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“How & where to install your AkkuFresh® Next Generation™” was always a question of our users. 

So let us give you some important information:

• Do NOT cover the electrical contacts on the device or battery
• Place or attach AkkuFresh® Next Generation™ outside the instrument above the battery, or on the battery inside the battery compartment
• For greater efficiency, ad more AkkuFresh® to cover at least 80% of the battery on one side.
• Several charging cycles (5-10) are required for a noticeable improvement in battery life.

Installation steps (outside installation):

1. Find out where is the battery is in your device
2. Clean the surface of the cover of your device
3. Attach AkkuFresh® Next Generation™ foil directly over the area of the battery
4. Register your product with your QR code (placed on the ID card next to the AkkuFresh® Next Generation™ foil)

Installation steps (inside installation):

1. Turn OFF the device
2. Remove battery
3. Attach AkkuFresh® Next Generation™ foil on battery; under the battery or around the battery
4. Reinstall the battery
5. Turn ON the device
6. Register your product with your QR code (placed on the ID card next to the AkkuFresh® Next Generation™ foil)

AkkuFresh® Next Generation™ foil's effective performance depends on several factors, including the type of mobile device, brand, model, type of battery, age, status (total amount of charging-discharging cycles), external temperature, environmental conditions, and cellular network.

1. Do NOT cover the electrical contacts on the device or battery
2. Place or attach AkkuFresh® Next Generation™ outside the instrument above the battery, or on the battery inside the battery compartment
3. For greater efficiency, ad more AkkuFresh® to cover at least 80% of the battery on one side. 
4. Several charging cycles (5-10) are required for a noticeable improvement in battery life.

During the installation, you need to make sure only one thing. You must cover min. 80% of your battery on one side. AkkuFresh® Next Generation™ is a small rectangular foil, which is 1.14 inch x 1.97 inch / 29 mm x 50 mm size and 0.00492 inch / 0.125mm thin.  We recommend using it as it is without cutting it. You can fold the AkkuFresh® around the edge of the battery in case you feel that it is bigger than you need.

Yes, the battery will be able to maintain its full capacity and battery life for a longer period. Ideally, use AkkuFresh® with a 3-6-month-old (or older) battery. In this situation, you will notice a more spectacular improvement in battery life.

To obtain good performance (battery life and charging speed), during the installation you need to make sure only one thing. You must cover min. 80% of your battery on one side. Use can use more pieces of AkkuFresh® for larger cells and kind of like “work with the puzzle”. AkkuFresh® Next Generation™ is a small rectangular foil, which is 1.14 inch x 1.97 inch / 29 mm x 50 mm size and 0.00492 inch / 0.125mm thin. Easy to use and can be installed by you (place or attach AkkuFresh® outside the device above the battery, or on the battery inside the battery compartment. We recommend using it as it is without cutting it. You can fold the AkkuFresh® around the edge of the battery in case you feel that it is bigger than you need.

Air purifiers are commonly known as negative ions (- ion) producers. These negative ions are dispersed into the air in a room, where they interact with airborne pollutants. They then filter particles out of the air we breathe, while destroying some of the airborne microorganisms in the environment. High DC voltage (over 1,000 V), especially when connected to pointed metal edges or needles, will produce ions of the same polarity as the voltage source. This is the underlying mechanism of home ionizers.

In nature, negative ions are generated by phenomena such as sunlight, lightning, ocean waves, cosmic rays (high-energy protons), and waterfalls. In fact, negative ions usually come from natural earth radioactivity and evaporating water. Lightning, thunderstorms, and forest fires can produce positive and negative ions, but these ions do not occur under everyday circumstances. Average fair-weather ion concentrations vary between 200 to 800 negative and 250 to 1,500 positive ions per cubic centimeter. Indoor levels are usually lower. Several hours before a storm, positive ion concentration will increase drastically, sometimes exceeding 5,000 ions per cubic centimeter. During a storm, the concentration of negative ions increases to several thousand while that of positive ions decreases, often to below 500.

In the center of an atom is the nucleus. The nucleus contains protons (+) and neutrons and is surrounded by electrons (-). Atoms usually have the same number of electrons as protons. These electrons are, however, always spinning around the atom and swapping places with the electrons of neighboring atoms. Atoms that have gained electrons from other atoms (negatively charged) form Negative Ions and those that have lost electrons form Positive Ions.

The generation of negative ions is commonly divided into the following three types:

• Lenard's effect, 1892 (i.e. an electrical effect associated with drop break-up near waterfalls): Lenard found that when water atomized, negative and positive charges are separated. When hitting rocks, water is broken into small particles, carrying a negative charge into the atmosphere. This is why there are many negative ions near waterfalls, water fountains, etc.
• electrically-generated negative ions: lightning, corona discharge, ionizers or air purifiers, etc.
• mineral ores that are abundant in thermal regions and sources: negative ions are generated when small amounts of radiation react with water particles in the atmosphere.

In a battery's electric mechanism, negative ions are ions that carry a negative electrical charge. Negative ions get their negative charge by gaining electrons (negatively charged particles) in a chemical reaction. Negative ions are also called anions. In a battery, the negative ions are found at the negative pole of the battery, also known as an anode. Electrons are transferred through the electrolyte inside the battery by the positive ions, which take them from the anode to the cathode (or positive pole).

As explained under the AkkuFresh® - Technology website menu, According to the operating principles of the microwave oven, high-frequency (2.45 gigahertz) electromagnetic waves of energy are transferred to the food molecules during operation, thereby increasing their thermal motion.

In many molecules (such as water molecules), one part of the molecule is positive, and the other is negatively charged. As they come into contact with the charge-varying electric field, the molecules of food are trying to reach the appropriately charged particle. This particle motion generates heat as the moving particles collide. All particles vibrate at some level of frequency, including the crystals that build up on Li-ion or Lithium-polymer battery separators that are created by charging or discharging the battery.

The AkkuFresh® Next Generation™ foil acts as a frequency modulator. The frequency of the electromagnetic field in the cell is reflected back to it at a higher frequency at which the crystal particles vibrate. This process of bio-resonance causes the crystals to burst, meaning that the battery regenerates itself to its original capacity and the flow of negative ions naturally increases. The lithium-ions within the battery are also in motion, which increases the tension as well, resulting in an improved voltage.

You can get your own AkkuFresh® on our webshop https://akkufresh.com/webshop

Or you also can contact our exclusive importers worldwide 

https://akkufresh.com/en/contact-us/contact-info

and find out where is the nearest shop to you where you can receive your own AkkuFresh® Next Generation™ foil.

Yes. AkkuFresh® is reusable and compatible with any portable device! You can use the foil as many times as you want. The life span of Mag® Power Foil™, the technology behind AkkuFresh® Next Generation™, is 400 years. You just have to protect the gummed surface of the foil to maintain the adhesive effect. Make sure you do not crack or damage the foil material. If that happens, it is better to purchase a new sticker and re-install it.

According to the operating principles of the microwave oven, high-frequency (2.45 gigahertz) electromagnetic waves of energy are transferred to the food molecules, thereby increasing their thermal motion. In many molecules (such as water molecules), one part of the molecule is positive, and the other is negatively charged. As they come into contact with the charge varying electric field, the molecules of food are trying to reach the appropriately charged particle. This particle motion generates heat, as the moving particles collide.Each particle vibrates at some frequency, even the crystals that are on the Li-ion or Lithium-polymer battery separator that are created by charging or discharging the battery. 

The AkkuFresh® Next Generation™ foil acts as a frequency modulator. Frequency of the electro-magnetic field in the cell is reflected back to it at a higher frequency at which the crystal particles vibrate. This process of bio-resonance causes the crystals to burst, meaning that the battery regenerates itself to its original capacity and the flow of negative-ions naturally increases. The lithium-ions within the battery are also in motion, which increases the tension as well, resulting in an improved voltage.

AkkuFresh® absorbs all sources of energy, including the electromagnetic field (EMF) energy and transforms these energies in a natural way into negative ions, long wave infrared rays, bio-resonance and scalar energy. Negative ions penetrate into the battery and create a higher frequency on which the crystals resonate and burst. This cleaning process causes the battery to regain its initial capacity, and enhance the flow of negative ions. It also lets the Lithium ions resonate, through which an increase in voltage obtained.

The foil and the material are designed to:

• Absorb, modify and reflect the electromagnetic field (EMF), generated by the battery.
• Generate a flow of negative ions.
• Interact with the battery's internal electrolyte and ions through the battery's case.

AkkuFresh® Next Generation™ foil's effective performance depends on several factors, including type of mobile device, brand, model, type of battery, age, status (total amount of charging-discharging cycles), external temperature, environmental conditions, and cellular network.

If you have a dead battery, it means you can’t charge or discharge your battery. In this case, you can’t use  AkkuFresh® Next Generation™. You must be able to charge or discharge at least ten times. Optimal improvements are visible after (5-10) charging cycles.

We wanted to design a product that solves many environmental issues we have generated today by the portable electronic device industry. One of the main issues is the unnecessary amount of waste produced. We wanted to make a product that will be compatible and reusable with all portable devices, without any exceptions of brand or the type of gadget. So here we have one size for all concepts. During the application, you need to make sure only one thing. You must cover min. 80% of your battery on one side. Use can use more pieces of AkkuFresh® for larger batteries and kind of like “work with the puzzle”. AkkuFresh® Next Generation™ is a small rectangular foil, which is 1.14 inch x 1.97 inch / 29 mm x 50 mm size and 0.00492 inch / 0.125mm thin. It is easy to use and can be installed by you (place or attach AkkuFresh® outside the device above the battery, or on the battery inside the battery compartment.

We designed it to work correctly in every application. AkkuFresh® Next Generation™ is a small rectangular foil, which is 1.14 in x 1.97 in /29 mm x 50 mm size and 0.00492 in / 0.125mm thin. It is easy to use and can be installed by you (place or attach AkkuFresh® outside the device above the battery, or on the battery inside the battery compartment. We recommend to use it as it is without cutting it. You can fold AkkuFresh® around the edge of the battery in case you feel that it is bigger than you need.

No, AkkuFresh® Next Generation™ has a protection mechanism to prevent any issues.  

“How & where to install your AkkuFresh® Next Generation™” was always a question of our users.  

So let us give you some important information:

• Do NOT cover the electrical contacts on the device or battery
• Place or attach AkkuFresh® Next Generation™ outside the instrument above the battery, or on the battery inside the battery compartment
• For greater efficiency, ad more AkkuFresh® to cover at least 80% of the battery on one side.
• Several charging cycles (5-10) are required for a noticeable improvement in battery life.

Installation steps (outside installation):

1. Find out where is the battery is in your device
2. Clean the surface of the cover of your device
3. Attach AkkuFresh® Next Generation™ foil directly over the area of the battery
4. Register your product with your QR code (placed on the ID card)

Installation steps (inside installation):

1. Turn OFF the device
2. Remove battery
3. Attach AkkuFresh® Next Generation™ foil on battery; under the battery or around the battery
4. Reinstall the battery
5. Turn ON the device
6. Register your product with your QR code (placed on the ID card)

AkkuFresh® Next Generation™ foil's effective performance depends on several factors, including the type of mobile device, brand, model, type of battery, age, status (total amount of charging-discharging cycles), external temperature, environmental conditions, and cellular network.

1. Do NOT cover the electrical contacts on the device or battery
2. Place or attach AkkuFresh® Next Generation™ outside the instrument above the battery, or on the battery inside the battery compartment
3. For greater efficiency, ad more AkkuFresh® to cover at least 80% of the battery on one side. 
4. Several charging cycles (5-10) are required for a noticeable improvement in battery life.

No, AkkuFresh® Next Generation™ is designed to deliver as much current as a battery can supply to the device. Also, AkkuFresh® Next Generation™ is compatible with all the brands and types of portable devices you may have.

AkkuFresh® Next Generation™ works well with any mobile phone brand, model, type of battery, and a cellular network (GSM, CDMA, CDMA 2000, LTE…) or system (analog or digital).
The product has been evaluated and documented by several universities, independent laboratories, technology websites, and professionals.
AkkuFresh® Next Generation™ has been tested with different mobile phone brands and types of batteries: Li-Ion, Li-Po, Ni-Cd, and Ni-Mh.

No, the battery’s internal chemical processes cannot be re-activated. Never use AkkuFresh®  with or attach it to a defective battery. Aged batteries can be slightly re-activated by applying AkkuFresh®, but it is rare.

Batteries differ according to brands, models, technology, and age. They contain different chemical materials, have distinct electrical characteristics and techniques. Furthermore, there are differences according to capacity and lifetime of batteries. 

Batteries are also different in their status (total amount of charge-discharge cycles), production time, age, etc.

Devices vary with respect to brands, models, dates of production, etc. They use different technologies and require various amounts of power to work. For a mobile phone, the cellular network used is also a factor depending on geographical location and on how well the mobile phone transmits power. The external temperature is yet another factor as if the temperature is low; battery life will be reduced.

To obtain the best performance (battery life and charging speed), adjust AkkuFresh® in such a way that it covers min. 80% of the battery on one side (size 1.14 inch x 1.97 inch / 29 mm x 50 mm size and 0.00492 inch / 0.125mm thin). Use more pieces of AkkuFresh® for larger batteries.

We recommend to use it as it is without cutting it. You can fold AkkuFresh® around the edge of the battery in case you feel that it is bigger than you need.

Battery life increases more than when you only cover a minimum of 80% of the battery on one side but only to a slight extent. By following our instructions and covering a minimum of 80% of the battery on one side you can achieve efficient battery life improvement and good results. Measurements of AkkuFresh® Next Generation™: 1.14 inch x 1.97 inch / 29 mm x 50 mm size and 0.00492 inch / 0.125mm thin.

AkkuFresh® is reusable and compatible with any portable device! You can use the foil as many times as you want. The life span of Mag® Power Foil™, the technology behind the AkkuFresh® Next Generation™, is 400 years (calculated scientifically in a lab).  You just have to protect the gummed surface of the foil to maintain the adhesive effect. Make sure you do not crack or damage the foil material. If that happens, it is better to purchase a new sticker and re-install it.

NOTE: It is crucial to understand that AkkuFresh® is not designed to extend the battery life of a brand new battery. AkkuFresh® regenerates the battery and helps to recover the original performance, maintains the maximum capacity, reduces the charging time, and extends the life span. To avoid the placebo effect, we highly recommend using a spare mobile device, during the test period to achieve the best test results and get an accurate measurement. The device should not act as your everyday item! Please keep the testing period under the same circumstances. For quick and best test results uses an old battery.

1. Make a note of the original performance of your device (standby time), taking into consideration that you must go with (standby time) throughout the test for precise measurement.
2. Charge your battery fully and make a note by filling in the date and time right now.
3. Don’t charge the battery, and register on the Independent Test Form the date and time it loses power.
4. Now, fit the AkkuFresh® foil(s) to your portable device's battery, or directly on the gadget above the battery location. It must cover a minimum of 80% of the battery on one side. Size of AkkuFresh®: 1.14 inch x 1.97 inch / 29 mm x 50 mm size and 0.00492 inch / 0.125mm thin. Use more pieces of AkkuFresh® for larger batteries.
5. Fill in the Test-Sheet (you can download this document here) details of the time and date the AkkuFresh® was applied.
6. Leave the AkkuFresh® foil on your battery all along, recharge the battery fully after it lost power.
8. Then note the date and time of your last recharge on that 10. charging cycle.
9. Use in standby mode device, don’t charge the battery, and note on the Test-Sheet the date and time it loses power.
10. Complete the Test-Sheet.
11. We would like to ask for your help so please send the test sheet to us via e-mail (itest@akkufresh.com). We are looking for more happy customers using our product so we can build an excellent collection of testimonials and success stories. 
12. Use AkkuFresh® – Nanotech Battery Life Foil and Do more...with us the fun never ends!™

AkkuFresh® Next Generation™ foil's effective performance depends on several factors, including the type of mobile device, brand, model, type of battery, age, status (total amount of charging-discharging cycles), external temperature, environmental conditions, and cellular network.

No, AkkuFresh® is a passive product (without any electric or electronic parts), simply installed inside the device under the battery and can be removed anytime without any problem. AkkuFresh® does not interact with the device functions and electronic parts, therefore there is no device modification.

There are no undesirable effects. AkkuFresh® is totally safe for the user, the mobile device, and the battery. There are also no harmful effects on the cellular signal and reception either.

Because, at the moment, the integration process and material costs may unfavorably affect consumer price, but discussions with a mobile phone, computer, and battery manufacturers are in process. Actually, several manufacturers and European cellular operators are currently supplying  AkkuFresh® as an accessory to their products (Vodafone, Pannon GSM, T-Mobile).

AkkuFresh® should be seen as an addition, not a replacement to a battery as it maintains and extends battery life for new and old batteries. It is preferable to get extended use out of the original manufacturer’s battery rather than replace it with a cheaper non-branded battery or a reconditioned one. AkkuFresh® is reusable and compatible with any portable device! You can use the foil as many times as you want. You just have to protect the gummed surface of the foil to maintain the adhesive effect. Make sure you do not crack or damage the foil material. If that happens, it is better to purchase a new sticker and re-install it.

More than 800 million people around the world currently use mobile phones and that figure is growing daily as consumers get bombarded by advertising campaigns exhorting them to upgrade to the latest, most fashionable model.

The average North American gets a new cell phone every 18 to 24 months, making old phones—many that contain hazardous materials like lead, mercury, cadmium, brominated flame retardants, and arsenic—the fastest growing type of manufactured garbage in the nation. According to the U.S. Environmental Protection Agency (EPA), Americans discard 125 million phones each year, creating 65,000 tons of waste. Whether at work or at home, more and more Americans are enjoying the convenience of rechargeable batteries. They are being used in cellular phones, laptop computers, cordless power tools, and video cameras. In fact, more than 350 million rechargeable batteries are purchased annually in the United States. When thrown away, these batteries can contribute to the toxicity level of landfills and incinerator ash, as many of them contain heavy metals.

The biggest problem with the Li-Ion battery is the ease with which it can be damaged during use: 

The Li-Ion battery carries a very large amount of energy in a small package. Combined with the fact that the internal resistance is fairly high, you have the potential for a very dangerous product: If the cell is accidentally shorted, it could get hot enough to burn a user (and possibly explode). 

The makers of Li-Ion cells handle the explosion threat by designing the case of the cell so that it will "die with honor", and not explode in someone's pants pocket if the battery hits their car keys. More importantly, the actual battery terminals are simply never allowed to reach the outside world. 

The only manufacturer presently shipping Li-Ion batteries for consumer products does not sell single cells, only battery packs. Contained within the pack is circuitry that isolates the battery power leads from the outside world if excessive current is sensed, preventing battery damage and protecting the user. 

Another easy way to destroy a Li-Ion battery is by discharging it too far. The Li-Ion cell should never be allowed to drop below about 2.4V, or an internal chemical reaction will occur where one of the battery electrodes can oxidize (corrode) through a process that can not be reversed by recharging. If this occurs, battery capacity will be lost (and the cell may be completely destroyed). 

A similar process will occur if a Li-Ion cell is charged to too high of a voltage. If the current is continually forced into a fully charged cell, internal corrosion can take place which will reduce cell capacity (possibly completely). 

For this reason, Li-Ion cells can not be trickle charged for extended time periods without cutting off the current when full charge is reached. Sustained charge currents (even a few µA) can damage the cell if allowed to run continuously.

Batteries are acutely sensitive to operating temperature with respect to their charging characteristics and A-hr capacity. Most well-designed chargers have temperature sensors to assure that the battery temperature is within the acceptable "window" for charging (if not, the charger will not turn on the current source). 

NI-CD/NI-MH 

Battery makers generally recommend 0-50°C as the maximum operating limits for Ni-Cd and Ni-MH batteries, and typically restrict the allowable range to about 10-40°C for fast charging of the batteries. 

These batteries work best at temperatures close to 25°C, as their characteristics change very quickly when the temperature deviates from this "ideal" point. 

At elevated temperatures, the cell experiences two undesirable effects: 

a) The A-hr capacity of the cell reduces, meaning the cell will simply not deliver as much energy after being fully charged. 

b) The cell gets "reluctant" to accept a charge (the charging efficiency gets very bad) which makes it harder to fully charge the cell. This means that at a high (>40°C) temperature, the charging efficiency can be so poor that 200 to 300% of the battery's total energy may have to be pumped into it before it gets fully charged. 

At low temperatures, the maximum safe charging current that the cell can tolerate is lower because the gas does not recombine as readily within the cell. For optimum battery life, a charger should sense the temperature and reduce to maximum charge current at low temperatures. 

There is also a loss of cell capacity at low temperatures, although the effect is not nearly as pronounced as the reduction seen at high temperatures. 

LI-ION 

The Li-Ion cell (as advertised by the few manufacturers presently making it) can be safely charged at temperatures between 0-45°C. 

The operating temperature range during discharge is specified as -20 to 60°C. 

The small amount of information in published curves on the Li-Ion cell indicates that it is superior to Ni-Cd/Ni-MH in its performance over temperature. 

The Li-Ion cell does not suffer a substantial capacity loss at high temperatures, as the discharge curves at 20°C and 60°C are virtually identical. 

There is a progressive loss of capacity at low temperatures. With the 0°C delivered energy being about 90% of the 20°C amount, and at -20°C the cell performs about 70% of the capacity that is delivered at 20°C.