Making hydrogen more easy to store and transport, will solve some of the greatest challenges facing Hydrogen as energy.
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What we do
We are tackling climate change by solving the greatest challenge facing the adoption of hydrogen economy: safe and efficient hydrogen storage.
Company's story
Our Specialty
Transformational Nanotechnology Designed with Atomic Precision
We are deploying decades of advancements and discoveries by the founders of both artificial molecular machinery and reticular chemistry to design solid-state novel nanomaterials with exceptional hydrogen adsorption property.
Low Pressure Hydrogen Storage
Because hydrogen is the lightest element, the industry introduced very-high-pressure storage tanks to increase the energy storage density of hydrogen. Most recent pressured hydrogen tanks are in the form of 700-bar pressured cylinders. While such highly pressured hydrogen gas can achieve a good energy storage density, this comes with a significant energy loss every time the hydrogen cylinder is filled.
Our technology enables high energy storage density at pressures as low as 20 bar, which is less than 3% of the pressure of the common 700-bar cylinders.
Ambient-Temperature Hydrogen Storage
Another method for increasing the storage density of hydrogen is to liquify hydrogen at an extremely low temperature, – 253 C. While liquid hydrogen provides high energy density, it also comes with a significant energy loss every time the hydrogen fuel is liquified. Additionally, maintaining hydrogen in liquid form at -253 C also continuously consumes energy throughout the whole storage duration.
Our technology enables high energy storage density at ambient temperature, avoiding the need to waste energy on cooling the hydrogen gas or on maintaining the stored hydrogen gas at a cold temperature
Safe Hydrogen Storage
Storing hydrogen at very high pressure comes with higher safety concerns and leads to more costly and more complex safety measures.
Our technology significantly reduces safety concerns related to hydrogen storage by enabling significant storage density at much lower pressure levels.
Fast Hydrogen Charge and Discharge Rates
One of the important requirements for an effective hydrogen storage technology is to the ability to fill the storage vessel in a relatively short time. Similarly, it is important to be able to discharge the hydrogen gas out of the storage vessel at a fast enough rate. While some existing hydrogen storage technologies may have good energy storage densities, they suffer either from slow charging or discharging rates.
Our hydrogen storage technology enjoys charging rate and discharging rate that are equivalent to the best rates achieved across the hydrogen storage industry.
We are deploying decades of advancements and discoveries by the founders of both artificial molecular machinery and reticular chemistry to design solid-state novel nanomaterials with exceptional hydrogen adsorption property.
Low Pressure Hydrogen Storage
Because hydrogen is the lightest element, the industry introduced very-high-pressure storage tanks to increase the energy storage density of hydrogen. Most recent pressured hydrogen tanks are in the form of 700-bar pressured cylinders. While such highly pressured hydrogen gas can achieve a good energy storage density, this comes with a significant energy loss every time the hydrogen cylinder is filled.
Our technology enables high energy storage density at pressures as low as 20 bar, which is less than 3% of the pressure of the common 700-bar cylinders.
Ambient-Temperature Hydrogen Storage
Another method for increasing the storage density of hydrogen is to liquify hydrogen at an extremely low temperature, – 253 C. While liquid hydrogen provides high energy density, it also comes with a significant energy loss every time the hydrogen fuel is liquified. Additionally, maintaining hydrogen in liquid form at -253 C also continuously consumes energy throughout the whole storage duration.
Our technology enables high energy storage density at ambient temperature, avoiding the need to waste energy on cooling the hydrogen gas or on maintaining the stored hydrogen gas at a cold temperature
Safe Hydrogen Storage
Storing hydrogen at very high pressure comes with higher safety concerns and leads to more costly and more complex safety measures.
Our technology significantly reduces safety concerns related to hydrogen storage by enabling significant storage density at much lower pressure levels.
Fast Hydrogen Charge and Discharge Rates
One of the important requirements for an effective hydrogen storage technology is to the ability to fill the storage vessel in a relatively short time. Similarly, it is important to be able to discharge the hydrogen gas out of the storage vessel at a fast enough rate. While some existing hydrogen storage technologies may have good energy storage densities, they suffer either from slow charging or discharging rates.
Our hydrogen storage technology enjoys charging rate and discharging rate that are equivalent to the best rates achieved across the hydrogen storage industry.
Our story
Our Mission
To design and develop durable and efficient solid-state hydrogen storage solutions that work under ambient temperatures and low pressure, by deploying the latest advancements in the field of molecularly engineered materials.
Our Promise
We are committed to the decarbonization of our planet by enabling the hydrogen economy, we are doing this by developing hydrogen storage solutions designed with atomic precision.
Our Values
Precision – We focus on every detail, from every angle.
Courage – We challenge conventions with creativity.
Integrity – We do what’s right for the planet.
Sustainability – We create solutions for today and tomorrow.
To design and develop durable and efficient solid-state hydrogen storage solutions that work under ambient temperatures and low pressure, by deploying the latest advancements in the field of molecularly engineered materials.
Our Promise
We are committed to the decarbonization of our planet by enabling the hydrogen economy, we are doing this by developing hydrogen storage solutions designed with atomic precision.
Our Values
Precision – We focus on every detail, from every angle.
Courage – We challenge conventions with creativity.
Integrity – We do what’s right for the planet.
Sustainability – We create solutions for today and tomorrow.
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USA
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