- About Us
- Career Center
- Nano-Social Network
- Nano Consulting
- My Account
We are a green carbon foundry, nanotechnology integration resource, and stack greening company, making various types of Carbon. For Nanotechnology, we have launched an Open Source Challenge for nano diamond futurists in this Blog. GC Green Carbon, is a post-combustion technology that uses heat and special catalysts to separate carbon dioxide into its constituent parts - carbon and oxygen.
In 2011 GC Green Carbon brought online itsforst two nanodiamond manufacturing systems. GC Green Carbon now offers a very pure technical grade diamond nano rod series and assists with innovation via its corporate web site blog. GC green Carbon has garnered a large twitter following in a short time from biotech industry members. The pricing of the DNRS is industry changing.
"We see possibilties from probes to arrays at the nano and quantum levels for these products" says Viva Cundliffe, Chief Technical Officer.
For more information, please click here
Copyright © GC Green Carbon Inc.If you have a comment, please Contact us.
Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
|Related News Press|
Marrying superconductors, lasers, and Bose-Einstein condensates: Chapman University Institute for Quantum Studies (IQS) member Yutaka Shikano, Ph.D., recently had research published in Scientific Reports June 20th, 2016
Searching for a nanotech self-organizing principle May 1st, 2016
Graphene-based Magnetoresistance Sensor 200 Times as Sensitive as Silicon November 1st, 2015
Can graphene make the world’s water clean? July 13th, 2015
Attosecond physics: Mapping electromagnetic waveforms July 25th, 2016
Nanometrics Reports Second Quarter 2016 Financial Results July 26th, 2016
The NanoWizard® AFM from JPK is applied for interdisciplinary research at the University of South Australia for applications including smart wound healing and how plants can protect themselves from toxins July 26th, 2016
Accurate design of large icosahedral protein nanocages pushes bioengineering boundaries: Scientists used computational methods to build ten large, two-component, co-assembling icosahedral protein complexes the size of small virus coats July 25th, 2016
New reaction for the synthesis of nanostructures July 21st, 2016