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$0.0005 Day's Change 0.00 (0.00%)
Bid 0.0004 Ask 0.0005
B/A Size 15061237 x 2776373
Historical Short Volume Data for NPWZ
Date Close High Low Volume Short Volume % of Vol Shorted
Jun 11 NA NA NA 10,932,072 10,730,000 98.15
Jun 08 NA NA NA 5,160,000 4,760,573 92.26
$NPWZ XNRGI battery electrode technology is perfectly scalable platform model.
RWFZS Saturday, 06/09/18 01:52:48 PM
Re: None 0
Post #
26957
of 26961
"XNRGI is on the cusp of one of the fastest, deepest, most consequential disruptions of energy storage in history."
http://solarquarter.com/index.php/perspectives/10999-storage-and-smart-solar-technologies
Dr. Chris D’couto,CEO,XNRGI NEAH Power Systems India Pvt. Ltd.
Tracing the technological progress of Energy storage in India, could the next big technological revolution be in the storage of solar energy?
When the sun doesn’t shine? The world we live in operates 24/7, battery storage technologies are emerging as a critical part of the solution to increase access to electricity in conjunction with solar PV in solar home systems, as well as providing stability services to mini-grids, improving the power quality and increasing the potential share of variable renewables in such remote grids. XNRGI is on the cusp of one of the fastest, deepest, most consequential disruptions of energy storage in history. The lithium battery technology is at the crossroads. The fundamental limitations and outdated electrode manufacturing methods have considerably slowed down the progress. The expected improvements in performance have not happened and the hope for breakthroughs towards new active materials is not likely. A battery is considered the weakest link in many flourishing applications such as electrical vehicles and other mobile applications; and the obstacle towards widespread proliferation of groundbreaking devices. And while the battery industry stagnates, the next 4th industrial revolution will not wait, and it desperately demands a better, lighter, and cheaper portable power source that scales across ever increasing energy storage needs from transport, consumer electronics to the grid. The electrical vehicle application in particular is on a high trajectory towards completely taking over the vehicle industry, but it needs a battery that will match the demand. Present battery technology is not capable of manufacturing scale to meet the demands of the application in terms of energy density, cycle life, safety or cost.
“India’s total demand for energy will more than double by 2030, while electricity demand will almost triple This assumes sufficient uptake to double the share of renewables in the global energy mix in less than a decade and a half. With growing demand for electricity storage from stationary and mobile applications, the total stock of electricity storage capacity will need to grow more than 150%, from an estimated 4.67 terawatt-hours (TWh) in 2017 to 12 TWh or more by 2030.”
IRENA 2017 Energy Storage Report
How are you gearing up for this technological revolution?
The XNRGI (exponential energy) battery technology concept is based on a porous silicon substrate that will become the ultimate pathway towards achieving the goal of superior battery performance in a scalable manufacturing form to meet the demands of an ever-growing energy storage market in batteries. This is a novel approach for constructing electrodes and manufacturing batteries. The three-dimensional, porous structures enable several times better energies, larger number of cycles, elimination of the safety problems, and lower cost. The concept is based not on some exotic or mysterious new material, but on the well-known silicon, used in computer chips and driving or controlling practically everything in modern life. For batteries, silicon is used in form of porous wafers – the three-dimensional porous structure that enables improvements in every battery property. We have taken the idea of simultaneously improving all fundamental prosperities of batteries by using a porous conductive substrate in silicon and demonstrated the exceptional performance that is 3 to 6 times that of traditional batteries. The semiconductor industry has been a dominant driving force behind modern technology advancement for the last five decades. If one needs to point to a single reason for this dominance, without a doubt, that would be a permanent evolution in manufacturing and semiconductor industry’s ability to innovate again and again with high volume manufacturing and achieve double win - low cost and improved performance.
What are the challenges that the sector is fronting?
High Capital Cost to Manufacture, Safety, Energy Performance Density, Installation and Integration, Efficiency, Scalability, Flexibility, Cycle Life, but most importantly Cost. Cost is key driver for all storage applications. Low cost batteries will enable 27/7 clean energy for solar.
The complexity of combinations possible between different anodes and cathodes in lithium battery systems makes it difficult to discuss the shortcomings of various batteries in general terms. But, we’ll try to point to main sources of problems that affect the performance or safety of these batteries. First, we define the performance as a totality of the following main battery characteristics*:
1. Energy density: the amount of energy stored per volume or weight.
2. Power density: the ability to deliver current per volume or weight. The ability to accept current is related to charging time.
3. Cycle life: number of cycles that a battery can deliver a useful capacity, typically 80% of the nominal or starting capacity.
4. Safety: the ability to reduce the probability of a catastrophic battery failure with violent outcome such as fire or explosion.
5. Manufacturing: cost, capacity and time to implementation.
XNRGI battery electrode technology is a perfectly scalable platform model. Flexible, Tunable, Low Cost, Safe, High Volume Manufacturing Model. The based unit or size produced is a 200 mm wafer. For applications that require larger power, full wafer electrodes can be assembled into stacks, while for smaller electrodes wafers would be cut (or diced) into any size required.
With every aspect of performance improved, the XNRGI battery concept is easily the most important battery innovation in the recent history of lithium batteries. By merging the battery industry with the silicon processing industry, the technology has the potential to harness numerous performance improvement pathways and provide a battery that will keep improving. The structure of porous silicon is extremely versatile and provides a platform, which can be continuously improved with other innovations from the battery field or semiconductor field. This is not a stagnant or limited concept; on the contrary the possibilities are almost endless towards further improvements.
XNRGI battery electrode technology is a perfectly scalable platform model.
RWFZS Saturday, 06/09/18 01:52:48 PM
Re: None 0
Post #
26957
of 26961
"XNRGI is on the cusp of one of the fastest, deepest, most consequential disruptions of energy storage in history."
http://solarquarter.com/index.php/perspectives/10999-storage-and-smart-solar-technologies
Dr. Chris D’couto,CEO,XNRGI NEAH Power Systems India Pvt. Ltd.
Tracing the technological progress of Energy storage in India, could the next big technological revolution be in the storage of solar energy?
When the sun doesn’t shine? The world we live in operates 24/7, battery storage technologies are emerging as a critical part of the solution to increase access to electricity in conjunction with solar PV in solar home systems, as well as providing stability services to mini-grids, improving the power quality and increasing the potential share of variable renewables in such remote grids. XNRGI is on the cusp of one of the fastest, deepest, most consequential disruptions of energy storage in history. The lithium battery technology is at the crossroads. The fundamental limitations and outdated electrode manufacturing methods have considerably slowed down the progress. The expected improvements in performance have not happened and the hope for breakthroughs towards new active materials is not likely. A battery is considered the weakest link in many flourishing applications such as electrical vehicles and other mobile applications; and the obstacle towards widespread proliferation of groundbreaking devices. And while the battery industry stagnates, the next 4th industrial revolution will not wait, and it desperately demands a better, lighter, and cheaper portable power source that scales across ever increasing energy storage needs from transport, consumer electronics to the grid. The electrical vehicle application in particular is on a high trajectory towards completely taking over the vehicle industry, but it needs a battery that will match the demand. Present battery technology is not capable of manufacturing scale to meet the demands of the application in terms of energy density, cycle life, safety or cost.
“India’s total demand for energy will more than double by 2030, while electricity demand will almost triple This assumes sufficient uptake to double the share of renewables in the global energy mix in less than a decade and a half. With growing demand for electricity storage from stationary and mobile applications, the total stock of electricity storage capacity will need to grow more than 150%, from an estimated 4.67 terawatt-hours (TWh) in 2017 to 12 TWh or more by 2030.”
IRENA 2017 Energy Storage Report
How are you gearing up for this technological revolution?
The XNRGI (exponential energy) battery technology concept is based on a porous silicon substrate that will become the ultimate pathway towards achieving the goal of superior battery performance in a scalable manufacturing form to meet the demands of an ever-growing energy storage market in batteries. This is a novel approach for constructing electrodes and manufacturing batteries. The three-dimensional, porous structures enable several times better energies, larger number of cycles, elimination of the safety problems, and lower cost. The concept is based not on some exotic or mysterious new material, but on the well-known silicon, used in computer chips and driving or controlling practically everything in modern life. For batteries, silicon is used in form of porous wafers – the three-dimensional porous structure that enables improvements in every battery property. We have taken the idea of simultaneously improving all fundamental prosperities of batteries by using a porous conductive substrate in silicon and demonstrated the exceptional performance that is 3 to 6 times that of traditional batteries. The semiconductor industry has been a dominant driving force behind modern technology advancement for the last five decades. If one needs to point to a single reason for this dominance, without a doubt, that would be a permanent evolution in manufacturing and semiconductor industry’s ability to innovate again and again with high volume manufacturing and achieve double win - low cost and improved performance.
What are the challenges that the sector is fronting?
High Capital Cost to Manufacture, Safety, Energy Performance Density, Installation and Integration, Efficiency, Scalability, Flexibility, Cycle Life, but most importantly Cost. Cost is key driver for all storage applications. Low cost batteries will enable 27/7 clean energy for solar.
The complexity of combinations possible between different anodes and cathodes in lithium battery systems makes it difficult to discuss the shortcomings of various batteries in general terms. But, we’ll try to point to main sources of problems that affect the performance or safety of these batteries. First, we define the performance as a totality of the following main battery characteristics*:
1. Energy density: the amount of energy stored per volume or weight.
2. Power density: the ability to deliver current per volume or weight. The ability to accept current is related to charging time.
3. Cycle life: number of cycles that a battery can deliver a useful capacity, typically 80% of the nominal or starting capacity.
4. Safety: the ability to reduce the probability of a catastrophic battery failure with violent outcome such as fire or explosion.
5. Manufacturing: cost, capacity and time to implementation.
XNRGI battery electrode technology is a perfectly scalable platform model. Flexible, Tunable, Low Cost, Safe, High Volume Manufacturing Model. The based unit or size produced is a 200 mm wafer. For applications that require larger power, full wafer electrodes can be assembled into stacks, while for smaller electrodes wafers would be cut (or diced) into any size required.
With every aspect of performance improved, the XNRGI battery concept is easily the most important battery innovation in the recent history of lithium batteries. By merging the battery industry with the silicon processing industry, the technology has the potential to harness numerous performance improvement pathways and provide a battery that will keep improving. The structure of porous silicon is extremely versatile and provides a platform, which can be continuously improved with other innovations from the battery field or semiconductor field. This is not a stagnant or limited concept; on the contrary the possibilities are almost endless towards further improvements.
Buys out number sells daily....CEOs need to make a statement of some sort IMO
120 share trade $0.0004 Day's Change -0.0001 (-20.00%)
Bid 0.0004 Ask 0.0005
B/A Size 14,127,237x 3,090,706
Day's High 0.0005 Day's Low 0.0004
Bill_ENG Thursday, 06/07/18 12:14:29 AM
Re: ShortonCash post# 26942 0
Post #
26944
of 26952
I agree this is being manipulated but I don't think it is without the CEO's express permission.
The OS is no longer being publicized, not since the last dilution in April of this year.
There was also a "correction" last month on the "Class B Preferred" filing from before the "BIG DUMP". I wonder which direction that went.
Too many un-kosher things happening that it simply cannot be without the CEO's express permission.
JMHO
Bill
The CO CEO has release videos and there is now a website...
Opinions as to what a .0005 priced stock is doing with a website and videos with no follow-up are certain open to the interpretation but I would think it would have more to do with the way the stock is being manipulated then the CEO not caring...
only brokers can do the zip code trades.... ahd who sell 6 shares... like today and yesterday and the 32,000,000 shares traded on a friday afternoon and zero share the day before...
May 25 39,884,500 32,296,627 80.98
Historical Short Volume Data for NPWZ
Date Close High Low Volume Short Volume % of Vol Shorted
Jun 01 NA NA NA 21,291,250 13,196,098 61.98
May 31 NA NA NA 7,256,136 5,246,136 72.30
May 29 NA NA NA 2,004,152 520,000 25.95
May 25 NA NA NA 39,884,500 32,296,627 80.98
May 24 NA NA NA 3,672,500 1,242,158 33.82
May 23 NA NA NA 2,159,900 371,781 17.21
May 21 NA NA NA 7,545,195 2,118,600 28.08
May 18 NA NA NA 4,025,978 1,210,000 30.05
May 17 NA NA NA 21,360,000 5,911,103 27.67
May 16 NA NA NA 5,087,500 1,950,000 38.33
May 15 NA NA NA 1,080,006 555,000 51.39
May 14 NA NA NA 1,430,239 50,001 3.50
May 11 NA NA NA 876,219 116,219 13.26
May 10 NA NA NA 500,012 500,000 100.00
XNGRI's atomic scale production ? source of wafers?
same time frame as Neah's first battery claims
http://xnrgi.com/media/
SOITEC AND SCREEN COLLABORATE TO DELIVER ATOMIC-SCALE UNIFORMITY ON 300MM FD-SOI SUBSTRATES
Ability to Mass Produce FD-SOI Substrates Enables Cost-Efficient Fabrication
of High-Performance Semiconductor Devices
Two industry leaders collaborate to produce atomic-scale uniformity substrates
http://inpublic.globenewswire.com/releaseDetails.faces?rId=1938057
Santa Clara, Calif., and Bernin (Grenoble), France, Sept. 19, 2017 -- GLOBALFOUNDRIES and Soitec today announced that they have entered into a five-year agreement to ensure the volume supply of state-of-the-art fully depleted silicon-on-insulator (FD-SOI) wafers. This agreement extends the current partnership to provide a solid foundation for both companies to strengthen the FD-SOI supply chain and help ensure high-volume manufacturing.
Santa Clara, Calif., and Bernin (Grenoble), France, Sept. 19, 2017 -- GLOBALFOUNDRIES and Soitec today announced that they have entered into a five-year agreement to ensure the volume supply of state-of-the-art fully depleted silicon-on-insulator (FD-SOI) wafers. This agreement extends the current partnership to provide a solid foundation for both companies to strengthen the FD-SOI supply chain and help ensure high-volume manufacturing.
Atomic-level control of SOI substrate top silicon thickness enables an excellent control of transistor geometry, key for fully depleted technology. This collaborative success not only maximizes FD-SOI substrate yields, but also represents another step in strengthening the global FD-SOI ecosystem.
[img][https://i.imgur.com/kHFGBw1.jpg/img]
The ability to create uniform layers of channel silicon ensures FD-SOI device performance and optimal electrical characteristics on all wafers surface. FD-SOI technology leverages starting wafers - on which circuits are built - consisting of an ultra-thin layer of top silicon over a thin buried oxide, with extremely tight control of top silicon uniformity to within just a few atoms. These layers form the active layers in the final transistor, and therefore must be as free of defects and as planar as possible.
Using Soitec’s Smart Cut™ technology and SCREEN ‘s cost-efficient, proven robust single wafer-cleaner processing equipment compliant with FD-SOI manufacturing requirements, Soitec is able to consistently produce highly uniform FD-SOI wafers and will be able to do it in sufficient volume to meet the global semiconductor industry’s market demand. FD-SOI enables high performance and power-efficiency for cost-sensitive processors in mobile, consumer, automotive and networking markets.
Our strategic partnership with SCREEN enables us to produce ultra-thin FD-SOI substrates that meet chip makers' challenging requirements of atomic level resolution in high volume manufacturing. Our FD-SOI wafers are already qualified by a number of foundries,
Key advantages of the system include highly uniform chamber-to-chamber processing and cycle times for robust results, tight control of layer thicknesses, the elimination of defects and metal contamination and high productivity enabled by a versatile chemical-supply system.
The CO CEO has release videos and there is now a website...
Opinions as to what a .0005 priced stock is doing with a website and videos with no follow-up are certain open to the interpretation but I would think it would have more to do with the way the stock is being manipulated then the CEO not caring...
only brokers can do the zip code trades.... ahd who sell 6 shares... like today and yesterday and the 32,000,000 shares traded on a friday afternoon and zero share the day before...
May 25 39,884,500 32,296,627 80.98
Historical Short Volume Data for NPWZ
Date Close High Low Volume Short Volume % of Vol Shorted
Jun 01 NA NA NA 21,291,250 13,196,098 61.98
May 31 NA NA NA 7,256,136 5,246,136 72.30
May 29 NA NA NA 2,004,152 520,000 25.95
May 25 NA NA NA 39,884,500 32,296,627 80.98
May 24 NA NA NA 3,672,500 1,242,158 33.82
May 23 NA NA NA 2,159,900 371,781 17.21
May 21 NA NA NA 7,545,195 2,118,600 28.08
May 18 NA NA NA 4,025,978 1,210,000 30.05
May 17 NA NA NA 21,360,000 5,911,103 27.67
May 16 NA NA NA 5,087,500 1,950,000 38.33
May 15 NA NA NA 1,080,006 555,000 51.39
May 14 NA NA NA 1,430,239 50,001 3.50
May 11 NA NA NA 876,219 116,219 13.26
May 10 NA NA NA 500,012 500,000 100.00
To this end, there are two new centers Argonne has just opened—one focused on energy storage
alpha-En Corporation and Argonne National Lab XNRGI LINK?
Will Advance alpha-En Technology to Produce Lithium Metal Anodes for EV Batteries with $750,000 Award From DOE Technology Commercialization Fund
alpha-En
Sep 15, 2017, 08:00 ET
YONKERS, N.Y., Sept. 15, 2017 /PRNewswire/ -- alpha-En Corporation (OTC: ALPE), an innovative clean technology company that has developed a patent pending process to produce high purity thin film lithium metal anodes and associated products sustainably, announced today an award of $750,000 from the U.S. Department of Energy's Office of Technology Transition Technology Commercialization Fund (TCF).
This funding will be used to commercialize Argonne's proprietary highly conductive solid-state electrolyte coating for alpha-En's lithium metal anodes. The merger of these technologies further enhances alpha-En's process and the resulting product. Argonne's technology in conjunction with alpha-En's will create an efficient process for a new product allowing for a faster path to market.
XNRGI tech could be a link to Damiler if the XNRGI tech has lithium metal anodes...if Daimler can do a deal with Alpha En, this company with its 3 employees certainly does not leave XNRGI out (linkedin has Neah Power at 7 and XNRGI at 4) ....Who is in in the Luxemborg office what is it they are working on...?...
it makes sense that they would was a source of pure aterial... that would not mean the battery could not be the XNGRI design
The alpha-En Corporation is an innovative clean technology company focused on enabling next generation battery technologies by developing and bringing to market pure, state of the art materials produced in an environmentally sustainable manner.
https://www.owler.com/company/alpha-encorp
alpha-encorp.com
alpha-En is focused on technologies to produce lithium metal for use in batteries and other fields.
Alpha-En Corporation is a Public company. Sam Pitroda is the CEO of Alpha-En Corporation. Alpha-En Corporation has received a total of $3.8M in funding.
Based on data from Alpha-En Corporation's latest SEC filings
Revenue
$<1M
Based on data from Alpha-En Corporation's latest SEC filings
Employees
3
Daimler-Benz AG link ?
http://xnrgi.com/team/
Dr. Reza Abhari
Dr. Abhari is a professor of Energy Technologies at the Swiss Federal Institute of Technology Zurich (ETH) where he is committed to research and development of advanced energy conversion systems and technologies. Dr. Abhari has served as a consultant to notable companies such as Alstom Power, a global leader in power generation, Daimler (NYSE: DAI),
.006 Day's High
seems the 40 million fell and was replaced
$0.0005 Day's Change 0.0001 (25.00%)
Bid
0.0004
Ask
0.0005
B/A Size
2190515500x86000200
Day's High
0.0006
Day's Low
0.0004
Volume(Heavy Day)
3,717,998
June 06, 2018 11:06am ET
http://xnrgi.com/team/
John P. de Neufville with links to BASF and others very interesting things that make you go hmmmm
John P. de Neufville purchased the ChemOvonics Division from ECD in 1986 and founded Voltaix, Inc. a high purity specialty gas business which was sold to Air Liquide America in 2013. Subsequently, he purchased the assets formerly associated with the GM-ECD JV that produced the then novel nickel-metal hydride batteries for GM’s first all-electric car, the EV-1, creating a new company, Eutectix, LLC, based in Troy, MI and currently serving as Eutectix’ CEO and Chief Scientist. His early research interests focused on materials for batteries, optical memory devices, and solar cells, prepared by sputtering, chemical vapor deposition and plasma deposition. At Exxon, John was a member of the team that developed a concept of selective remote sensing of uranyl minerals using laser induced fluorescence. At Voltaix he played a key role in scaling the synthesis of various molecules used for the chemical vapor deposition of insulating, semiconducting and conducting films for advanced integrated circuit and photovoltaic applications. John P. de Neufville holds a PhD. in applied physics and materials science from Harvard University and an M.S. in geology from Harvard University and a B.S. in geology from Yale University.
Eutectix, LLC formed in May 2014 when it acquired the former Ovonic Materials manufacturing facilities at 1864 Northwood Drive Troy Michigan from Great Western Minerals Group. Great Western Minerals Group operated the facilities as Great Western Technologies Inc. (GWTI) from 2007.
imeline – Eutectix History
2016 Eutectix acquires Molycorp Metals and Alloys
2014 Eutectix acquires Great Western Technologies, Inc. GWTI
2012 BASF acquires OBC
2011 Molycorp Minerals LLC acquires SAI and forms Molycorp Metals and Alloys, Inc.
2009 SB LiMotive acquires Cobasys
2007 GWMG acquires Ovonic Materials facilities from ECD
2004 Cobasys forms
2000 Chevron – Texaco buys GM interest in GM Ovonic forms JV with ECD Ovonics called Texaco Ovonic Battery Systems & adds TO Hydrogen Systems and TO Fuel Cell Company
Michael Fetcenko
BASF Raw Materials
Michael FetcenkoManaging Director
Michael Fetcenko is Managing Director of BASF Battery Materials and formerly President of Ovonic Battery Company. Ovonic, which invented and developed NiMH batteries, was acquired by BASF in February 2012. He joined Ovonic in 1980 and has led the R&D and commercialization efforts with over 70 patents and 100 publications in the NiMH battery field. His inventions are used in all NiMH batteries for consumer and vehicle applications. Mr. Fetcenko continues to direct all NiMH operations, and is also a member of the BASF Battery leadership team which directs BASF’s Li-Ion cathode materials and electrolyte commercial activities. He now leads all North America operations for BASF Battery Materials including Manufacturing and Sales & Marketing. In addition, he leads IP for the Battery Materials division globally and serves on the Steering Committee for Sion Power where BASF is a minority owner. Recently led successful high profile NCM cathode enforcement action at US International Trade Commission, bringing together BASF, ANL and outside counsel resulting in a complete victory and broad exclusion order against infringing product. Mr. Fetcenko's inventions were nominated with co-inventor Stanford R. Ovshinsky for the European Inventor Award enabling NiMH batteries for consumer and HEV applications such as the Toyota Prius. Mr. Fetcenko gave an invited lecture to ~100 patent examiners at the European Patent Office regarding his NiMH patents, taking the technology from the laboratory to widespread commercial use, licensing to over 40 companies worldwide and successful enforcement of the technology through dispute resolution. He has given similar invited lectures before the Japan and United States patent offices, and is a widely acknowledged authority in the field of batteries through numerous invited lectures and publications in journals such as Science magazine, Journal of Applied Physics and invited chapters on NiMH batteries in the Handbook of Batteries.
Slobodan Petrovic, PhD XNRGI Engineering
http://www.advancedautobat.com/aabc-us/18/speaker-names/
Slobodan Petrovic, Ph DProfessor
Dr. Slobodan Petrovic is a Professor of Electrical and Renewable Energy Engineering at Oregon Institute of Technology and a Chief Technology Officer for Xnrgi. Dr. Petrovic has over 30 years of experience in various areas of science and technology, and diverse background from large and small industry, government research labs, and academia. He has published, presented and patented over 100 works in these fields. His current interest is in materials for energy storage devices, MEMS fuel cells, dye-sensitized solar cells, investigation of carrier lifetime in solar cells, portable fuel cells, battery charging techniques, hydrogen production and storage, silicon-based anodes for Li Ion batteries, Li air cells, water purification methods, remote sensing for smart grid, and low-cost technology for developing countries. Previously, Dr. Petrovic was a professor at Arizona State University, Vice President of Engineering for a stationary power fuel cell company, a Director of Systems Integration for a portable fuel cell company, and a Member of the Technical Staff for Motorola, Inc. He received his B.Sc. from the University of Belgrade in his native Serbia and his PhD from the Technical University of Dresden in Germany. Dr. Petrovic is also Founder and President of a non-profit organization, Solar Hope, dedicated to helping developing countries through use of renewable energy. With his team, he has accomplished over 120 solar PV installations, with battery storage, in developing countries.
Ahmad A. Pesaran, PhD
National Renewable Energy Laboratory (NREL) Engineering
Ahmad A. Pesaran, PhD Manager, Energy Storage Group, Transportation and Hydrogen System Center
Dr. Pesaran holds a PhD in Mechanical Engineering from University of California, Los Angeles. He has worked at the National Renewable Energy Laboratory since 1983 on various energy efficiency technologies in building, advanced air conditioning, and automotive batteries. Dr. Pesaran started working on batteries, hybrid electric, and fuel cell vehicles in 1995, collaborating with car and battery manufacturers on battery thermal analysis and battery pack thermal management issues as part of the US Department of Energy’s Vehicle Technologies Programs. He currently leads several projects for Department of Energy and industrial partners, which include thermal characterization and analysis of batteries, modeling and simulation of batteries and ultracapacitors, use for hybrid and plug-in vehicles, and battery secondary use. He is an active member of the FreedomCAR Electrochemical Energy Storage Technical Team and is a member of the Society of Automotive Engineers and American Society of Mechanical Engineers.
Joshua Lamb, PhD
Sandia National Laboratories Engineering
Joshua Lamb, PhDSenior Member of the Technical Staff, Advanced Power Sources R&D
Dr. Joshua Lamb is currently a Senior Member of the Technical Staff with the Advanced Power Sources R&D organization at Sandia National Laboratories. He primarily works as part of the Battery Safety and Abuse Testing Laboratory (BATLab) team. The team focuses on the development of inherently safe lithium-ion batteries by understanding the consequences and mechanisms of failure, developing cradle-to-grave battery testing, and developing new materials for use in battery systems. Joshua earned his PhD in Metallurgical Engineering in 2008 and his B.S. in Chemical Engineering in 2002 from the University of Nevada. Since joining Sandia in 2011, Joshua’s research interests include advanced techniques for determining the stability of lithium-ion batteries and the development of advanced battery abuse and safety tests.
The design is “chemistry” agnostic as it doesn’t restrict use of almost any cathode material, including the most common LCO, NMC, NCA, or LFP cathode materials. The critical feature of the proposed configuration is a three-dimensional, highly repeatable structure, with a 50X larger surface area for reaction with millions of small pores.
High energy density demonstrating (> 1600 Wh/L) 405 Wh/kg 6X the energy density of a traditional Lithium Ion battery. The next generation Lithium Metal Air (4400 Wh/L), 680 Wh/kg, 10X a traditional lithium ion battery. XNRGI batteries have high currents for fast charge and discharge, long cycle life, safe, and low-cost high volume batch fabrication.
http://www.visualcapitalist.com/future-battery-technology/
compare the figures...
XNRGI to scale up to large energy storage project?
Paul Sidlo @psidlo @psidlo
Tesla’s $169 Million Battery Play Is Just the Beginning - Bloomberg http://flip.it/Xpw9ix
https://electrek.co/?s=i3+power+wall+energy+storage
The use of electric car battery packs to create large energy storage projects is becoming increasingly popular.
Now, a new one made of BMW i3 battery packs is connecting to the UK National Grid and has become one of the largest to date.
Paul Sidlo CEO of XNGRI in Abu Dhabi
https://spectrumit-me.com/internet-of-things-abu-dhabi/
https://spectrumit-me.com/abu-dhabi-it-company/paul-sidlo/
abu dhabi iot spectrum paul Entrepreneur, Inventor, CEO, Founder, Director, Executive Creative Director: REZN8, Tillster, LITRICITY, NEAH Power Systems
9-Time Emmy Award Winning Producer/Director of Computer Animation for Film & Television
Innovator & Entrepreneur with 14 US Patents
Paul Sidlo is widely recognized as a pioneer in the field of user interface, 3D computer animation and has won over two hundred awards for his work, including nine Emmys. As an innovator, fundraiser and entrepreneur, Sidlo has fourteen US patents and is the founder of several internationally recognized firms, including REZN8, Tillster.com, and NEAH Power.
GlobalFoundries in Abu Dhabi-based Mubadala Development. Jha started work for Mubadala last month, many shared links....to XNGRI and Paul S....
As we move towards a future where connectivity and the ‘Internet of Things’ will see further proliferation in the use of the microchip, global demand for semiconductors will continue to increase.
Mubadala has placed Abu Dhabi at the forefront of the global semiconductor industry and established a core pillar of the emirate’s economic diversification through the growth of GLOBALFOUNDRIES.
GlobalFoundries in Abu Dhabi-based Mubadala Development. Jha started work as CEO last month.
The company makes semiconductors for some of the world’s leading chip designers, including AMD, Qualcomm and Broadcom. It has factories in Singapore, Germany and the United State
Motorola, Teikon and Neah links or alumni......plus the ownership of the largest chip foundry Ne Xt terra like the Paul Sildo video...lots going on in Abu Dhabi.
The Neah video showed the batteries made on the silicon foundry chip equipment, it would seem if a company just upgraded its chip making equipment and was the largest (as called out in the video) chip making company that they could well use the older equipment to make the new Neah batteries.... NeXt Terra as in the title of the video.... coincidentally located in Abu Dhabi. (hardly a coincidence) and to top it off the Head of the company (Global foundries) is from Motorola Mobility....the same company that head of the Polaris Labs used to work for that just so happen to have an interest in (from the stickies)
Quote:
(Tekion and Motorola, partnering with BASF)
to design and manufacture power packs.41 Presumably because
the catalyst poisoning issue in long-term application could
not be overcome, there were no further updates about these
developments, and Tekion’s assets were acquired by Neah
Power in 2013.42
http://pubs.acs.org/doi/pdf/10.1021/acsenergylett.6b00574
Former top Qualcomm and Motorola executive Sanjay Jha has taken a job as head of GlobalFoundries, an outsource semiconductor manufacturer based in Silicon Valley.
Jha was chief operating officer of Qualcomm before leaving in 2008 to become chief executive of Motorola Mobility. He ran the company until it was sold to Google in 2012 for $12.4 billion.
http://www.sandiegouniontribune.com/business/technology/sdut-Qualcomm-GlobalFoundries-Motorola-Sanjay-Jha-2014feb12-story.html
The missing link could be Polaris Battery Labs, Morris' new Beaverton-based manufacturing and testing lab that might even the playing field for U.S. battery companies.
The battery industry is "completely dominated by Asian companies, yet all of the inventions come out of the U.S.," said Morris, 57, who has acted as a consultant for battery startups since 2003.
Morris previously spent 21 years with Motorola. He recently served as vice president of operations at battery company Enevate.
GlobalFoundries spun out of Advanced Micro Devices in 2009. It is owned by Advanced Technology Investment Co., a subsidiary of Abu Dhabi-based Mubadala Development. Jha started work as CEO last month.
The company makes semiconductors for some of the world’s leading chip designers, including AMD, Qualcomm and Broadcom. It has factories in Singapore, Germany and the United State
The company makes semiconductors for some of the world’s leading chip designers, including AMD, Qualcomm and Broadcom. It has factories in Singapore, Germany and the United State
Motorola, Teikon and Neah links or alumni......plus the ownership of the largest chip foundry Ne Xt terra like the Paul Sildo video...lots going on in Abu Dhabi.
The Neah video showed the batteries made on the silicon foundry chip equipment, it would seem if a company just upgraded its chip making equipment and was the largest (as called out in the video) chip making company that they could well use the older equipment to make the new Neah batteries.... NeXt Terra as in the title of the video.... coincidentally located in Abu Dhabi. (hardly a coincidence) and to top it off the Head of the company (Global foundries) is from Motorola Mobility....the same company that head of the Polaris Labs used to work for that just so happen to have an interest in (from the stickies)
Quote:
(Tekion and Motorola, partnering with BASF)
to design and manufacture power packs.41 Presumably because
the catalyst poisoning issue in long-term application could
not be overcome, there were no further updates about these
developments, and Tekion’s assets were acquired by Neah
Power in 2013.42
http://pubs.acs.org/doi/pdf/10.1021/acsenergylett.6b00574
Former top Qualcomm and Motorola executive Sanjay Jha has taken a job as head of GlobalFoundries, an outsource semiconductor manufacturer based in Silicon Valley.
Jha was chief operating officer of Qualcomm before leaving in 2008 to become chief executive of Motorola Mobility. He ran the company until it was sold to Google in 2012 for $12.4 billion.
http://www.sandiegouniontribune.com/business/technology/sdut-Qualcomm-GlobalFoundries-Motorola-Sanjay-Jha-2014feb12-story.html
The missing link could be Polaris Battery Labs, Morris' new Beaverton-based manufacturing and testing lab that might even the playing field for U.S. battery companies.
The battery industry is "completely dominated by Asian companies, yet all of the inventions come out of the U.S.," said Morris, 57, who has acted as a consultant for battery startups since 2003.
Morris previously spent 21 years with Motorola. He recently served as vice president of operations at battery company Enevate.
GlobalFoundries spun out of Advanced Micro Devices in 2009. It is owned by Advanced Technology Investment Co., a subsidiary of Abu Dhabi-based Mubadala Development. Jha started work as CEO last month.
The company makes semiconductors for some of the world’s leading chip designers, including AMD, Qualcomm and Broadcom. It has factories in Singapore, Germany and the United State
Paul Sidlo @psidlo 10 Time EMMY winner and holder of 16 US Patents CSO and President, XNRGI
Abu Dhabi UAE
xnrgi.com
Paul Sidlo Retweeted
World Economic Forum
?
Verified account
@wef
Jun 3
More
Singapore, Tokyo and Dubai are testing grounds for how robotics and #technology will transform #cities https://wef.ch/2HaMSpo #automation
Paul Sidlo Retweeted
World Economic Forum
?
Jun 3
Singapore, Tokyo and Dubai are testing grounds for how robotics and #technology will transform #cities https://wef.ch/2HaMSpo #automation
https://www.weforum.org/agenda/2018/04/robot-cities-three-urban-prototypes-for-future-living
Things in Abu Dhabi that make you go hmmmm....
https://www.fastcompany.com/40565217/ubers-new-air-taxi-boss-built-flying-cars-for-larry-page
Google signs Aramco deal to establish national cloud provider
Prince plans to meet Amazon, Apple, Google and Uber executives[
LOL Likely the same person that confessed about having 40 million shares...no doubt in an all or nothing trade....interesting that you would point it out... LOL
$0.0005 Day's Change -0.0001 (-16.67%) Bid 0.0004 Ask 0.0005
B/A Size 16,151,255 x 6,520,000
Day's High 0.0006 Day's Low 0.0005
Volume(Heavy Day) 2,330,000 June 04, 2018 9:52am ET
$0.0005 Day's Change -0.0001 (-16.67%)
Bid 0.0004
Ask 0.0005 B/A Size 14,241,255 x 44,900,000
Day's High
0.0006 Day's Low 0.0005
Volume(Heavy Day)
Today's volume of 2,160,000 shares is on pace to be much greater than NPWZ's 10-day average volume of 9,768,879 shares.
2,160,000
June 04, 2018 9:31am ET
$0.0006 Day's Change 0.00 (0.00%) Bid 0.0005 Ask 0.0006
B/A Size 10,000 x 43,960,000
Day's High 0.0006 Day's Low 0.0006
Volume 40,000 June 04, 2018 9:30am ET
$0.0006 Day's Change 0.00 (0.00%)
Bid 0.0005 Ask 0.0006 B/A Size 10000 x 10000
Volume(Light)0 June 01, 2018 3:49pm ET)0 June 01, 2018 3:49pm ET
$NPWZ$0.0006 Day's Change 0.0002 (50.00%)
Bid 0.0005 Ask 0.0006
B/A Size 1,890,851 x 8,224,453
Day's High 0.0006 Day's Low 0.0004 Volume 14,781,250 June 01, 2018 2:27pm ET
NEW Website XNRGI.com
http://xnrgi.com/technology/
Neah Power Systems, (NPWZ)
0.0006 ? 0.0002 (50.00%)
Volume: 14,781,250 @ 2:27:27 PM EDT ET
$NPWZ$0.0006 Day's Change 0.0002 (50.00%)
Bid 0.0005 Ask 0.0006
B/A Size 1,890,851 x 8,224,453
Day's High 0.0006 Day's Low 0.0004 Volume 14,781,250 June 01, 2018 2:27pm ET
Neah Power Systems, (NPWZ)
0.0006 ? 0.0002 (50.00%)
Volume: 14,781,250 @ 2:27:27 PM EDT ET
$NPWZ $0.0006 Day's Change 0.0002 (50.00%)
Bid 0.0005 Ask 0.0006
B/A Size 1,890,851 x 8,224,453
Day's High 0.0006 Day's Low 0.0004 Volume 14,781,250 June 01, 2018 2:27pm ET
Neah Power Systems, (NPWZ)
0.0006 ? 0.0002 (50.00%)
Volume: 14,781,250 @ 2:27:27 PM EDT ET
$0.0006 Day's Change 0.0002 (50.00%)
Bid 0.0005 Ask 0.0006
B/A Size 1,890,851 x 8,224,453
Day's High 0.0006 Day's Low 0.0004 Volume 14,781,250 June 01, 2018 2:27pm ET
Neah Power Systems, (NPWZ)
0.0006 ? 0.0002 (50.00%)
Volume: 14,781,250 @ 2:27:27 PM EDT ET
$0.0005 Day's Change 0.0001 (25.00%)
Bid 0.0004 Ask 0.0005
B/A Size 113230000 x 89657170
Volume(Average) 5,999,996 May 31, 2018 2:03pm ET
Neah Power Systems, (NPWZ)
0.0005 ? 0.0001 (25.00%)
Volume: 6,999,995 @ 2:03:19 PM EDT ET
Buys out number sells 6 to 1 one the Ihub chart...no sells at all on TD Ameritrade total shares sold...
Historical Short Volume Data for NPWZ
Date Close High Low Volume Short Volume % of Vol Shorted
May 29 NA NA NA 2,004,152 520,000 25.95
May 25 NA NA NA 39,884,500 32,296,627 80.98
May 24 NA NA NA 3,672,500 1,242,158 33.82
May 23 NA NA NA 2,159,900 371,781 17.21
May 21 NA NA NA 7,545,195 2,118,600 28.08
May 18 NA NA NA 4,025,978 1,210,000 30.05
May 17 NA NA NA 21,360,000 5,911,103 27.67
May 16 NA NA NA 5,087,500 1,950,000 38.33
May 15 NA NA NA 1,080,006 555,000 51.39
May 14 NA NA NA 1,430,239 50,001 3.50
May 11 NA NA NA 876,219 116,219 13.26
May 10 NA NA NA 500,012 500,000 100.00
May 08 NA NA NA 3,870,560 1,600,000 41.34
May 07 NA NA NA 1,106,397 796,900 72.03
May 04 NA NA NA 2,173,043 1,231,149 56.66
May 02 NA NA NA 7,632,524 6,494,600 85.09
Is XNRGI one of the Argonne lab's unnamed few
Both Companies Enevate and Xnrgi are Gold Sponors with DOW and 123 Systems
https://www.advancedautobat.com/aabc-us/current-sponsor.html
The Battery Boost We’ve Been Waiting for Is Only a Few Years Out
Date: March 19, 2018
Source: Wall Street Journal
The batteries that power our modern world -- from phones to drones to electric cars -- will soon experience something not heard of in years: Their capacity to store electricity will jump by double-digit percentages, according to researchers, developers and manufacturers.
The next wave of batteries, long in the pipeline, is ready for commercialization.
https://www.mema.org/battery-boost-we%E2%80%99ve-been-waiting-only-few-years-out
The trick is, silicon brings with it countless technical challenges. For instance, a pure silicon anode will soak up so many lithium ions that it gets “pulverized” after a single charge, says George Crabtree, Ph.D., director of the Joint Center for Energy Storage Research, established by the U.S. Department of Energy at the University of Chicago Argonne lab to accelerate battery research.
Current battery anodes can have small amounts of silicon, boosting their performance slightly. The amount of silicon in a company’s battery is a closely held trade secret, but Dr. Crabtree estimates that in any battery, silicon is at most 10 percent of the anode. In 2015, Tesla founder Elon Musk revealed that silicon in the Panasonic-made batteries of the auto maker’s Model S helped boost the car’s range by 6 percent.
Now, some startups say they are developing production-ready batteries with anodes that are mostly silicon. Sila Nanotechnologies, Angstron Materials, Enovix and Enevate, to name a few, offer materials for so-called lithium-silicon batteries, which are being tested by the world’s largest battery manufacturers, car companies and consumer-electronics companies.
Anode is limiting the industry. XNRGI has solved that limitation using lithium metal anode.
https://archive.eetasia.com/www.eetasia.com/ART_8800683512_480100_NT_cdc559e0.HTM
We may not see 3D chip stacks for next-gen smartphones until 2015 or later. We can, however, expect new chip designs for tablets using the much simpler 2.5D stacking techniques by late next year.
The good and bad news comes as Globalfoundries Inc. announced its first functional wafers with through silicon vias (TSVs) using the 20nm process at its Fab 8 in New York. TSVs form the connections between chips in a 3D stack, and Globalfoundries hopes to be an early implementer of the technology.
A year ago, Globalfoundries announced it was installing equipment at Fab 8 worth "tens of millions" in hopes of shipping 28- and 20nm 3D chip stacks in 2014. Now, it says it only expects to use the 20nm process for 3D chips that may not ship in volume until 2015 or later.
However, the foundry does appear to be accelerating work in 65nm at its Singapore Fab 7 on 2.5D stacks that put chips side-by-side on a silicon interposer for a range of uses
XNRGI Battery Team experience in stacking design and testing for automobiles. (20nm stacking - 5 or 8 year old machines now ready for XNRGI) which other company could do Terawatt chip production for batteries...
GLOBALFOUNDRIES Demonstrates 3D TSV Capabilities on 20nm Technology
Apr 02, 2013
Fab 8 in New York delivers functional 20nm silicon with Through-Silicon-Vias (TSVs)
Milpitas, Calif., April 2, 2013 – GLOBALFOUNDRIES today announced the accomplishment of a key milestone in its strategy to enable 3D stacking of chips for next-generation mobile and consumer applications. At its Fab 8 campus in Saratoga County, N.Y., the company has demonstrated its first functional 20nm silicon wafers with integrated Through-Silicon Vias (TSVs). Manufactured using GF’s leading-edge 20nm-LPM process technology, the TSV capabilities will allow customers to stack multiple chips on top of each other, providing another avenue for delivering the demanding performance, power, and bandwidth requirements of today’s electronic devices.
TSVs are vertical vias etched in a silicon wafer that are filled with a conducting material, enabling communication between vertically stacked integrated circuits. The adoption of three-dimensional (3D) chip stacking is increasingly being viewed as an alternative to traditional technology node scaling at the transistor level. However, TSVs present a number of new challenges to semiconductor manufacturers
The good and bad news comes as Globalfoundries Inc. announced its first functional wafers with through silicon vias (TSVs) using the 20nm process at its Fab 8 in New York. TSVs form the connections between chips in a 3D stack, and Globalfoundries hopes to be an early implementer of the technology.
A year ago, Globalfoundries announced it was installing equipment at Fab 8 worth "tens of millions" in hopes of shipping 28- and 20nm 3D chip stacks in 2014. Now, it says it only expects to use the 20nm process for 3D chips that may not ship in volume until 2015 or later.
Electrochemical Testing of Silicon Wafer Anodes – Doping and Corrosion
Milestone Quarter 2 FY18 4
Materials Standardization
https://www.nrel.gov/transportation/assets/pdfs/silicon_electrolyte_interface_stabilization_q2_progress_report_fy18.pdf
Brian Cunningham, DOE-EERE-VTO Program Manager
Hybrid Electric Systems, Battery R&D
Phone: (202) 586-8055
E-mail: brian.cunningham@ee.doe.gov
Silicon Anode Consortium
NREL has joined other national laboratories in a research effort as part of the Silicon Anode Consortium, funded by the U.S. Department of Energy's Vehicle Technologies Office.
This consortium, named the Silicon Electrolyte Interface
Stabilization (SEISta) project,
The other national laboratories in the consortium include:
Argonne National Laboratory
Sandia National Laboratories
Oak Ridge National Laboratory
Lawrence Berkeley National Laboratory.
The consortium focuses on understanding and eliminating barriers to implementing silicon-based anodes in Li-ion cells. This work employs advanced characterization techniques, coupled with state-of-the-art research facilities across the national labs, and covers a broad range of research—from foundational science related to the initial chemical interactions of organic electrolytes with silicon interfaces to the development of full electrode/full cell chemistry.
Reports
Next Generation Anodes for Lithium-Ion Batteries, First Quarter Progress Report 2018
Silicon Deep Dive Program?
Brian Cunningham, DOE-EERE-VTO Technology Manager
U.S. Department of Energy, Battery R&D
Phone: (202) 287-5686
E-mail: brian.cunningham@ee.doe.gov
https://www.nrel.gov/transportation/assets/pdfs/next_generation_anodes_q1_progress_report_fy18.pdf
https://web.ornl.gov/sci/transportation/docs/Battery_mfg_brochure.pdf
new brochures...
High performance batteries are a leapfrog technology for the electrification of transportation
and storage of renewable energy. However, battery manufacturing is too expensive
and too slow. Battery manufacturing’s production yield from raw materials to finished
systems remains at a very low levels. Quality control procedures for manufacturing are very
limited compared to other industries. Improvements in energy densities and product life
through advanced manufacturing can increase the energy saving potential in the processing.
Finally, a cost effective and streamlined processing for next generation manufacturing
can further reduce the energy consumption in the process.
ORNL’s materials processing and next generation manufacturing programs funded through
the DOE Industrial and Vehicle Technologies programs and other federal and private sponsors,
will enable new manufacturing procedures and radically changed concepts to improve
battery cost structures and allow for reliable technology with long life. Cost effective and
efficient battery manufacturing enables U.S. industry to domestically produce batteries for
electrification of transportation (including light duty and heavy duty vehicles, rail, aviation),
grid applications, and other applications to reduce the U.S. dependence on foreign oil and
reduce our carbon footprint.
Accelerating Commercialization by
Collaboration through a Next Generation
Industrial Manufacturing Center
ORNL is looking to the future with plans for advanced facilities and investments in novel energy storage
manufacturing research initiatives. It is actively pursuing the construction of an advanced battery fabrication
technology development center to accelerate development, screening, and validation of future-generation
battery materials, processing technologies, and cell designs. The envisioned facility will occupy several thousand
square feet of space and consist of new state-of-the-art equipment as well as existing equipment relocated
and consolidated from other laboratories across the site. It will house a flexible coating and fabrication
line and a reconfigurable suite of modules comprising innovative processes beyond today’s state-of-the-art.
The modules will include novel deposition systems; drying and consolidation systems; winding, folding, and
stacking systems; and joining technology systems. The facility will have sufficient automation to assess and
demonstrate the potential of scaling developments to commercial volumes.
maybe a whole electric car company
http://www.marketwired.com/press-release/electric-car-company-inc-enters-into-letter-of-intent-with-neah-power-systems-inc-1336577.htm
Wonder if this is still active...
Fisker Aims To Launch EMotion With Solid-State Battery in 2020
After Fisker's battery supplier A123 Systems filed for bankruptcy after two battery recalls, Fisker Automotive could not continue making vehicles, and the company declared bankruptcy in February 2014.[4][5] Wanxiang also purchased A123 following its bankruptcy declaration.[6]Fisker becomes Karma Automotive which is about when Kruse moves...to Karma
The focus of the website changed on 5/19/ the HOD and the powerchip fuell were listed... so it it is true....
Rocinante Saturday, 05/19/18 07:18:50 PM
Re: None 0
Post #
26820
of 26864
The product line on the XNRGI website has changed.
The Powerchip Fuel cell and Formira HOD are gone.
It appears they are now focusing solely on the "Flexible Scale PowerChip Battery Platform."
Yeah right they have a drone that only work in the sunshine...LOL what is in the display in India...its not batteries...
te]Neah will also give us the ability to offer extended endurance at night, which is huge from our perspective. We look forward to integrating this technology into our UAV for a demonstrable performance advantage and the ability to serve an even wider range of markets and applications[/quote]
XNGRI in India very well have made progress with the fuel cell...and it could very well have been working with Silent Falcon...
The new battery should be much lighter more powerful and not dependant on cobalt... like you said...the panasonic battery design dates back to the 1994 jelly roll.... it would be great to have a more versatile battery chemistry with the number of batteries that are going to be need with the cars and trucks... plus they could deal with the NPWZ range extender...the fuel cell that Elon laughs about...
XNRGI has developed a lithium metal battery utilizing porous silicon as the electrode substrate and by merging the battery design with the low cost and manufacturing benefits of the silicon industry. The technology is based on the most versatile manufacturing concept that battery industry has seen in its long history and has the potential to solve numerous disadvantages of the conventional battery technology. The design is “chemistry” agnostic as it doesn’t restrict use of almost any cathode material, including the most common LCO, NMC, NCA, or LFP cathode materials. The critical feature of the proposed configuration is a three-dimensional, highly repeatable structure, with a 50X larger surface area for reaction with millions of small pores. The main expected advantages of this method include: high energy density demonstrating (> 1600 Wh/L) 405 Wh/kg 6X the energy density of a traditional Lithium Ion battery. The next generation Lithium Metal Air (4400 Wh/L), 680 Wh/kg, 10X a traditional lithium ion battery. XNRGI batteries have high currents for fast charge and discharge, long cycle life, safe, and low-cost high volume batch fabrication.