User:Jonathan Cline/Notebook: Difference between revisions
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* Better, Faster Bio with Integrated Devices using Robotics (2009) http://openwetware.org/wiki/User:Jonathan_Cline/Notebook/Robotics/20091013 | * Better, Faster Bio with Integrated Devices using Robotics (2009) http://openwetware.org/wiki/User:Jonathan_Cline/Notebook/Robotics/20091013 | ||
** Start web slideshow: [http://openwetware.org/ | ** Start web slideshow: [http://openwetware.org/wiki/User:Jonathan_Cline/Notebook/Robotics/20091013 Better, Faster Bio with Integrated Devices using Robotics] | ||
* Microbiology Sensor-Heat Controller Board: The '''Sensomatic''' (2013) http://openwetware.org/wiki/User:Jonathan_Cline/Notebook/Sensomatic/20130323 | * Microbiology Sensor-Heat Controller Board: The '''Sensomatic''' (2013) http://openwetware.org/wiki/User:Jonathan_Cline/Notebook/Sensomatic/20130323 | ||
** Start web slideshow: [http://openwetware.org/ | ** Start web slideshow: [http://openwetware.org/wiki/User:Jonathan_Cline/Notebook/Sensomatic/20130323 Microbiology Sensor-Heat Controller Board: The '''Sensomatic'''] | ||
* Microbiology Sensors (2013) http://openwetware.org/wiki/User:Jonathan_Cline/Notebook/Sensors/20130430 | |||
** Start web slideshow: [http://openwetware.org/wiki/User:Jonathan_Cline/Notebook/Sensors/20130430 Microbiology Sensors (2013)] | |||
== My Projects == | == My Projects == | ||
* Perl CPAN module for Bio-robotics, Robotics and Robotics::Tecan | * Perl CPAN module for Bio-robotics, Robotics and Robotics::Tecan | ||
** Write biology protocols as simple instructions, biorobot performs the protocol. First though, write a module to talk to any connected robotics devices. [http://88proof.com/synthetic_biology/blog | ** Write biology protocols as simple instructions, biorobot performs the protocol. First though, write a module to talk to any connected robotics devices. [http://88proof.com/synthetic_biology/blog 88 Proof Synth Bio Blog - Look around for Perl stuff] | ||
* Digital Microfluidics using Electrowetting-on-Dielectric (EWOD) | * Digital Microfluidics using Electrowetting-on-Dielectric (EWOD) | ||
** A fancy name for moving microliter liquid droplets using high voltage electricity. Using copper PCB's. [http://88proof.com/synthetic_biology/blog/ | ** A fancy name for moving microliter liquid droplets using high voltage electricity. Using copper PCB's. [http://88proof.com/synthetic_biology/blog/ Microfluidics - 88 Proof Blog] | ||
* [http://88proof.com/synthetic_biology/blog/ | * [http://88proof.com/synthetic_biology/blog/index.html%3Fp=303.html HVPS for Systems Biology: A Low Cost, High Voltage Power Supply with Schematics + Board Layout] | ||
** I have designed this high voltage, low current power supply for various experiments in systems & synthetic biology. I have cleaned up the design and I am placing the schematic and board layout online (see link). This circuit outputs up to +1,866VDC at under 1 mA or can be tapped at various points for +622VDC or +933VDC. This is useful for either DIY Biology or institutional research experiments. | ** I have designed this high voltage, low current power supply for various experiments in systems & synthetic biology. I have cleaned up the design and I am placing the schematic and board layout online (see link). This circuit outputs up to +1,866VDC at under 1 mA or can be tapped at various points for +622VDC or +933VDC. This is useful for either DIY Biology or institutional research experiments. | ||
Latest revision as of 07:40, 12 August 2020
My Presentations
- Better, Faster Bio with Integrated Devices using Robotics (2009) http://openwetware.org/wiki/User:Jonathan_Cline/Notebook/Robotics/20091013
- Start web slideshow: Better, Faster Bio with Integrated Devices using Robotics
- Microbiology Sensor-Heat Controller Board: The Sensomatic (2013) http://openwetware.org/wiki/User:Jonathan_Cline/Notebook/Sensomatic/20130323
- Start web slideshow: Microbiology Sensor-Heat Controller Board: The Sensomatic
- Microbiology Sensors (2013) http://openwetware.org/wiki/User:Jonathan_Cline/Notebook/Sensors/20130430
- Start web slideshow: Microbiology Sensors (2013)
My Projects
- Perl CPAN module for Bio-robotics, Robotics and Robotics::Tecan
- Write biology protocols as simple instructions, biorobot performs the protocol. First though, write a module to talk to any connected robotics devices. 88 Proof Synth Bio Blog - Look around for Perl stuff
- Digital Microfluidics using Electrowetting-on-Dielectric (EWOD)
- A fancy name for moving microliter liquid droplets using high voltage electricity. Using copper PCB's. Microfluidics - 88 Proof Blog
- HVPS for Systems Biology: A Low Cost, High Voltage Power Supply with Schematics + Board Layout
- I have designed this high voltage, low current power supply for various experiments in systems & synthetic biology. I have cleaned up the design and I am placing the schematic and board layout online (see link). This circuit outputs up to +1,866VDC at under 1 mA or can be tapped at various points for +622VDC or +933VDC. This is useful for either DIY Biology or institutional research experiments.
- io9 Mad Science: Ketonalizer, 2008
- A bacteria-based system for analyzing the metabolic state of "ketosis" in a person's body — this is the state where the body starts burning fat and turning it into energy. Ketosis is induced by the Atkins diet as well as caloric restriction. Cline proposes to make a system that you could breathe on, and measure your current state of ketosis. Currently vaporware
- User:Jonathan_Cline/Notebook/Melaminometer, 2008
- Melamine and cyanuric acid detector to address world health problem created by industrial food tampering/contamination. Currently vaporware
- Contributors: User:Jonathan Cline, User:Meredith L. Patterson, User:Blent from National Yang Ming University Taipei
- Melamine and cyanuric acid detector to address world health problem created by industrial food tampering/contamination. Currently vaporware
Contributions to Others' Projects
- Open Gel Box 2.0 Power Supply
- Low cost gel electrophoresis power supply for light-weight use
- Open Gel Box 2.0
- Modular design of better-than-commercial-and-cheaper agarose gel electrophoresis
