Livingston Greens
Co-Founder
Electric Park
President
Citizens' Climate Lobby Sep 2016 - Feb 2018
State Liaison Strategy Director
Ideatrot Sep 2016 - Feb 2018
Engineering Consultant
Dechellis Household Jun 2015 - Jun 2016
1-Year Sabbatical
Education:
The University of Texas at Austin 1998 - 2003
Bachelors, Bachelor of Science, Mechanical Engineering
University of South Carolina
Bachelors, Bachelor of Science
Skills:
Semiconductors Engineering Product Development Automation Robotics Semiconductor Industry Manufacturing Metrology Simulations Engineering Management Materials Finite Element Analysis Solidworks Inventor Control Systems Design Renewable Energy Systems Research and Development Cross Functional Team Leadership Design of Experiments Pdm Geothermal Heating and Cooling
Mar 2013 to 2000 Insurance AgentPGA Championship Kiawah Island, SC Jun 2012 to Aug 2012 Tournament Operations AssistantAugusta National Golf Club Augusta, GA Apr 2010 to 2012 Masters Tournament Golf Shop AttendantTampa Bay Buccaneers (NFL) Tampa, FL May 2011 to Aug 2011 Purchasing InternInternational Management Group (IMG) New York, NY Jun 2010 to Jul 2010 Sales & Marketing/Media Intern
Education:
University of South Carolina Columbia, SC 2008 to 2012 Bachelor of Science in Sport & Entertainment Management
Us Patents
Manufacture Of An Integrated Fluid Delivery System For Semiconductor Processing Apparatus
Mark Crockett - Foster City CA, US John W. Lane - San Jose CA, US Michael J. DeChellis - Austin TX, US Chris Melcer - Sunnyvale CA, US Erica R. Porras - San Jose CA, US Aneesh Khullar - Sunnyvale CA, US Balarabe N. Mohammed - Union City CA, US
Assignee:
Applied Materials, Inc. - Santa Clara CA
International Classification:
F16K 31/00
US Classification:
251 635, 29890131, 29840, 251368
Abstract:
A space-conserving integrated fluid delivery system which is particularly useful for gas distribution in semiconductor processing equipment. The fluid delivery system includes an integrated fluid flow network architecture, which may include, in addition to a layered substrate containing fluid flow channels, various fluid handling and monitoring components. The layered substrate is diffusion bonded, and the various fluid handling and monitoring components may be partially integrated or fully integrated into the substrate, depending on design and material requirements.
Micromachined Integrated Fluid Delivery System With Dynamic Metal Seat Valve And Other Components
Mark Crockett - Foster City CA, US John Lane - San Jose CA, US Michael DeChellis - Austin TX, US Chris Melcer - Sunnyvale CA, US Erica Porras - San Jose CA, US Aneesh Khullar - Whitefish Bay WI, US Balarabe Mohammed - Union City CA, US
Assignee:
Applied Materials, Inc.
International Classification:
F16K031/163
US Classification:
251/063500
Abstract:
The disclosure pertains to a space-conserving integrated fluid delivery system which is particularly useful for gas distribution in semiconductor processing equipment. The present invention also pertains to an integrated fluid flow network architecture, which may include, in addition to a layered substrate containing fluid flow channels, various fluid handling and monitoring components. The layered substrate is diffusion bonded, and the various fluid handling and monitoring components may be partially integrated or fully integrated into the substrate, depending on design and material requirements.
In-Line Filter In A Diffusion Bonded Layered Substrate
Mark Crockett - Foster City CA, US John Lane - San Jose CA, US Michael DeChellis - Austin TX, US Chris Melcer - Sunnyvale CA, US Erica Porras - San Jose CA, US Aneesh Khullar - Sunnyvale CA, US Balarabe Mohammed - Union City CA, US
International Classification:
B01D 50/00
US Classification:
055385600
Abstract:
A space-conserving integrated fluid delivery system which is particularly useful for gas distribution in semiconductor processing equipment. The invention pertains to a diffusion bonded integrated fluid flow network architecture, which includes, in addition to a layered substrate containing fluid flow channels, an in-line filter and may include various fluid handling and monitoring components. The integrated fluid delivery system that is formed from a layered substrate is diffusion bonded, and the various fluid handling and monitoring components may be partially integrated or fully integrated into the substrate, depending on design and material requirements.
Method Of Improving Corrosion Resistance Of Stainless Steel Surfaces By A Process Of Passivation
Mark Crockett - Foster City CA, US John Lane - San Jose CA, US Michael DeChellis - Austin TX, US Chris Melcer - Sunnyvale CA, US Erica Porras - San Jose CA, US Aneesh Khullar - Sunnyvale CA, US Balarabe Mohammed - Union City CA, US
Described is a space-conserving integrated fluid delivery system particularly useful for gas distribution in semiconductor processing equipment. The system includes integrated fluid flow network architecture, and may include, in addition to a layered substrate containing fluid flow channels, various fluid handling and monitoring components. The layered substrate is diffusion bonded. Subsequent to diffusion bonding, a stainless steel diffusion bonded part may advantageously be treated to enhance corrosion resistance using a series of steps designed to bring more chromium to the surface of the steel.
Capacitance Dual Electrode Pressure Sensor In A Diffusion Bonded Layered Substrate
Mark Crockett - Foster City CA, US John Lane - San Jose CA, US Michael DeChellis - Austin TX, US Chris Melcer - Sunnyvale CA, US Erica Porras - San Jose CA, US Aneesh Khullar - Whitefish Bay WI, US Balarabe Mohammed - Union City CA, US
International Classification:
G01L 9/12
US Classification:
073718000
Abstract:
The disclosure pertains to a space-conserving integrated fluid delivery system which is particularly useful for gas distribution in semiconductor processing equipment. The present invention also pertains to an integrated fluid flow network architecture, which may include, in addition to a layered substrate containing fluid flow channels, various fluid handling and monitoring components. The layered substrate is diffusion bonded, and the various fluid handling and monitoring components may be partially integrated or fully integrated into the substrate, depending on design and material requirements.
Diffusion Bonded Fluid Flow Manifold With Partially Integrated Inter-Active Component
Mark Crockett - Foster City CA, US John Lane - San Jose CA, US Michael DeChellis - Austin TX, US Chris Melcer - Sunnyvale CA, US Erica Porras - San Jose CA, US Aneesh Khullar - Sunnyvale CA, US Balarabe Mohammed - Union City CA, US
International Classification:
B23K 20/00 H01L 21/00
US Classification:
029025010, 228193000
Abstract:
A space-conserving integrated fluid delivery system which is particularly useful for gas distribution in semiconductor processing equipment. The fluid delivery system includes an integrated fluid flow network architecture, which may include, in addition to a layered substrate containing fluid flow channels, various fluid handling and monitoring components. The layered substrate is diffusion bonded, and the various fluid handling and monitoring components may be partially integrated or fully integrated into the substrate, depending on design and material requirements.
- Bozeman MT, US Michael DeChellis - Livingston MT, US Meghan Pieper - New Brighton MN, US
International Classification:
A01G 31/02 A01G 22/25 A01G 20/20 A01G 9/02
Abstract:
A vertical farming system is disclosed herein. The vertical farming system can comprise a frame configured to fit into an enclosed growing environment. The vertical farming system can further comprise a track supported by the frame, where the track is configured to provide side access. The vertical farming system also includes an irrigation conduit coupled to the frame adjacent to the track. The vertical farming system includes a growth media field where the growth media field includes brackets coupled to a top portion of the growth media field. The growth media field can be made of porous material configured to form a root zone environment support and provide fluid distribution to root systems. The brackets can be configured to slidably couple to one or more tracks such that the growth media field is suspended from the one or more tracks.