We are in the middle of an energy crisis. IntelliParticle has invented a patented solution for low energy heating elements.

Our patented product is very energy efficient and simple to apply. IntelliParticle products can be solar powered/240volts/D.C.

We have emerged from an R&D phase of 5 years with solid prototypes and growing external validation of our claims with real corporate customers.

Video: shows a 600mm glass beaker painted with Intelli particulate boiling water using 135 watts D.C power.
Video: 1 metre x 2 metre panel consuming 800 watts – please note the time it takes to reach 260°C
HEATING Efficiencies

Using our world patented refinement processes, we are able to create a new generation of carbon and graphite composites, with properties that until now, were beyond reach.

It is important to note the enormous economic benefits of using IntelliParticle. Graphene and Silver are often used in large amounts to make products conductive, these are expensive options. IntelliParticle is primarily a carbon graphite mix which is dramatically lower in cost, making it an exciting product that can be easily and affordably utilised on a large scale, with only a small amount required to reach radiant and evenly distributed heat.

As IntelliParticle can be used as a paint or a viscose product it can be applied to multidimensional surfaces and the heat can be delivered over a larger surface area, delivering the thermal heat directly to the source. As previously mentioned IntelliParticle can either be applied as a paint or combined within a variety of substances and materials such as inks, polymers, resins, concrete, fabric, and glass.

Organic Efficiencies
Many organic efficiencies are automatically created using  IntelliParticle. This means the application, material or product is being heated quicker thus the energy source is required for less duration. The sample we created to prove this organic efficiency is painting a 600 mil glass beaker with our product we can boil water with only 150 watts.
Thermal Radiation
It is efficient on a panel due to thermal radiation. Because of our absorption (material being black) it converts electrical energy into 98 IR efficiency (infrared radiation). Most other appliances run at 78-80 IR efficiency (infrared radiation efficiency). Our carbon graphite product creates black embodiment absorbing and releasing heat with organic simplicity, quickly and very efficient with regard to energy use.
Energy Conversions

As the energy consumption using Intelli Particle is low, it utilises every bit of that energy and it converts that to heat via IRE.

Simply put it is more efficient than standard wire technology because we can radiate the energy over a larger surface area. We have not changed the laws of science -energy in equals energy out -we are more efficient in the use of the same energy. Currently we are working on an inline solar powered instantaneous hot water system the size of an A4 sheet of paper. The hot water system will run on 150 watts!


The 400 watt Eco Panel (wall heater) is currently the most energy economic heater on the market and brings the surface temperature of the unit to 75 degrees Celsius.

We have created a unit that is the same size, and we can generate we can raise the surface temperature to 60 degrees Celsius, using just 100 watts. We have enameled our product to a high temperature [1000 C] glass panel encased in a second pane of glass and created a fully insulated high temperature glass heater that can run up to 450 degrees Celsius. We have  created numerous low power heated seats and wall units simply painting the rear of the seat with intelli particles and plug in.


As proof of product we have experimented with an element ,painted the same size element with our product and shown dramatic energy efficient outcome. A Fisher and Paykel dishwasher element draws 1050 watts. We coated the surface area of the heating element with our product and as a result of our product covering a larger surface area, more heat was created and 20% faster than with the standard wire technology.