Vision & Mission Statement
The overall mission of Graphene Matrix is:
To economically produce a commercially usable nano grade graphene and electrical power generation from electrical components that utilize graphene as a super conductive nano material.
The specific governing objectives will be:
– Manufacturing high grades of graphene for electrical component manufacturers
– Create a thriving and highly profitable, State of the art, ecologically responsible industrial nano graphene production facility
– Create a global cloud-render farm collaborative network for researchers and engineers World-wide
– Create stable, high wage employment for the local community
– Create job training programs to increase the skill base of local residents
– Reduce the cost and price volatility of electricity for families and businesses
– Achieve energy independence
– Reduce / eliminate dependence on fossil fuel imports
– Contribute to the reduction of carbon in the earth’s atmosphere
– Achieve Graphene energy storage and production independence for the United States of America
– Reduce / eliminate dependence on Graphene imports
– Net Zero Emissions Manufacturing – Contribute to the reduction of carbon in the earth’s atmosphere by using
– Develop Nano 3D Super Conductive Structures for Advanced Medical Research and uses in Farming and Water Treatment
Graphene Photo Voltaic & Battery Systems
Our primary product we are focused on deploying currently are Graphene Solar Power Generation and Graphene Battery Storage Facilities.
Graphene electronics
Graphene can be used as a coating to improve current touch screens for phones and tablets. It can also be used to make the circuitry for our computers, making them incredibly fast. These are just two examples of how graphene can enhance today’s devices. Graphene can also spark the next-generation of electronics.
Wearable technology
Graphene could see a smart phone which you could wear on your wrist or a tablet you could roll up like a newspaper. Flexible, wearable electronics take advantage of graphene’s mechanical properties as well as its conductivity. Indium-tin oxide is currently used for touch screens as it conducts well but it is brittle.
Graphene Transistors
Researchers at The University of Manchester have already created the world’s smallest transistor using graphene. The smaller the size of the transistor, the better they perform within circuits. The fundamental challenge facing the electronics industry in the next 20 years is the further miniaturization of technology.
Graphene Semiconductors
Graphene’s unique properties of thinness and conductivity have led to global research into its applications as a semiconductor. At just one atom thick and with the ability to conduct electricity at room temperature, graphene semiconductors could replace existing technology for computer chips. Research has already shown that graphene chips are much faster than existing ones made from silicon.
Graphene Energy Storage Systems
Most graphene forms exhibit a very high electrical conductivity and charge carrier mobility, as well as a high stability to temperature, chemicals, and other stimuli, so it is these properties that have enabled it to gain a lot of interest across various energy storage devices. Graphene-based batteries are the most widely developed energy storage device that uses graphene and have not only been extensively tested in the academic laboratory (in various forms) but are now being produced commercially by some companies within the industry.
Our Revenue Models
Graphene Matrix will immediately create numerous revenue models and services such as:
Batteries
Fuel Cells
Ultracapacitors
Graphene Nanoribbons
Automotive Parts
Composite Materials
Nano-Electronics
Integrated Circuits
Light Emitting Diode
Liquid Crystal Devices
Lithium-ion Batteries
Memory Devices
Solar Cells
Thin Film Transistor
Touch Screen Sensors
Transistors
Photo electronics
Medical Devices
Graphene Biodevices/ DNA Sequencing
Molecular Sensors
Spintronics
Thermoplastics
Transparent Conductive Coatings
Transmission Electron Microscopy (TEM)
Graphene Photo Voltaic Solar Panels
Quantum Rendering Services
Membership Subscriptions for accessing our research database.
Interactive Video Teleconferencing
Cloud Sharing Environments