasma Treating A Chemical Species

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US Patent:
6624583, Sep 23, 2003
Filed:
Jun 28, 2002
Appl. No.:
10/185627
Inventors:
Bernard F. Coll - Fountain Hills AZ
Paul A. Vonallmen - Phoenix AZ
Frederic Zenhausern - Fountain Hills AZ
Assignee:
Motorola, Inc. - Schaumburg IL
International Classification:
H01J 724
US Classification:
31511171, 31511121, 31511191, 315 3955, 313581, 313618, 333221, 333231
Abstract:
A method of treating a first chemical species in a gas using a plasma, the method including the steps of providing an array of micro-scale cavity discharge devices capable of sustaining the plasma where the first chemical species is capable of flowing proximate to the array of micro-scale cavity discharge devices, wherein the first chemical species is converted to a second chemical species within the plasma.

Electro-Chemical Analysis Device With Integrated Thermal Sensor And Method For Monitoring A Sample Using The Device

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US Patent:
6756223, Jun 29, 2004
Filed:
Dec 18, 2001
Appl. No.:
10/024704
Inventors:
Peter C. Roberts - Gilbert AZ
Frederic Zenhausern - Fountain Hills AZ
Jeremy W. Burdon - Scottsdale AZ
Daniel J. Sadler - Gilbert AZ
Assignee:
Motorola, Inc. - Schaumburg IL
International Classification:
C12M 134
US Classification:
4352872, 4352883, 435 912, 422 98, 422109, 20440303, 20440313
Abstract:
An electro-chemical analysis device and method for analyzing biomolecular samples, including a means for holding a sample on a substrate platform, a thermal sensor, a biosensor formed having a specific spatial resolution as related to the thermal sensor, and a means for providing radiation to the biomolecular sample. The means for holding the sample, the thermal sensor, the biosensor, and the means for providing radiation all three-dimensionally integrated with the substrate platform, thereby defining a compact biomolecular analysis device having a volume resolution of less than 50 micro liters. During operation, radiation is provided to the biomolecular sample to provide for a constant temperature at which hybridization of the biomolecules takes place. The temperature of the biomolecular sample is monitored and controlled by the integrated thermal sensor and the integrated heater. Once hybridization takes place, the change in electric condition (e. g.

Near-Field Transform Spectroscopy

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US Patent:
6858436, Feb 22, 2005
Filed:
Apr 30, 2002
Appl. No.:
10/135790
Inventors:
Frederic Zenhausern - Fountain Hills AZ, US
Chia-Fu Chou - Chandler AZ, US
Assignee:
Motorola, Inc. - Schaumburg IL
International Classification:
G01N021/00
US Classification:
436164, 436171, 250306
Abstract:
An exemplary system and method for detecting at least one analyte in a sample comprises inter alia a source of radiation (), a near-field aperture array (), a chromatographic field (), a detector (), and a data processor (). Disclosed features and specifications may be variously controlled, adapted or otherwise optionally modified to improve detection of any sub-diffraction-limited scale phenomena. Exemplary embodiments of the present invention representatively provide for improved S/N, increased sample throughput, refined spectral resolution and enhanced detection sensitivity.

Method And Apparatus For Monitoring Materials Used In Electronics

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US Patent:
6975944, Dec 13, 2005
Filed:
Sep 28, 1999
Appl. No.:
09/407581
Inventors:
Frederic Zenhausern - Skillman NJ, US
Assignee:
Alpha MOS - Toulouse
International Classification:
G01N027/00
US Classification:
702 22, 702 23, 702 24, 702 30, 702 31
Abstract:
A method and apparatus suitable for monitoring the quality and/or performance of a processing aid or a component during manufacture, storage, or use of electronics or electronic assemblies is provided. The apparatus incorporates a sampling device, a multivariate sensing system (e. g. , a multi-sensor array or at least one sensor capable of measuring multiple variables) capable to process an analysis of low vapor pressure or vaporizable constituents in electronics by detecting some changes in the physico-chemical properties of the sensor and/or electronics and applying multivariate analysis. In one embodiment, the sensing system comprises an array of metal oxide sensors and a multivariate analysis algorithm for data processing. This method and apparatus can be employed for various quality control purposes such as contamination analysis or failure analysis of integrated circuits components.

Piezoelectric Mixing Method

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US Patent:
6986601, Jan 17, 2006
Filed:
May 13, 2003
Appl. No.:
10/437515
Inventors:
Daniel J. Sadler - Gilbert AZ, US
Rajnish G. Changrani - Champaign IL, US
Chia Fu Chou - Chandler AZ, US
Frederic Zenhausern - Fountain Hills AZ, US
Assignee:
Motorola, Inc. - Schaumburg IL
International Classification:
B01F 11/02
US Classification:
366116, 366127
Abstract:
A method for mixing at least two fluids includes introducing the at least two fluids into a mixing chamber. The mixing chamber includes a piezoelectric component () for mechanical actuation of fluid motion within or adjacent the mixing chamber. The piezoelectric component includes at least first (), second (), third (), and fourth () actuation domains, the first and third actuation domains being on first and third opposed sides of the piezoelectric component, and the second and fourth actuation domains being on second and fourth opposed sides of the piezoelectric component. The first and third domains are actuated at a first phase of a frequency of oscillation, and the second and fourth domains are actuated at a second phase of the frequency of oscillation.

Single Molecule Detection Of Bio-Agents Using The F1-Atpase Biomolecular Motor

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US Patent:
6989235, Jan 24, 2006
Filed:
Feb 11, 2003
Appl. No.:
10/365378
Inventors:
Lars Chapsky - Tempe AZ, US
Wayne D. Frasch - Phoenix AZ, US
Chia Fu Chou - Chandler AZ, US
Frederic Zenhausern - Fountain Hills AZ, US
Herbert Goronkin - Tempe AZ, US
Assignee:
Motorola, Inc. - Schaumburg IL
International Classification:
C12Q 1/68
C12P 19/34
US Classification:
435 6, 435 911, 435 912
Abstract:
An exemplary system and method of employing DNA hybridization for the detection of bio-agents is disclosed as comprising inter alia a biomolecular rotary motor (); a capture probe DNA fragment () effectively attached to said biomolecular motor (); a target DNA fragment () suitably adapted for hybridization with said capture probe DNA (); a signal probe DNA fragment () suitably adapted for hybridization with said target DNA (); and a fluorescent bead () attached to said signal probe DNA (). Disclosed features and specifications may be variously controlled, adapted or otherwise optionally modified to improve certain device fabrication parameters and/or performance metrics.
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Frederic Te Zenhausern from Fountain Hills, AZ, age ~61 Get Report