SANTA BARBARA, CA--(Marketwired - March 15, 2017) - Carbon Sciences Inc. (
The new agreement will allow UCSB to continue the research and development of a potentially ultrafast optical modulator based on graphene. An optical modulator is a critical fiber optic component for the encoding and transmission of digital data.
Graphene, being 1 million times thinner than a strand of human hair and 200 times stronger than steel, boasts the capability of delivering extreme high speed and tunable conductivity. Based on these fundamental properties, graphene has the potential to be used in modulating light at very high speeds, yielding a heightened capacity to efficiently encode and transmit digital data.
In an effort to develop an ultrafast, low cost, and low power, graphene-based optical modulator, Carbon Sciences has engaged UCSB, a global leader in bioengineering, chemical and computational engineering, materials science, nanotechnology and physics. The new 6-month research program commences April 1, 2017 will conclude on September 30, 2017. This will allow the research team to demonstrate optical index changes in graphene using external voltages and to fabricate certain optical waveguides.
Bill Beifuss, President of Carbon Sciences, commented, "We are very pleased with the progress that UCSB has made with our graphene-based optical modulator project. We believe that the work described in our new Sponsored Research Agreement will bring us closer to a working prototype."
Fiber optic technology, being the backbone of the Internet, has encountered explosive growth in Internet data, in large part as a result of an ever-growing number of Cloud-based services such as Netflix, Facebook, and Google. Consequently, the fundamental speed limits of current state-of-the-art fiber optic materials are being substantially challenged. In consideration, Management believes that new materials, such as graphene, must be explored and used to significantly increase the speed of data movement in the Cloud. The Company believes that graphene technology has the potential to revolutionize ultrafast data communication. Thereby unleashing a global era of high-resolution video on demand, high fidelity music streaming, high volume e-commerce and many more Cloud-based services. For more information on how the technology works, please visit the Company's website at: www.CarbonSciences.com
UCSB boasts five Nobel Laureates (four in sciences and engineering) and one winner of the prestigious Millennium Technology Prize. UCSB remains among the top 10 universities worldwide for research impact, as listed by the 2016 Leiden Rankings and is ranked No. 1 among public institutions in the U.S. in terms of scientific research impact.
About Carbon Sciences, Inc.: Carbon Sciences is developing breakthrough technologies based on graphene, the new miracle material. Graphene, a sheet of pure carbon that is only one atom thick, is flexible, transparent, impermeable to moisture, stronger than diamonds and more conductive than gold. After successfully exploring methods to produce low cost graphene, Carbon Sciences is now developing a new graphene-based optical modulator, a critical fiber optics component needed to help unclog the existing bottlenecks and enable ultrafast communication in data centers for Cloud computing. The Company is also undertaking a growth-by-acquisition strategy to extend its presence in the $3.8 trillion worldwide information technology (IT) market with a particular focus on profitable IT services providers. To learn more about Carbon Sciences, please visit www.CarbonSciences.com
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