Fluxcell, Inc. is a Corporation organized under the laws of the State of Georgia.
This investment is offered under the Invest Georgia Act.
All shares have been reported to the Georgia Securities Division of the Office of the
Secretary of Sate Commissioner of Securities as of July-31-2014
See stock certificate and prospectus for other disclaimers.

Investment Directions
Print Stock Certificate.
Fill out Certificate with all of the information.
Make a copy of certificate and payment instrument for your records.
Please send an email to investment at fluxcell.com within 24 hours of mailing it to insure that its transit is known and duly received.
Keep the original certificate and mail in or email a copy.

Make Payment to:
Fluxcell, Inc.

Fluxcell, Inc. common stock issue-1aa

Mail Investments to: (Certified mail recommended but not required)
Fluxcell, Inc.  P.O. Box 10732 Atlanta GA 30310

Set up an investment appointment. 191 Peachtree St Atlanta GA 30303 or another location, i.e. Starbucks etc. whichever is convenient for you.

Make investment with credit card, debit card or bank draft privately through email.  Just call or email Fluxcell with your investment amount and an invoice will be sent to you.

Your purchase will be acknowledged in an email and an account will soon be set up for you to view your purchases.

The three elements of the presigned stock certificate, the payment transaction record and the confirmation email creates a binding stock purchase.

No More Range Anxiety

The Flux Capacitor Solar Cell is able to satisfy the world’s growing demand for a cheaper, cleaner and a more compact and powerful energy source.  It has been irrefutably proven that 120 volts and separately 24 amps (120 x 24 = ~3,000 watts) exists within just 1 square foot of sunlight produced from standard everyday silicon solar cells.  3,000 watts can power an entire house.  Fluxcell, Inc. has taken this fact and other physics truths and has formulated this basis into a unique solar machine.  What this means is that just one 10 x 10 x 12 inch machine can power an entire house instead of the entire roof being covered with solar panels.  Today’s solar cells can only produce 16 watts per square foot.  By allowing the Fluxcell to supply power to existing technologies such as hydrogen fuel cells, flywheels, compressed air or battery banks, 24 hours of grid free power will be available or a homeowner can be 50% on the grid.

Fluxcell, Inc.’s current price of 10 cents per share gives Investors a large upside and puts you in the same position as the big investment banks who invested in the likes of Microsoft, Tesla, Google and Facebook before they went public.  Other companies which may go public soon such as Uber, Airbnb and Instacart also have big multimillion dollar investors and multibillion dollar valuations.  As such, 10 cents per share is a venture capitalist price.   Even a small move to 20 cents per share would quickly provide a 100% return which at a 10% APY in any other investment would take 15 years when factoring in inflation, capital gain taxes and investment fund fees.  With a short term target price of $5 per share a 50x conservative return potential to investors exists.  The 1 to 2 year target is $200 per share which would give investors a 2,000x return.  For a brief overview of these numbers and other information on how this investment will proceed, simply view the Investment Sheet above by clicking on the image.

Investment amount to yield $1 million


shares @
10 cents

stock price
















Who would ever think that a computer the size of a room could fit on the tip of your finger.  When factoring in size, speed and computational power, a smart phone is 10’s of millions of times more powerful than the first computer, the ENIAC.  That’s because its not about the material (hence a roof full of solar panels) but about the electron.  It is the electron and only the electron which provides electricity.  The sun only needs to excite electrons to make them move and the movement of electrons is electricity.  Electrons are so small that the number needed to power a mansion for 24 hours can fit within a square millimeter.  The Fluxcell only focuses on the electron which is why a single 10 x 10 x 12 inch module can power an entire house. 
Its not amazing, its just a progression of technology.

This simple example shows that at least 3,000 watts can exist within a square foot of sunlight.    
These squares represent typical every day silicon solar cells.  Each cell is 6 x 6 inches in size and produces a short circuit power of only 4 watts.  Power is 8 amps x .5 volts = 4 watts.  

When solar cells are wired in parallel the amps add up but the voltage stays the same so you would get 24 amps x .5 volts = 12 watts or 12 watts / 3 cells = 4 watts per cell. 

When solar cells are wired in series the voltages add up but the amps are proportional to the average area of “one” of the cells in the series.  If one of these cells was broken into 240 pieces and wired in series the voltage would come to 240 x .5 volts = 120 volts which is a household voltage but the current being proportional to cell (piece) size would be .033 amps (33 milliamps).  Thus 120 volts x .033 amps = 4 watts. 

Root of Fluxcell Technology

What has been described here is that 120 volts and separately 24 amps exists within a square foot of sunlight.  This comes to 3,000 watts per square foot (or 32,000 watts per square meter) which alone proves that current scientific literature of 97.5 watts per square foot is wrong.  Thus even todays solar cells show that one can get 180 times (120 volts x 24 amps / 16 watts) more energy from the sun.   3,000 watts is enough to power a home.  The question now is how do we take the 120 volts and the 24 amps and configure it in a way as to get this 3,000 watts per square foot and more out of the sun. 
The Flux Capacitor Solar Cell Module is the solution because it takes these real world facts and formulates them into a workable solar machine.

The reason why a piece of solar cell can be so small is that each electron is excited to .5 volts and thus the voltage (electron pressure) and current (electrons) are intrinsic (or one in the same) thus making cell size is irrelevant.  Also contrary to what literature says light does not travel via photon particles (which would mean that an electron has a less than 100% chance of being excited) but energy is transfered between graviton particles which means it is a field which means that electrons have a 100% chance of being energized.  This means that if however number of electrons or particles are in this field of light, however close or far apart they will be energized.

Well how did the world come to rely on the 1,055 watts per square meter?

Back in the 1700’s an attempt was made to measure the energy of the sun.  The experiment sought to measure the sun’s power through its effect on natural elements and man conceived quantities.  Water (for its purity and universalness, mercury (for the thermometer), the pound, the second and the square meter were settled upon.  Thus 1 pound of water raised 1 degree in 1 second was to be called 1 btu.  Eventually through experiments with heat radiating from electrified wire in water, 1 btu would come to be calculated to 1,055 joules. (It must be noted that the sun has a wide range of frequencies from thermal to ultraviolet and heat from electrified wire mainly contains the lower thermal energy).  So 1 joule per second was stated to be 1 watt.  1 pound of water is 1 square meter of water by .439 millimeters high (less than the thickness of a dime).  So sunlight falling on 1 square meter-pound of water raises its temperature by 1 degree in 1 second (if the water’s initial temperature is just under 70 degrees Fahrenheit)  We must remember that these experiments were done in the 18th century so much of today’s science is built upon old world methods of measurement.  What happened was that a water temperature measurement was converted to electricity which was not proper for conversion because the thermal energy of water (oxygen and hydrogen atoms) does not produce electricity and thus they are two different types of energy.  Atoms can absorb more energy than an electron and radiate this energy at a lower frequency (or longer wavelength).  Electrons on the other hand absorb less energy overall but the higher frequencies within sunlight allow them to be knocked from their associated atoms thus ionizing the atoms and thus creating electric current. In Conclusion heated water is an energy of random oscillating molecule motion and electricity is an energy of the linear motion of electrons only. 




power output

10,000 watts
Avg. home runs on 4,000

up to 3,000 watts  (limited by roof area)


1 square foot

333 square feet (10’ x 33’)


on pole in yard

on roof (structural required)

contract term

0 to 3 years (can be released)

25 years when financed or Power Purchase Agreement (harder to sell home) end up paying 2x to 3x more.

upfront payment



return on investment

5 to 15% discount from current monthly bill.

15 to 20 years (if paid with cash)


beautiful lamp look, glow light at night

covers roof, spot areas, doesn’t match traditional roof look, expensive shingles covered

HOA acceptability

virtually guaranteed

depends on subdivision (many don’t allow them)


no increase in home insurance

yes there will be an increase in insurance


none (has automatic wiper & air burst for anytime self cleaning)

regularly, leaves & dust = 10 to 20% output reduction

sunlight capturing time

8+ hours per day, captures rising & setting sun at perpendicular position

4.5 hours per day, intensity varies throughout day becuase of fixed angle

house (roof angle) to sun

none, roof and/or house can be in any orientation

fixed with roof (less sun)90 degrees is angle of highest power output

sunlight intensity (angle)


50 to 70%

inverter replacement


$1,200+ every 6 years

power reduction


if a few cells are shaded total power output is reduced

power depreciation


1% per year


module replaced at no charge, no need to be home

ongoing costs


fewer and efficient use of materials, storage facilities, shipping costs

more materials, more waste (10% cell breakage at factory) much water

snow elimination

heats up to melt snow

none(loose days of electricity)

power loss due to sun’s heat

none, Electron Capacitor Reactor Technology, active cooling system

yes, more heat = more loss after 90 degrees F. 10 to 25% power loss

nightime power

yes, Electron Capacitor Reactor Technology

$15,000+. batteries(must be replaced every 4 to 6 years)

The reality is that buying a solar system or entering into a 25 year solar lease will not provide any return on investment using today’s solar energy technology.  When one really gets into the numbers and factors in all of the events like battery replacement, inverter replacement, periodic cleaning costs, power output depreciation, roof angle intensity reduction, insurance premium increases, power company “solar taxes” high heat power reduction and many more factors such as those listed above, one may never realize the dream of getting “free energy”. 

Thus instead of the dream being “free energy” one may look toward discounted energy, stabilized price energy, cleaner energy, maintenance free energy, grid free energy and investment energy (yes you can invest in your own future energy consumption and generate a profit “or more savings”) which the Fluxcell provides.

Also it should be noted that a single story home may have the same roof area as a 3 or 4 story home leaving the area of the panels the same yet the power need is a multiple more.  Thus today’s solar panels will not be able to supply the required energy to multistory homes.  Homes with trees covering part or all of the roof will also not benefit from today’s solar energy technology.

Feature Comparison

Whether you wish to power a single home, a small business, a large facility or even quick charging an electric car on the go, the Fluxcell can beat out today’s solar power in every beneficial category.

For the -Researcher Investors- you can verify the current and voltages of today’s solar cells by searching “solar cell specification sheet” on the web and clicking on images. The electrical characteristics will say between .5 and .65 volts and 8 amps open circuit per solar cell (not per solar panel). 
Also to verify how series and parallel wiring increases voltage and current, search for “solar cell series parallel” and click on images. For more tech info click here.


Today’s scientific and solar industry literature says that only 1,055 watts per square meter (or 97.5 watts per square foot) of energy falls upon the earth from the sun.  And from this amount 16 watts per square foot can be converted into electricity by solar cells.  This rates the solar cells at 16% efficiency (16 watts/97.5 watts).




Ever thought about buying an electric car?  Did you know that a battery can cost $18,000, weigh as much as 1,200 pounds and take 12 hours to fully charge.  If you haven’t heard, range anxiety is a temporary mental condition electric car owners can get when they start running out of “juice” or power while on the road and they either have to get somewhere quickly and don’t have the time to charge or a charging station is far off.  Well stress no more, the Fluxcell is able to quick charge electric cars on the go.  The benefits are obvious.  Smaller battery, less expensive battery, eliminate 1,000 pounds or more (which means you can take off faster and drive further), no waiting for car to charge during the day and most of all no more range anxiety.  Half hour charging (i.e. electric gas) stations will be a thing of the past! 
Also the Quantum Capacitor technology will be able to replace the battery and provide power throughout the night.

Powering a Home during the Day

Most homes are rated at 120 volts and 100 amps which is a 12,000 watt load potential.  Amps is electron current which is the number of coulombs (electrons) moving per second past a point.  Voltage is electron pressure or how hard an electron has to be pushed in order to move through a house.  In the real world only about 25 to 40 amps are used continuously for a typical house.  The extra amps are needed when the clothing dryer is on, air conditioner is running, hair dryer, space heater or any other high current drawing devices.  Because electrons are continuously moving and being re-energized by the sun the Fluxcell doesn’t need as many electrons as opposed to nightime electron storage.


Powering a Home during the Night.

Powering a home at night is a different situation than powering a home during the day.  During the day the sun excites the electrons which creates voltage pressure to push the electrons.  At night there is no excitation from the sun so the voltage exists from the electrons that were stored under pressure during the day (i.e. the electrons are closer together).  To find the approximate storage needed all one has to do is multiply the expected number of amps needed (25 amps) x 3,600 seconds per hour x 24 hours = 2,160,000 coulombs of electrons.  Each one of Fluxcell’s proprietary Quantum Capacitors (QC’s) can yield over 14,000 coulombs and so 2,160,000/14,000 = 154 ECR’s. 

Because the QC units are only 3/4 inches in diameter and 4-1/2 inches tall, these when combined with a number of QC power capacitors and electronics allow an energy storage unit to take up a volume of only 12 x 12 x 12 inches or one cubic foot.  Lithium ion batteries would take up over 10 cubic feet in volume.  Besides taking up more space these batteries have to be replaced every 4 to 6 years and they are expensive and environmentally damaging.  Thus to calculate your storage needs for the Fluxcell, just use 1 cubic foot of storage per 24 hours per 3 kilowatts.  So to power a 9,000 watt house at full power for 24 hours you would need 3 cubes.

Our Quantum Capacitor technology is the key technology to the operations of the Fluxcell and electricity storage.  This technology is very powerful in that it has the ability to replace other storage means like solar home and electric car batteries.  Fluxcell’s current research is showing that they may even be able to replace AA, AAA, C, etc. batteries.  These capacitors have the best of both worlds in that they can output high voltages and have high electron storage capacities.  They are unlike traditional batteries which have low voltages and many electrons and traditional capacitors which have high voltages and few electrons.

As you may know nuclear fission reactors involve the splitting of atoms to produce a self sustaining reaction of colliding particles to produce heat which then boils water to produce steam to turn an electric generator.  These nuclear reactors cost billions of dollars to build and produce radioactive waste that sits around for thousands of years. 

The Quantum Capacitor is very different.  Its a gentler and safer type of reactor.  Safer than a cell phone.  Actually in the mid 1900’s capacitors were called reactors.  An QC has two functions.  One function is to harvest electrons from materials and the other function is to store those electrons over a large surface area.  The electrode surface area of a quantum capacitor starts at 3,500 square feet for a containment unit the size of a AA battery whereas a regular aluminum capacitor of similar volume has an electrode area of less than 1 square foot.  An QC is scalable in that it can be as small as a AAA battery or as large as 3 liter bottle.  This extraction of electrons is the key to the small size of the Fluxcell because electrons are consolidated on a small area of 240 solar cells wired in both series and parallel.  The total area of the solar cells in a standard Fluxcell unit is 5 x 5 inches.

In Conclusion, the Fluxcell is able to dump these harvested electrons on a small area of solar cells which are wired in a switchable series and parallel format to get both the 120 volts and 24+ amps needed to produce 3,000 watts and more of electric power from a single Fluxcell module. 

This makes the Fluxcell an energy game changer and the investment stock to be in.


Fluxcell Home


Investment Sheet

Investor FAQ’s (Frequently Asked Questions)

Zip Code Licenses for Solar and Energy Companies

Stock Certificate

Intellectual Property

Manufacturers, Distributors, Retailer Marketers


Certificate of Incorporation

Bond Brokers


Corporate Operational Model

Solar Cell Science


Investor Benefits



IPO Strategy




Above are a few of the largest solar companies in America and their current stock prices.  They all utilize solar technology that is based on the same solar technology created in 1954.  Fluxcell technology will be able to supplant their technology and Fluxcell’s stock price when it goes to the stock market should grow to reflect such licensing deals to such solar and energy type companies.  The Fluxcell is designed to be able to quick charge electric cars on the go.  The Quantum Capacitor will be able to replace batteries in both gas and electric vehicles and some consumer products.

An XHTML 1.0 Strict standard template


Stock price pending increase without notice.  This means that the number of shares you get will be cut in half or by two thirds or more.

As you can see with today’s parallel and series wiring methods the most power you can get out of a single 6 x 6 inch solar cell is 4 watts no matter how its wired.


The Fluxcell and Quantum Capacitor energy technologies shrink the footprint of solar cells and electron storage to just a fraction of their size.


The Limits of Batteries

The battery is an electrochemical cell.  It and capacitors are electron energy storage devices.  The battery operates on two main principles, pushing electrons and pulling electrons from the negative (anode) end to the positive (cathode) end, from and to molecules of atoms.  The negative designation means that more electrons reside at that end.  The positive designation means that fewer electrons reside at that end and therefore electron holes for the electrons to occupy exist.  The pushing of electrons is due to the electric field between electrons and the pulling of electrons is due to a concept call electronegativity.  In general electronegativity for the most part governs the movement and force of electrons from the negative to the positive end of a battery.  All elements have a relative electronegativity level.  Florine which is a gas has the highest at 3.98 and has the most electron pulling power, i.e. oxidizing power.  Francium which is an alkali metal has the lowest pulling power at .7 and thus gives up electrons more easily.  These are the maximum voltage parameters.

Electronegativity governs voltage, which is how much pressure electrons exert to create movement through a wire such as a 5 volt phone (less pressure) verses a 120 volt oven (more pressure).   Today Lithium batteries are the top commercial battery in terms of energy density.  Energy density is essentially how much electron power that is in a pound or volume of material.  Power is voltage multiplied by electron current (quantity of electrons moving past a point per second).  Lithium has an electronegativity of .98 which is near the Francium and serves as the anode.  A standard cathode is generally made of carbon which has an electronegativity of 2.55.  As you can see the difference between Lithium and Carbon is 2.55-.98 = 1.57 whereas the difference between Florine and Francium is 3.98-.7 = 3.28.  In general the greater the difference, the greater the voltage

If we want to look into the future of battery innovations we can conclude that based on todays elements the best battery cell can only double its voltage 3.28/1.57 = 2.08.  Which means that the max voltage for a any future battery cell will top out at roughly 7.5 volts.  Lithium and its various combinations tops out at 3.7 volts.  This means that if a 120 household voltage is desired, multiple cells will still have to be linked together.    Todays capacitors, even the size of a AA battery, can output 1000s of volts of pressure (but not a lot of electrons).  Thus the only way to significantly increase the power output of todays batteries is to increase electron capacity, yet even still this is limited by attributes such as ionization energy, element mass, heat stability, safety, material costs, etc..

In summary a compact 120 volt high electron density battery based on a small fist sized device based on todays battery technology and elements will most likely not exist.  There are many billions of dollars spent today seeking to increase the power of batteries and history has show that the 2 to 4% increase per year is the norm.  Such research expenditures dont take into account the elemental fundamental absolute limits of the battery.

If we really want to be serious with off the grid energy, space travel and long range electric cars then investing in todays battery technology is not the way.  The Quantum Capacitor is the worlds first electromagnetic capacitor and is designed to be a high voltage, high electron density device with a palm size form factor.

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View new information on cryptocurrencies and the Fluxcell at www.cubiccurrency.com


Fluxcell, Inc. 2019
Coalesce Point-Trust 2007-2019

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