New electrical caps:
Ultra Capacitors look good and now readily available HUGE amp carrying capacity , rated in Full farads .
A - 6x
350 F can start your car, available in huge range of farads from
1 - to 10000F (getting up to 10000 Amp second volt discharge capable) @ 1,000,000 cycles life, Graphene tech.
1 - to 10000F (getting up to 10000 Amp second volt discharge capable) @ 1,000,000 cycles life, Graphene tech.
Would be good in conjunction with solar for
storage and extend battery life. Hydrogen or HHO production at
controlled high current.
Which is ran parallel for a HHO type cell.
*** Which is the technology at which we use @ Sunburst Technology!
Which is ran parallel for a HHO type cell.
*** Which is the technology at which we use @ Sunburst Technology!
could make a high power speed
controller w. series connected caps to the input voltage for 'battery', pick off parallel connections for lower voltage high current. parallel /series
connections along the series string of caps to up the voltage required.
Graphene and graphite tech is something we have been following for years. Amazing stuff,
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On December 3, 2012 American Graphite Technologies entered into and executed a non-exclusive technology License agreement for patent and trade secret technology in the field of graphene oxide or “Bucky” paper. Pursuant to the terms of the agreement, we acquired the rights to further develop, commercialize, market and distribute certain proprietary inventions and know-how related to the manufacturing processes for graphene products, including graphene paper, also known as Bucky Paper.
"Graphene paper also known as “buckypaper” resembles carbon paper but don’t be fooled by the name. On its own, it looks like a mere thin "film like" paper and looks very fragile. However, this unassuming new “super paper” may revolutionize automobiles, aircraft, displays, electronics, batteries, medical treatments and more industries in years to come.
Graphene paper owes its physical qualities to a unique interlocking-tile lattice at the atomic scale. The material has exceptional stiffness and strength, due to the intrinsic strength of the two-dimensional graphene backbone and to its interwoven layer structure which helps to distribute loads. It also has intriguing electrical qualities because it is a zero band gap semiconductor. If Graphene oxide is used it is mechanically strong and electrically insulating.
Currently Graphene Paper is available only in limited sizes, it is relatively expensive and making it is very time consuming, American Graphite Technologies is working with Cheap Tubes Inc. and CTI Nanotechnologies LLC on developing a prototype production machine that makes Graphene Paper in larger and more affordable sizes than currently available.
Potential applications for Graphene paper include:
Graphene (/ˈɡræf.iːn/)[1][2] is an allotrope of carbon in the form of a two-dimensional, atomic-scale, honey-comb lattice in which one atom forms each vertex. It is the basic structural element of other allotropes, including graphite, charcoal, carbon nanotubes and fullerenes. It can also be considered as an indefinitely large aromatic molecule, the limiting case[clarification needed] of the family of flat polycyclic aromatic hydrocarbons.
Graphene has many extraordinary properties. It is about 100 times
stronger than strongest steel with hypothetical thickness of 3.35Å which
is equal to the thickness of graphene sheet.[3] It conducts heat and electricity efficiently and is nearly transparent.[4] Researchers have identified the bipolar transistor effect, ballistic transport of charges and large quantum oscillations in the material.
Scientists have theorized about graphene for decades. It has likely been unknowingly produced in small quantities for centuries, through the use of pencils and other similar applications of graphite. It was originally observed in electron microscopes in 1962, but not studied further.[5] The material was later rediscovered, isolated and characterized in 2004 by Andre Geim and Konstantin Novoselov at the University of Manchester.[6][7] Research was informed by existing theoretical descriptions of its composition, structure and properties.[8] High-quality graphene proved to be surprisingly easy to isolate, making more research possible. This work resulted in the two winning the Nobel Prize in Physics in 2010 "for groundbreaking experiments regarding the two-dimensional material graphene."[9]
The global market for graphene is reported to have reached $9 million by 2014 with most sales in the semiconductor, electronics, battery energy and composites industries.[10]
=============================================
============================
On December 3, 2012 American Graphite Technologies entered into and executed a non-exclusive technology License agreement for patent and trade secret technology in the field of graphene oxide or “Bucky” paper. Pursuant to the terms of the agreement, we acquired the rights to further develop, commercialize, market and distribute certain proprietary inventions and know-how related to the manufacturing processes for graphene products, including graphene paper, also known as Bucky Paper.
"Graphene paper also known as “buckypaper” resembles carbon paper but don’t be fooled by the name. On its own, it looks like a mere thin "film like" paper and looks very fragile. However, this unassuming new “super paper” may revolutionize automobiles, aircraft, displays, electronics, batteries, medical treatments and more industries in years to come.
Graphene paper owes its physical qualities to a unique interlocking-tile lattice at the atomic scale. The material has exceptional stiffness and strength, due to the intrinsic strength of the two-dimensional graphene backbone and to its interwoven layer structure which helps to distribute loads. It also has intriguing electrical qualities because it is a zero band gap semiconductor. If Graphene oxide is used it is mechanically strong and electrically insulating.
Currently Graphene Paper is available only in limited sizes, it is relatively expensive and making it is very time consuming, American Graphite Technologies is working with Cheap Tubes Inc. and CTI Nanotechnologies LLC on developing a prototype production machine that makes Graphene Paper in larger and more affordable sizes than currently available.
Potential applications for Graphene paper include:
- Computer and television displays
- Electrical shielding
- Reinforcing Material for manufacturing cars, boats, airplanes and machinery
- Lightning Strike Dissipation
- Heat Dissipation
- Protection against electromagnetic pulses (EMP)
- Armor plating
- Reinforcement of plastics and polymers
- Electrodes for batteries, fuel cells, solar cells and capacitors
- Thermal heatsinks for electronic and computer equipment
- Artificial limbs
- Air and liquid filtration systems
Graphene (/ˈɡræf.iːn/)[1][2] is an allotrope of carbon in the form of a two-dimensional, atomic-scale, honey-comb lattice in which one atom forms each vertex. It is the basic structural element of other allotropes, including graphite, charcoal, carbon nanotubes and fullerenes. It can also be considered as an indefinitely large aromatic molecule, the limiting case[clarification needed] of the family of flat polycyclic aromatic hydrocarbons.
Graphene and its band structure and Dirac Cones, effect of a grid on doping
Scientists have theorized about graphene for decades. It has likely been unknowingly produced in small quantities for centuries, through the use of pencils and other similar applications of graphite. It was originally observed in electron microscopes in 1962, but not studied further.[5] The material was later rediscovered, isolated and characterized in 2004 by Andre Geim and Konstantin Novoselov at the University of Manchester.[6][7] Research was informed by existing theoretical descriptions of its composition, structure and properties.[8] High-quality graphene proved to be surprisingly easy to isolate, making more research possible. This work resulted in the two winning the Nobel Prize in Physics in 2010 "for groundbreaking experiments regarding the two-dimensional material graphene."[9]
The global market for graphene is reported to have reached $9 million by 2014 with most sales in the semiconductor, electronics, battery energy and composites industries.[10]
=============================================
GT
is an advanced materials company with a proprietary suite of unique
technologies for synthesizing graphene nanostructures via CO2 reduction.
Our methods combine the controllability of vapor deposition growth with
the scalability and economics of chemically exfoliated graphite. Our
synthetic carbons possess ultra-high specific surface area, and we
engineer them to meet the specific needs of each customer’s application.
This bespoke approach involves tailoring the structural attributes of
the particles, such as size and lattice properties, as well as the
functional chemistry needed for effective integration into the desired
matrices or systems.
Global leaders from several different
industries have partnered with GT in order to develop applications with
our carbons. We are currently advancing prototypes of transparent
conductive films and polymer composites. Initial product launches
beginning in late 2015 will aim at providing research customers in North
America with our synthetic graphene-based materials. In the meanwhile,
companies or researchers who would like to evaluate GT’s materials
should contact us for more information.
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