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Alex A Savtchenko

from Encinitas, CA
Age ~63
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Also known as:
Alexei Savtchenko, Ph Alexei Savtchenko, Alex Sautchenko, Alexei H, Alexei Dr H
Phone and address:
309 Hestia Way, Encinitas, CA 92024
(760) 230-1777
Related to:
Alexei Savtchenko
Connected to:
Cornel Savu, 71Gabriel T Savu, 75Kathrine M Savu, 70Patricia M Savu, 72Julian Savulescu, 51Christel P Savusa, 35Alexandra Savva, 33Alexander Savva, 56Andreas C Savva, 46Christa C Savva, 44

Alex Savtchenko Phones & Addresses

  • 309 Hestia Way, Encinitas, CA 92024 (760) 230-1777
  • San Diego, CA
  • 458 Havenside Ave, Newbury Park, CA 91320 (805) 498-1830
  • 2384 Panorama Dr, Eugene, OR 97405 (541) 485-8056
  • 4290 Wilkie Ct, Palo Alto, CA 94306 (650) 813-1863
  • Miami, FL

Resumes

Resumes

Alex Savtchenko Photo 1

Chief Executive Officer

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Location:
458 Havenside Ave, Ventura, CA
Industry:
Biotechnology
Work:
Partnership for Public Service - Washington D.C. Metro Area since Sep 2010
Associate Manager for Government Transformation and Agency Partnerships
Great Decisions Aug 2009 - May 2010
Teaching Assistant
University of North Carolina Jan 2008 - May 2010
Residential Computing Consultant
University of Oregon Jun 2009 - Aug 2009
Research Assistant
Museum of Flight Jun 2008 - Aug 2008
Aerospace Camp Instructor
Education:
University of North Carolina at Chapel Hill 2006 - 2010
B.A. With Honors and Distinction, International Studies and Peace, War, and Defense King's College 2008 - 2009
South Eugene High School 2004 - 2006
High School Diploma
Skills:
Public Speaking
Research
Strategy
Policy
Government
Nonprofits
Leadership
Program Management
Management
Policy Analysis
Public Policy
International Relations
Program Evaluation
Community Outreach
Proposal Writing
Fundraising
Nonprofit Organizations
Federal Government
Federal Agencies
Leadership Development
Team Leadership
Team Building
Information Technology
Cell
Drug Discovery
Assay Development
Biotechnology
High Throughput Screening
Electrophysiology
Fluorescence Microscopy
Cell Biology
Life Sciences
Fluorescence
Microscopy
Molecular Biology
Protein Chemistry
Cell Culture
Image Analysis
Optical Microscopy
Ion Channels
Gpcrs
In Vitro
Genomics
Stem Cells
Nanotechnology
Confocal Microscopy
Western Blotting
Biomarkers
Immunology
Validation
Biophysics
Protein Purification
Immunohistochemistry
Flow Cytometry
High Content Screening
Neuroscience
Hts
Hcs
Spectroscopy
Proteomics
In Vivo
Protein Expression
Tissue Culture
Immunofluorescence
Lifesciences
Purification
Signal Transduction
Elisa
Transfection
Bioinformatics
Dna
Computational Biology
Interests:
Management
Education
Photography
Science and Technology
Nanotechnology
Health
Languages:
Russian
French
German
English
Italian
Alex Savtchenko Photo 2

Staff Scientist - Sanford-Burnham Medical Research Institute

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Position:
Visiting Researcher at Sanford-Burnham Medical Research Institute
Location:
Greater San Diego Area
Industry:
Biotechnology
Work:
Sanford-Burnham Medical Research Institute since 2010
Visiting Researcher
Skills:
Electrophysiology
HTS
HCS
Optical Microscopy
Fluorescence Microscopy
High Throughput Screening
Drug Discovery
Cell
Assay Development
Protein Chemistry
Fluorescence
Microscopy
Validation
Cell Biology
Biotechnology
Interests:
Nanotechnology, management, photography
Alex Savtchenko Photo 3

Chief Executive Officer

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Location:
San Diego, CA
Work:
Nanotools Bioscience
Chief Executive Officer

Publications

Us Patents

Monitoring And Manipulating Cellular Transmembrane Potentials Using Nanostructures

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US Patent:
20100116664, May 13, 2010
Filed:
Mar 8, 2006
Appl. No.:
11/371465
Inventors:
Michael J. Ignatius - Eugene OR, US
Elena Molokanova - Eugene OR, US
Alex Savtchenko - Eugene OR, US
International Classification:
G01N 27/26
US Classification:
204536
Abstract:
The use of nanostructures to monitor or modulate changes in cellular membrane potentials is disclosed. Nanoparticles having phospholipid coatings were found to display improved responses relative to nanoparticles having other coatings that do not promote localization or attraction to membranes.

Monitoring And Manipulating Cellular Transmembrane Potentials Using Nanostructures

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US Patent:
20100178665, Jul 15, 2010
Filed:
Dec 31, 2009
Appl. No.:
12/651221
Inventors:
Michael J. IGNATIUS - Eugene OR, US
Elena MOLOKANOVA - Eugene OR, US
Alex SAVTCHENKO - Eugene OR, US
Assignee:
LIFE TECHNOLOGIES CORPORATION - Carlsbad CA
International Classification:
C12Q 1/02
US Classification:
435 29
Abstract:
The use of nanostructures to monitor or modulate changes in cellular membrane potentials is disclosed. Nanoparticles having phospholipid coatings were found to display improved responses relative to nanoparticles having other coatings that do not promote localization or attraction to membranes.

Monitoring And Manipulating Cellular Transmembrane Potentials Using Nanostructures

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US Patent:
20130033252, Feb 7, 2013
Filed:
Sep 7, 2012
Appl. No.:
13/606434
Inventors:
Michael J. IGNATIUS - Eugene OR, US
Elena MOLOKANOVA - Eugene OR, US
Alex SAVTCHENKO - Eugene OR, US
Assignee:
LIFE TECHNOLOGIES CORPORATION - Carlsbad CA
International Classification:
G01N 27/00
US Classification:
324 711
Abstract:
The use of nanostructures to monitor or modulate changes in cellular membrane potentials is disclosed. Nanoparticles having phospholipid coatings were found to display improved responses relative to nanoparticles having other coatings that do not promote localization or attraction to membranes.

Device And Technique For Multiple Channel Patch Clamp Recordings

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US Patent:
20020108869, Aug 15, 2002
Filed:
Feb 9, 2001
Appl. No.:
09/779955
Inventors:
Alex Savtchenko - Palo Alto CA, US
International Classification:
C12N013/00
US Classification:
205/777500, 435/285200
Abstract:
A device to facilitate electrophysiological measurements of a biological material comprises a plate having a plurality of wells that each have an end. At least some of the wells have a hole formed in the end, and the holes are configured to receive an individual cell such that a high resistance seal is formed between the cell and the end. A chamber is disposed adjacent the plate and is in fluid communication with each of the holes. A common electrode is disposed in the chamber, and a plurality of well electrodes are configured to be positioned within the wells. In this way, a voltage gradient may be created across cell membranes of cells that are positioned within the holes so that electrophysiological measurements of the cells may be taken.

Graphene-Based Multi-Modal Sensors

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US Patent:
20200333254, Oct 22, 2020
Filed:
May 4, 2020
Appl. No.:
16/865916
Inventors:
- La Jolla CA, US
Darren J. Lipomi - San Diego CA, US
Alex Savtchenko - Encinitas CA, US
Elena Molokanova - Encinitas CA, US
Mark Mercola - La Jolla CA, US
Assignee:
The Regents of the University of California - La Jolla CA
International Classification:
G01N 21/65
C23C 14/02
C23C 14/04
C23C 14/18
C23C 14/30
C23C 16/01
C23C 16/02
C23C 16/26
G01L 1/18
G01N 27/02
Abstract:
A method for fabricating a composite film structure, the method includes determining a desired morphology for a metallic layer of the composite film structure, selecting a first metal substrate based on the determining, transferring a graphene layer onto the first metal substrate, depositing the metallic layer on the graphene layer to achieve the desired morphology, and removing the first metal substrate from the graphene and the deposited metallic layer to form the composite film structure. A surface energy difference between the first metal substrate and the deposited metallic layer results in the desired morphology of the metallic layer.

Graphene-Based Multi-Modal Sensors

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US Patent:
20180100802, Apr 12, 2018
Filed:
Dec 5, 2017
Appl. No.:
15/832511
Inventors:
- Oakland CA, US
Darren J. Lipomi - San Diego CA, US
Alex Savtchenko - Encinitas CA, US
Elena Molokanova - Encinitas CA, US
Mark Mercola - La Jolla CA, US
Assignee:
The Regents of the University of California - Oakland CA
International Classification:
G01N 21/65
C23C 16/26
C23C 14/18
G01N 27/02
C23C 16/02
C23C 16/01
C23C 14/30
G01L 1/18
Abstract:
A method for fabricating a composite film structure, the method includes determining a desired morphology for a metallic layer of the composite film structure, selecting a first metal substrate based on the determining, transferring a graphene layer onto the first metal substrate, depositing the metallic layer on the graphene layer to achieve the desired morphology, and removing the first metal substrate from the graphene and the deposited metallic layer to form the composite film structure. A surface energy difference between the first metal substrate and the deposited metallic layer results in the desired morphology of the metallic layer.

Graphene-Based Multi-Modal Sensors

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US Patent:
20170102334, Apr 13, 2017
Filed:
Oct 7, 2016
Appl. No.:
15/288687
Inventors:
- Oakland CA, US
Darren J. Lipomi - San Diego CA, US
Alex Savtchenko - Encinitas CA, US
Elena Molokanova - Encinitas CA, US
Mark Mercola - La Jolla CA, US
International Classification:
G01N 21/65
C23C 16/02
G01N 27/02
C23C 14/30
C23C 16/01
G01L 1/18
C23C 16/26
C23C 14/18
Abstract:
A method for fabricating a composite film structure, the method includes determining a desired morphology for a metallic layer of the composite film structure, selecting a first metal substrate based on the determining, transferring a graphene layer onto the first metal substrate, depositing the metallic layer on the graphene layer to achieve the desired morphology, and removing the first metal substrate from the graphene and the deposited metallic layer to form the composite film structure. A surface energy difference between the first metal substrate and the deposited metallic layer results in the desired morphology of the metallic layer.

Nanostructure Conjugates For Modulation Of Location-Specific Subtypes Of Receptors And Ion Channels

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US Patent:
20160271271, Sep 22, 2016
Filed:
Nov 4, 2014
Appl. No.:
15/034263
Inventors:
Elena Molokanova - Encinitas CA, US
Gary B Braun - Santa Barbara CA, US
Alex Savtchenko - Encinitas CA, US
International Classification:
A61K 47/48
A61K 31/13
Abstract:
Nanostructure conjugates, methods for their preparation, and methods for their use are described. The nanostructure conjugates are useful in inhibiting, activating, and modulating extrasynaptic receptors and ion channels, and in treating various medical conditions among other attractive uses.
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Alex A Savtchenko from Encinitas, CA, age ~63 Get Report