Register for free to join our community of investors and share your ideas. You will also get access to streaming quotes, interactive charts, trades, portfolio, live options flow and more tools.
Register for free to join our community of investors and share your ideas. You will also get access to streaming quotes, interactive charts, trades, portfolio, live options flow and more tools.
MRS2015-Symposium G:Next Generation ElectrochemicalEnergy Synthesis,Processing,Manufacturing
2015 MRS Spring Meeting & Exhibit
April 6-10, 2015
San Francisco, California
Meeting Chairs: Artur Braun, Hongyou Fan, Ken Haenen, Lia Stanciu, Jeremy A. Theil
Rapidly rising energy consumption and increasing public environmental concern have spurred the need for improved energy storage and conversion technologies. Energy storage and conversion technologies can help reduce dependence on imported fossil fuels and greenhouse gas emissions, and enable more sustainable resource choices. Nevertheless, current energy storage and conversion technologies are facing several challenging scientific and technical barriers such as energy density, safety, stability and environmental impact.
In this symposium, we will explore emerging concepts and ideas for next generation energy storage and conversion systems in the following four areas: 1) New energy materials, 2) New in-situ/operando techniques for studying dynamic processes once inaccessible during operation of energy storage and conversion devices, 3) New device architectures for energy storage and conversion to impart novel functionality or performance, 4) New sustainable and scalable manufacturing methods for electrochemical energy storage and conversion devices.
Novel materials and architectures for energy storage and conversion devices are essential to advance the field, tackle the energy hurdles, and meet the demands of shrinking and flexible devices. Moreover, rapid advances in in-situ/operando techniques have enabled observation and discovery of dynamic processes to improve our fundamental understanding of material behavior and degradation in energy storage and conversion devices. Finally, application of sustainability to the development of novel battery systems will become increasingly important to maintain environmental goals and societal aspirations. This symposium will explore the frontiers of these topics in order to stimulate discussion on the future of electrochemical energy storage and conversion systems.
Topics will include:
New materials (cathode, electrolyte and separator) for energy storage beyond Li-ion (Na-ion, Mg-ion, metal-air, and Li-S) and other types of emerging electrochemical energy storage systems
New in-situ/operando techniques for studying processes in energy storage and conversion
Novel energy storage and conversion device architectures (flexible, 3D structures)
Sustainable synthesis and scalable manufacturing methods for nanomaterials in energy storage and conversion
Invited speakers include:
Mahalingam Balasubramanian (Argonne National Lab, USA), Erik Berg (Paul Scherrer Inst., Switzerland), Paul Braun (Univ. of Illinois at Urbana-Champaign, USA), Peter Bruce (Univ. of St. Andrews, United Kingdom), Raymond (Lei) Cao (Ohio State Univ., USA), Jang Wook Choi (Korea Advanced Inst. of Science and Technology, Republic of Korea), Bruce Dunn (Univ. of California, Los Angeles, USA), Liangbing Hu (Univ. of Maryland, USA), Yat Li (Univ. of California, Santa Cruz, USA), Jun Liu (Pacific Northwest National Lab, USA), Shirley Meng (Univ. of California, San Diego, USA), Linda Nazar (Univ. of Waterloo, Canada), Danial Nocera (Harvard Univ., USA), Cengiz Ozkan (University of California, Riverside, USA), Tijana Rajh (Argonne National Lab, USA), Robert Schlogl (Fritz Haber Inst. of the Max Planck Society, Germany), Keith Stevenson (Univ. of Texas at Austin, USA), Peter Strasser (TU Berlin, Germany), Claire Villevieille (Paul Scherrer Inst., Switzerland), Jie Xiao (Pacific Northwest National Lab, USA).
Symposium YY:Titanium Dioxide—Fundamentals and Applications. PRECURSOR-[2013]
http://www.mrs.org/s13-cfp-yy/
Titanium Dioxide—Fundamentals and Applications
In addressing the global challenge of sustainable energy supply, innovative materials are essential enablers. Titanium oxide (TiO2), as a low-cost material, has found multifunctional properties which underpin many important energy-conversion applications, including photocatalytic environmental remediation, water splitting for hydrogen fuel, CO2 reduction, self-cleaning coatings, electrochromic devices and sensors, and low-cost solar cells. In the meantime, fundamental understanding and innovative design of TiO2-based materials are of particular importance in further improving the energy conversion efficiency of TiO2 by using our abundant solar energy. This symposium aims to bring together scientists across various disciplines in TiO2-related study to discuss and highlight the latest advances in the synthesis, structural and bandgap engineering, surface modifications, simulations, reaction mechanisms, and application of TiO2-based nanomaterials.
Session topics will include
TiO2 nanomaterials: controllable synthesis and characterization
Fundamental mechanism understanding: charge transfer and recombination
Fundamental properties investigation: theoretical and computational investigation
Bandgap engineering of TiO2: optical, electronic, and catalytic modifications
TiO2-based nanocomposite and heterogeneous structures
Third-generation solar cells
Sensors and detectors
Photocatalytic fuel (hydrogen) generation
Photocatalytic CO2 reduction and selective photo-oxidations for organic synthesis
Electrochromic devices, batteries, and supercapacitors
Superhydrophilic, amphiphilic, and antifogging surfaces
Environmental photocatalysis: water purifications
Indoor and outdoor air-pollution control
Invited Speakers Include:
Rose Amal (Univ. of New South Wales, Australia), Hironori Arakawa (Tokyo Univ. of Science, Japan), Thomas Bein (Ludwig-Maximilians-Univ. München, Germany), Peter Bruce (Univ. of St Andrews, United Kingdom), Rachel Caruso (Univ. of Melbourne, Australia), Xiaobo Chen (Univ. of Missouri-Kansas City), Huiming Cheng (Chinese Academy of Sciences, China), Wonyong Choi (Pohang Univ. of Science and Technology, Korea), Hongjin Fan (Nanyang Technological Univ.), Yat Li (Univ. of California, Santa Cruz), Hong Liu (Shandong Univ., China), Max Lu (Univ. of Queensland, Australia), Frank Osterloh (Univ. of California, Davis), Sean Smith (Oak Ridge National Lab), Christopher Summers (Georgia Inst. of Technology), Alberto Vomiero (National Inst. for Physics of Matter, Italy), Peng Wang (Chinese Academy of Sciences, China), Xudong Wang (Univ. of Wisconsin-Madison), John Yates Jr (Univ. of Virginia), Jinhua Ye (National Inst. for Materials Science, Japan), Huijun Zhao (Griffith Univ., Australia).
MRS-Symposium UU: Titanium Oxides:From Fundamental Understanding to Applications
http://www.mrs.org/spring-2015-call-for-papers-uu/
Logo 150x132
2015 MRS Spring Meeting & Exhibit
April 6-10, 2015
San Francisco, California
Meeting Chairs: Artur Braun, Hongyou Fan, Ken Haenen, Lia Stanciu, Jeremy A. Theil
Titanium oxide (TiO2) is one of most important semiconductor materials which not only is cheap, stable, but more importantly can offer a wide spectrum of functionalities which underpin many important applications including photocatalytic solar fuel generation and environmental remediation; new generation solar cells; self-cleaning coatings; electrochemical energy storage; biomedical and electrochromic devices and sensors; etc. Despite of the intensive research and development efforts in the past decades, fundamental understanding and innovative design of TiO2 based materials remain highly sought-after research topics, particularly in renewable energy conversion and storage sectors. This symposium aims to provide an excellent platform for top researchers across various disciplines in TiO2-related fields to share and exchanges their latest advances in the synthesis, structural and facet controls, simulations, electronic structure engineering, surface modifications, reaction mechanisms, and various applications of TiO2 nanomaterials.
Topics will include:
TiO2 nanomaterials: controllable synthesis and characterization
Fundamental properties investigation: theoretical and computational study
TiO2 based nanocomposite and their applications
Band-gap engineering of TiO2: optical, electronic, and catalytic modifications
Photocatalysis: solar fuel generation, CO2 reduction, photo-oxidations, self-cleaning coatings
Photocatalysis reaction mechanism understanding: charge transfer and recombination
Solar cells: Electrodes for third generation solar cells including perovskite based solar cells
Sensors and detectors, biomedical applications
Electrodes for energy storage systems
Invited speakers include:
Thomas Bein (Ludwig-Maximilians-Universität München, Germany), Guozhong Cao (Washington Univ., USA), Xiaobo Chen (Univ. of Missouri-Kansas City, USA), Huiming Cheng (Chinese Academy of Sciences, China), Ulrike Diebold (Vienna Univ. of Technology, Austria), Cristiana Di Valentin, (Univ. degli Studi Milano-Bicocca, Italy), Zdenek Dohnalek (Pacific Northwest National Lab, USA), Pingyun Feng (Univ. of California, Riverside, USA), Seong-Ju Hwang, (Ewha Womens Univ., Republic of Korea), Yat Li (Univ. of California, USA), Zhiqun Lin (Georgia Inst. of Technology, USA), Limin Qi (Peking Univ., China), Takayoshi Sasaki (National Inst. for Materials Sciences, Japan), Henry J. Snaith (Oxford Univ., United Kingdom), Bao-Lian Su (Univ. of Namur, Belgium), Hiroak Tada (Kinki Univ., Japan), Lionel Vayssieres (Xi’an Jiaotong Univ., China), Andrea Vittadini (Univ. of Padova, Italy), Alberto Vomiero (National Inst. for Physics of Matter, Italy), John Yates Jr. (Univ. of Virginia, USA), Francisco Zaera (Univ. of California, Riverside, USA), Jin Z. Zhang (Univ. of California, Santa Cruz, USA), Huijun Zhao (Griffith Univ., Australia).
MaterialsResearchSociety: Symposium J: Latest Advances in Water Splitting
http://www.mrs.org/spring2015/
2015 MRS Spring Meeting & Exhibit
April 6-10, 2015
San Francisco, California
Meeting Chairs: Artur Braun, Hongyou Fan, Ken Haenen, Lia Stanciu, Jeremy A. Theil
im buying a bank, islands, and H2Generators
Plus maybe starting my own brand of Automobile Manufacture
Well to be honest I ALWAYS wanted to buy out LINCOLN from FORD
MAYBE NOw IS THE TIME!. All in one WOP !! Buy 26% of Ford Corporation w/HYSR Proceeds
400 Acre[Australia]Plan w/FLUOR, SHELL, MitsubishiChemical, DOW
Includes University of California on a broad scale, University of Queensland [Australia], Fudan University [Shanghai]
FLUOR, DOW Chemical, Mitsubishi Chemical, etc
[img]http://i.imgur.com/5DwKFtJ.jpg[/
UCSB+Mitsubishi
DOW
SHELL
BuyBuyBuyBuyBuy $$$$$$$!!!!!!!! $HYSR to The Cayman Islands
I'm going to be buying my own PLANET much less ISLAND they way HYSR is RUNNING!!!!!!
Ok[/b..$$$ ...See you at $5.00
http://m.phys.org/news/2013-10-device-self-biased-solar-hydrogen-microbial.html
New device achieves self-biased solar hydrogen generation through microbial electrohydrogenesis at lab scale
Oct 10, 2013
A novel device that uses only sunlight and wastewater to produce hydrogen gas could provide a sustainable energy source while improving the efficiency of wastewater treatment. A research team led by Yat Li, associate professor of chemistry at the University of California, Santa Cruz, developed the solar-microbial device and reported their results in a paper published in the American Chemical Society journal ACS Nano. The hybrid device combines a microbial fuel cell (MFC) and a type of solar cell called a photoelectrochemical cell (PEC). In the MFC component, bacteria degrade organic matter in the wastewater, generating electricity in the process. The biologically generated electricity is delivered to the PEC component to assist the solar-powered splitting of water (electrolysis) that generates hydrogen and oxygen.
Either a PEC or MFC device can be used alone to produce hydrogen gas. Both, however, require a small additional voltage (an "external bias") to overcome the thermodynamic energy barrier for proton reduction into hydrogen gas. The need to incorporate an additional electric power element adds significantly to the cost and complication of these types of energy conversion devices, especially at large scales. In comparison, Li's hybrid solar-microbial device is self-driven and self-sustained, because the combined energy from the organic matter (harvested by the MFC) and sunlight (captured by the PEC) is sufficient to drive electrolysis of water.
In effect, the MFC component can be regarded as a self-sustained "bio-battery" that provides extra voltage and energy to the PEC for hydrogen gas generation. "The only energy sources are wastewater and sunlight," Li said. "The successful demonstration of such a self-biased, sustainable microbial device for hydrogen generation could provide a new solution that can simultaneously address the need for wastewater treatment and the increasing demand for clean energy."
Microbial fuel cells rely on unusual bacteria, known as electrogenic bacteria, that are able to generate electricity by transferring metabolically-generated electrons across their cell membranes to an external electrode. Li's group collaborated with researchers at Lawrence Livermore National Laboratory (LLNL) who have been studying electrogenic bacteria and working to enhance MFC performance. Initial "proof-of-concept" tests of the solar-microbial (PEC-MFC) device used a well-studied strain of electrogenic bacteria grown in the lab on artificial growth medium. Subsequent tests used untreated municipal wastewater from the Livermore Water Reclamation Plant. The wastewater contained both rich organic nutrients and a diverse mix of microbes that feed on those nutrients, including naturally occurring strains of electrogenic bacteria.
When fed with wastewater and illuminated in a solar simulator, the PEC-MFC device showed continuous production of hydrogen gas at an average rate of 0.05 m3/day, according to LLNL researcher and coauthor Fang Qian. At the same time, the turbid black wastewater became clearer. The soluble chemical oxygen demand—a measure of the amount of organic compounds in water, widely used as a water quality test—declined by 67 percent over 48 hours.
The researchers also noted that hydrogen generation declined over time as the bacteria used up the organic matter in the wastewater. Replenishment of the wastewater in each feeding cycle led to complete restoration of electric current generation and hydrogen gas production.
Qian said the researchers are optimistic about the commercial potential for their invention. Currently they are planning to scale up the small laboratory device to make a larger 40-liter prototype continuously fed with municipal wastewater. If results from the 40-liter prototype are promising, they will test the device on site at the wastewater treatment plant.
"The MFC will be integrated with the existing pipelines of the plant for continuous wastewater feeding, and the PEC will be set up outdoors to receive natural solar illumination," Qian said.
"Fortunately, the Golden State is blessed with abundant sunlight that can be used for the field test," Li added.
MONEY.CNN.COM likes HYSR PR's ["pennystock"...lol!!$$$!!!!
http://money.cnn.com/news/newsfeeds/articles/marketwire/11G036768-001.htm
MARCH 31st Dr Yat Li joins HYSR at Scientific Advisor [CalTech,FudanShanghai]
http://www.marketwired.com/press-release/hypersolar-appoints-dr-yat-li-as-scientific-advisor-otcqb-hysr-2005103.htm
HyperSolar Appoints Dr. Yat Li as Scientific Advisor
University of California, Santa Cruz Professor Brings Extensive Hydrogen Fuel Production Experience
SANTA BARBARA, CA--(Marketwired - March 31, 2015) - HyperSolar, Inc. (OTCQB: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and any source of water, announced today that it has appointed Dr. Yat Li, an Associate Professor of Chemistry with University of California, Santa Cruz (UCSC), as Scientific Advisor to the Company.
As Associate Professor of Chemistry, Dr. Li plays a prominent role in the physical and biological sciences division within the Chemistry and Biochemistry Department. He received his Bachelor's of Science degree and PhD from the University of Hong Kong, and completed his Postdoctoral Fellowship at Harvard University. In 2009, he received the National Science Foundation Career Award.
Dr. Li has significant experience in exploring and developing hydrogen fuel producing technologies. In 2009, Dr. Li and other researches from UCSC began developing a concept that created hydrogen fuel by exposing treated wastewater to sunlight. In collaboration with colleagues, Dr. Li has published numerous papers on the subject, including "Solar-driven microbial photoelectrochemical cells with a nanowire photocathode", and "Self-Biased Solar-Microbial Device for Sustainable Hydrogen Generation".
"We are excited to welcome Dr. Li to our team, and expect him to have an immediate impact in strengthening our research and development activities," said Tim Young, CEO of HyperSolar. "His experience in developing a hydrogen fuel producing model using only sunlight and wastewater draws many parallels to what we are seeking to do at HyperSolar. We are confident that his addition will positively complement our activities at UCSB and University of Iowa, and bring us one step closer to reaching our goals."
HyperSolar's technology is based on the concept of developing a low-cost, submersible hydrogen production particle that can split water molecules using sunlight without any other external systems or resources -- acting as artificial photosynthesis. A video of an early proof-of-concept prototype can be viewed at http://hypersolar.com/application.php.
About HyperSolar, Inc.
HyperSolar is developing a breakthrough, low cost technology to make renewable hydrogen using sunlight and any source of water, including seawater and wastewater. Unlike hydrocarbon fuels, such as oil, coal and natural gas, where carbon dioxide and other contaminants are released into the atmosphere when used, hydrogen fuel usage produces pure water as the only byproduct. By optimizing the science of water electrolysis at the nano-level, our low cost nanoparticles mimic photosynthesis to efficiently use sunlight to separate hydrogen from water, to produce environmentally friendly renewable hydrogen. Using our low cost method to produce renewable hydrogen, we intend to enable a world of distributed hydrogen production for renewable electricity and hydrogen fuel cell vehicles. To learn more about HyperSolar, please visit our website at www.hypersolar.com.
Safe Harbor Statement
Matters discussed in this press release contain forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995. When used in this press release, the words "anticipate," "believe," "estimate," "may," "intend," "expect" and similar expressions identify such forward-looking statements. Actual results, performance or achievements could differ materially from those contemplated, expressed or implied by the forward-looking statements contained herein, and while expected, there is no guarantee that we will attain the aforementioned anticipated developmental milestones. These forward-looking statements are based largely on the expectations of the Company and are subject to a number of risks and uncertainties. These include, but are not limited to, risks and uncertainties associated with: the impact of economic, competitive and other factors affecting the Company and its operations, markets, product, and distributor performance, the impact on the national and local economies resulting from terrorist actions, and U.S. actions subsequently; and other factors detailed in reports filed by the Company.
Trash fuels H2Generator Vessels GARBAGE=WasteWater=FUEL
thanks to advanced cells and magnification / uv filtering technology of HyperSolar
We are soon going to be planning big things!
I personally think Tim gave a little too much info in this piece - from 2012 - just because it was an in person interview
Anyway - Dr Yat Li is from fellowship at Fudan University Shanghai China
FEBRUARY 2nd to be exact... Oh and this is just before Dr Yat Li was appointed HyperSolar's Chief
https://mrlweb.mrl.ucsb.edu/sites/default/files/mrl_docs/workshops/NewFrontiers2015/Photoelectrochemical%20Water%20Splitting%20G.%20Zheng.ppt
I'll just leave this presentation here from FUDAN University that they made recently at UCSB
HOPE the DEFECEIT expands Thats R&D Financing
Hitting.vs.stabalizing; Intellectual Property of HYSR,vsUCSBvsContributaryParties
Let me write a thesis on this for you
Hitting isn't Stabalizing and even when it is
It depends on which model of the Generator they're using
One proprietary to HYSR tech,
Or one with contributory things
From UCSB, or from other labs such as Fudan and Queensland
Unofficially, 1.8v+, optimizing/stabilizing now, Graphine Chemical Capacitor
H2O reduction yields Hydrogen, Natural Gas=CH4
You combine Hydrogen after splitting with Carbon Dioxide and you have Natural Gas
It is just a part of the process like baking a cake =)
You first mix this then fluff that for the frosting etc
Hydrogen right now is made from reformed natural gas (CH4) in applications where hydrogen is required instead of CH4
Reduction of Natural Gas into Hydrogen is what is called "brown" hydrogen as it requires coal or other fuel use combined with a steam cracker to split the carbon from the Hydrogen bonds
Green hydrogen could be made from reduction as well if the steam crackers were powered by a renewable source..... But extracting CH4 from Shale is dangerous and bad for our planet
Reducting it by use of Green energy would seem pointless unless you perhaps had such efficient solar panels it was somehow cheaper than HYSR Nanoparticle Approach
The breakthru of HYSR is not only going to be economically speaking, but also in the fact that Hydrogen Production can now be Localized -- as Hydrogen is very heavy to transport
Ultimately even though it is heavy to transport it is clean and green and "burning" it is only creating H2O not CO2
Hydrogen production will most likely come to market initially from reformed natural gas.
Renewable hydrogen is still a ways away, but Solar power in general seems to be taking off in the US, as costs come down.
So far it remains a very small portion of our grid mix.
Until HyperSolar can bring the costs of hydrogen down below reformed nat gas, although GREEN, they won't be cost effective.
Initial success will come because of their breakthrough in localization, as well, eliminating the cost of delivery (hydrogen is expen$ive to transport).
Natural Gas is Hyrogen reacted with Carbon Dioxide
Natural Gas = Hydrogen + 2x Carbon
Today Hydrogen is generated by REFORMED Natural Gas, meaning
Hydrogen is Nat Gas stripped of its Carbon - Pure Hydrogen is the end goal.
Natural Gas is the intermediary fuel we use today because it is "Natural"
Hydrogen burns without color or odor, which is different, but also without pollution as H2O (water) is the byproduct.
Natural Gas has a billion existing applications and infrastructure around it, so currently the conversion of Hydrogen into Nat Gas is important as well.
That's why Tim was indicating that people will still convert Hydrogen into Natural Gas
However, they can do it with Clean Green Hydrogen, instead of fracking
See Jose!!! No avoiding questions on my behalf and never wish to do so
I am so glad you are around man you build my knowledge on this stuff with all your posts and encouraged me to learn thru out this process of making my investment decision... Now I have this big bank of information up in my head =) things I never knew before!
Here's an old diagram showing adoption timeline as a transportation fuel; without HYSR in the picture =)
HYSR will knock many years off the projection!
Sold @current PPS! Makes my day =)
Like you know I am going biiiiiigggg on this one so I love the consolidation going on here!
Time for a Rally!
very positive, references patented confidential Intellectual property!
The writer wanted to remain unbiased and got the opinions of scholars on the proported claims of HYSR
Few years later and HYSR is just ironing out the kinks and perfecting the process,
Increasing voltages and adding scientific staff to their team!
As well as gaining the support of University of Iowa, and Dr. Yat Li, of former fellowship from FUDAN University Shanghai,
Who was also in attendance to the UCSB/MRL conference with other representatives from Fudan University
Who provided is this beautiful little peresntation (coming in attachments, 5 min delay)
NBC/DiscoveryChannel 2012 coverage -- Our Meager Beginning =)
http://www.nbcnews.com/id/45686852/
At Boston College, assistant professor of chemistry Dunwai Wang is researching materials that can be used for solar energy harvesting, conversion and storage. Although the details of HyperSolar's process haven’t been made public, Wang looked at the company’s general proposal.
"The idea here is that if you can use solar light as the only energy input to produce methane, then it's considered clean. You don't generate waste," he said. Wang added that many research groups are trying to use sunlight for methane production, not just HyperSolar, but they have yet to demonstrate an efficient process to scale.
"If they can actually produce methane specifically with high efficiency and high yield, where solar energy is the only energy input, then that's really the home run," he said.
Hey they're admitting microwaves cause cancer now
The next generation will be plagued with countless issues to be honest
But cellular radiation is a form of microwave radiation
No nutrients in food plus excessive exposure to microwave radiation in its various forms spells trouble
Especially with global warming etc
On topic of HYSR we should have good value in the patented PEDOT:PSS polymer we developed
If ultimately we do fail in being commericaly viable in the marketplace,
Which I doubt, with this flurry of research and international collaboration (Fudan University, Shanghai)
I think more or less HyperSolar is on the right track
GLTA
Meh I got tired that stuff long ago =)
Now I am just hunting for breakthru sciences and new industry wherever it may be!
We are a class of what you call "gamblers" lol
But look how toxic that Apple stock is under 6b outstanding shares and such.
I moved into HYSR because of fear for 2015/16 stock market turbulence due to War and international tensions..
And I felt all the big name stocks are in artificial bubbles like our Dearly beloved housing market
iWatch will give everyone Cancer
Why on earth put radiation output from wireless transmitters right on your wrist? By a major artery
I don't even like using my iPhone for streaming or heavy Internet even
When we are old everyone has Cancer they will be saying in nursing homes "yeah but thse days everything gives you Cancer!!"
I'll be on a yacht
Haha..Eric McFarland, Yat Li, Nadir Dagli, UCSB, UI
PEDOT:PSS patent, spectral analysis and improvements in technology, "hydrogen highway", TOYOTA Mirai,
That's what I would promote!!
My CFA buddy likes HyperSolar but his firm (and all major firms) won't let them buy until PPS is R/S over $1.00
These are the real investors , and we are counting them out by keeping ourselves down here!
And I would promote our deficit and how it's nothig compared to our profits =)
And I'd promote the large amount of long term shareholders we have assembled here on the forum!
About 20% of HYSR is owned by verifiable long-term holders,
Once we lock in another 10-15% as long hold's we are set to skyrocket $0.25 range+++ without a R/S!?
2.25¢/share and 2.4¢/share is way above the 1.4¢ we traded at in October!
Financial Advisors can't recommend stocks under $1.00
That means we need R/S asap in my opinion!!!
I talked to a friend who is a Cerftified Financial Advisor (CFA) and he said "man, I can't even touch that! They don't let us recommend stocks under a dollar, or invest in them ourselves [in our own accounts]"
I've forseen H2Generator at 1.8v, 2.5v even
I like their wording in there !!!!
I just wish we had a marketing campaign to take the stock value up while we are doing all this work researching!!!!
Then we can get paid for all this work we've been putting in!
March2014 we were on the rage!!Everybody holding still.
That means they've been accumulating but we all paid a price to discover this stock to those who first informed us.
As I said before really excited for a PR on voltage out of IOWA!!
I imagine they don't want to PR until they have perfected the improvements and discoveries they've made
I was reading before how labs are just days apart in these discoveries across the world it's very competitive !
We have added Wei Cheng and Yat Li , and Syed Mubeen has moved to the University of Iowa team
Sgt: Apple,Inc: 12.6B AuthShares//5.82B Outstanding::: GARBAGE??¿¡TOXIC!?
Sgt: General Electric: 13.2B AuthShares//10B Outstanding::: GARBAGE???TOXIC!!!????
Lol u make my mornings enjoyable bro I love you
600,000 shares just snapped up -7.4% discount
And now let's resume normal trading folks!!!!!
1.5volt milestone any day then we SOAR!!!! #HolyGrail
There is a group of people of Russian descent who are seeking to manipulate HYSR down to prevent our uplisting to NASDAQ
Via wash trades, the churn, FUD's, Boxing, etc.,
Won't be long folks and we will have LIFTOFF as we get back to our $0.15 territory!!!!
They would to shake down HyperSolar investors in the street if they could get away with it!
Just so they can consolidate as much ownership as possible before uplisting..
After we hit NASDAQ no more cross trading!! Thus the importance in knowing what's going on here =)
Have no fear my brothers let's hope PR comes Tuesday!!!!!
Let's remember Dr Yat Li and all the people working at University of Iowa
And not forget UCSB is already working on commercializing and manufacturing!!!
As far as I know HyperSolar H2 Generator Panels and Vessels, instead of having wires for electricity out, will have Hydogen out and Oxygen out -- As well as have a Water (H2O) inlet for the panels and vessels to receive their water supply.
Conventional solar sends the power from the panel to electrolyzers over wires and vast amounts of power are lost.in the wiring.
HyperSolar panels and vessels are filled with water inside - eliminating the electron loss of hundreds of feet of wiring, and delivering electrons directly to the hydrogen bonds.
#HolyGrail
#Crown
Someone wants HYSR to bleed!! #Rollercoaster
Awesome work Jose on the DD
Eric McFarland, Dr. Yat Li, @celebratory dinner
No PR tonight they had too much wine =)
Celebratory dinner for discovering holy grail of HYDROSCIENCES
I'll be up til PR release time (1am/2am)
Let's hope University of IOWA comes thru with a nice voltage update!!!!!
Jose - We need to confirm HyperSolar panels are built with water inlet / hydrogen out attachments this will clarify much from a technological logistics standpoint
Loving the +10% we picked up today!!!!!!!!
To da moon!!!! Go HYSR!!!
Lots of new+interesting info yesterday good work!!!!!!
I've been busy but I meant to post research by Dr Yat Li
Let's go HyperSolar! PR from University of Iowa????
Pattern shows 10 day double is normal
For both SLTD and HYSR then it turns back incrementally
We are on top of giants right now