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Honestly feeling BULLISH on this one!
What say ye?!?!
Consensus here appears to be divest and run away.
I am not seeing real break down of Volkswagen the entity,
I have heard repeatedly that the time to short is over.
Thoughts/Comments/Concerns?
I would pick up 5-15% target equity at these prices. Which for the average iHub visitor means $500 to $5,000 as a starting position.
To be honest I was recommending 5% target equity position yesterday to colleagues and we are down just slightly today. No regrets given we are the "new" shareholders and not the "old" ones !
PJM good insight-One comment
I don't want to delve into numbers too much as we can discuss efficiencies further as we go on
From my understanding the new methodology for arriving at said efficiencies is to calculate the complete cradle to grave cost of the systems - Materials sourcing, manufacturing, etc.
I will post details coming up on how these more absolute efficiency figures play out in traditional electrolysis systems vs the HyperSolar PAH approach.
Great level of information in your posts as always you give us real food for thought!
The intent behind the two different approaches is one which clarifies itself in expression via analysis of real world circumstances.
Hydrogen generation faculty is now being "sold" ad hoc to enhance scalability for grid operators: As more and more solar farms come online, the natural bottlenecks of our deteriorating electrical grid are benevolently exacerbated. To "ease the pain" a grid operator will switch on an H2 Electrolysis Station to take advantage of the cheap excess electricity. As more Solar farms come online, the need for this technology [HYDROGENICS CORP, $HYGS] will continue to increase.
HYSR does not fit into this model - We are a model in and of ourselves. However, multiple energy solutions can be combined to achieve the desired effect; be it H2 or CH4 (natural gas) for industrial processes or for machinery like forklifts. H2 generation facilities can be combined with lumber yards as they turn their scrap wood and sawdust into biofuel the CO2 emissions can be captured [from any CO2 source] and reacted with abundant Hydrogen [ala HYSR] to create cheap, pipeline ready natural gas.
And what a fabulous distribution network we have for Natural Gas.
These will be the purchasers of first generation PAH Reactors while HYSR and others pursue their 2nd and 3rd [higher efficiency] systems with their final goal of generating Hydrogen at the point of distribution.
All efficiency figures will come into play, including the efficiencies of the fuel cell inside of our vehicles as time goes on.
Indeed we are lucky that our technology is a key precursor to Renewable Natural Gas production! For both Toyota with their Mirai and Audi with their NG vehicles will be our customers!
Absolutely! As our efficiencies increase and the electrical consumption of consumer electronics continues to decrease, the sky is the limit!
Window and patio mount systems will become predominant as governments embrace citizens desire to move their generation and consumption capacities off grid.
One of the leaders of this movement [and my greatest hope for licensing potential!!!] rests with Panasonic and their development of their Wonder LIFE Box product model.
My first message got deleted I had to retype from the doctors office here. Left some degree of detail out but here are the press shots!!! Great licensing potential here let's all pray the two parties can arrive at amicable terms! HYSR has eluded to Panasonic and Japan market share potential in past PR Relaaes!!
Amazing science, Derived from HYSR Tech
Read about this guys.
Amazing technology here and it's been derived from HyperSolar technology - See our scientific disclosures in the citation??? This is based on our Intellectual Property and surely will be incorporated into our systems over time. Many, many, many variables. Our systems can be custom tailored based on what type and quantity of chemicals are present in the feedstock water source being used [waste (biological/industrial), fresh, or salt water]
https://scholar.google.com/citations?view_op=view_citation&hl=en&user=iRLnWywAAAAJ&citation_for_view=iRLnWywAAAAJ:qUcmZB5y_30C
http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01833
The following link shows all recent scientific articles which cite our initial disclosure, "An autonomous photosynthetic device in which all charge carriers derive from surface plasmons."
https://scholar.google.com/scholar?hl=en&as_sdt=0,14&sciodt=0,14&as_ylo=2015&cites=1538497217233779371&scipsc=
PJM, that is a different project entirely
Almost based off of technology that HYSR has abandoned for our greener Nanotechnology approach
HYSR holds patents on concentrator technology but we have stepped into an area of our own with the PAH particalized approach.
Photoelectrochemically Active Heterostructures in patented translucent/conductive polymer coating
Allows us to put each electron to work on splitting water rather than losing electrons in wires between panels and electrolyzer. Not to mention we eliminate the manufacturing costs associated with electrolyzers and the like by utilizing our aqueous manufacturing process.
Leaps and bounds ahead of these old fashioned systems.
Don't get me wrong, everything has a purpose and the purpose of systems you have identified here is to produce H2 off of Excess solar energy which can't be fed into the grid.
HYSR aims to produce H2 with maximum efficiency - Our approach of PAH/slurry reactor is entirely different - There are no wires involved in our systems and "generating electricity" isn't our focus.
Our technology was derived for one simple purpose: to produce as much H2 as feasibly possible.
From the top down, HYSR is a unique animal for a future H2 world - Panasonic knows exactly what we are up to and has the same plans for Japan - They are converting all homes to run on H2 fuel.
Luckily HYSR tech at its first conception was designed with intent to maximize production capacity so H2 can be generated at the point of consumption.
I feel it coming! Sponsored Research Agreement=$$$$$$
In most scenarios SRA means money money money!
It all derives from the initial trade secrets and patent disclosures - Rememver:
We have:
University of California, Santa Barbara team in contract under Dr. Eric McFarland
[ http://www.mrl.ucsb.edu/people/faculty/eric-mcfarland ]
University of Iowa, Hydrosciences team in contract under Dr. Sued Mubeen
[ http://www.engineering.uiowa.edu/cbe/faculty-staff/syed-mubeen ]
Dr. Yat Li in contract bringing knowledge out of University of California, Santa Cruz
[ http://www.hypersolar.com/news_detail.php?id=70 ]
Patents + Purposes
Patent #1: Method of Manufacture for PAH Particles (Photoelectrochemically Active Heterostructures)
Patent #2: Patterned PEDOT:PSS Particle Coating (Optically Translucent, Electrically Conductive)
Patent #3: Full utility patent restricts use of our specialized Aqueous manufacturing process
10-K report mention: March 2015 Patent
In March of 2015, we jointly filed a full utility patent application with UCSB for the "method of manufacture of multi-junction artificial photosynthetic cells." The patent’s full coverage excludes others from making, using, or selling the technology process, and creates licensing opportunities. We believe licensing opportunities can be created through various industry applications, such as for car charging stations, retail distribution centers, and facilities that would benefit from cost-efficient hydrogen developed at or near the point of distribution. Examination and prosecution of this patent are ongoing.
Makes me wonder as well, anything is possible!
I agree-This achievement came quick!!!
Looks like those feisty emails we've been sending to our CEO have paid off!! Hehehee j/k of course, what really paid off was:
(1) Our Sponsored Research Agreement w/UCSB
(2) Whatever UCSB connections w/Dept of Energy landed them their shiny new JCAP labs!!
Very true-Preach!-Can't rush evolution however
We have come leaps and bounds and your perspective of share price reflecting a better product seems spot on in my opinion - Since we are R&D stage company, Share Price should reflect the momentum building behind the stock as the product is realized.
With the pursuit of perfecting the science behind our product in mind, I think the aversion behind disclosing our commercialization plan stems from (1) not wanting people to know some of the pertinent details involving our process, (2) vastly differing potential of commercial outcome (licensing, buyout, partnership). Predicting which route we will take is almost like... Well, trying to predict the stock market! ?? At the end of the day whoever has the biggest wallet will decide what happens to our little HYSR baby
Nope!!!! +50% again after slight retrace-I believe you!!!
More to come on that business plan Subs, I just bought another rental condo and got slowed down
It will be big though!
Hysr still under the radar of hedge funds I doubt EOD Run I expect profit taking to continue to the 2c mark
Mid November we should be consolidated at 2.9 cent / stable
December will be good to us!!!
February we make our next monster run
Big profit taking today!New investors:Buy Buy Buy Buy!
Research contributions from Fudan University Shanghai, presented 2/15
https://mrlweb.mrl.ucsb.edu/sites/default/files/mrl_docs/workshops/NewFrontiers2015/Photoelectrochemical%20Water%20Splitting%20G.%20Zheng.ppt
HYSR Partners=DOW Chemical,Mistubushi Chemical,FLUOR,University Queensland
https://mrlweb.mrl.ucsb.edu/sites/default/files/mrl_docs/workshops/NewFrontiers2015/What%20to%20build%20Who%20to%20build%20it%20A.%20Smith.pptx
https://mrlweb.mrl.ucsb.edu/sites/default/files/mrl_docs/workshops/NewFrontiers2015/Green%20and%20Sustainable%20Societies%20F.%20Shimizu.pptx
struk forward some details over to me!
we are making progress with all members of our group in planning for how to capitalize off of upcoming accomplishments / milestones
bhmltn7 [at] live [dot] com
To HYSR Forum Members: Thank You!
We have come a long long way on this forum in our knowledge of the company, and learning how they do what they do - as well as what makes them significant and unique as holders of intellectual property.
In our moments of thought and research, lets continue to facilitate the spirit of sharing and cooperation that flows through out this little HYSR Forum of ours.
The combining of Hydrolysis and Electrolysis seems to be a goal of HyperSolar in utilizing both electrochemical [Dr. Yat Li] and photoelectric [Dr. Syed Mubeen] systems combined to reach our product: HYSR is in the business of Photoelectrochemical [PEC] Systems
With the knowledge that is so abundant here we have all come into new opportunities. Let's work together to continue to build this cohesion and integrity!
Thanks Everyone!!!
blekko
PS? I do mean everyone even those who challenge our opinions only direct us to becoming more direct and concise with our responses!
Our next major drill down will be all about EFFICIENCY of PEC Systems and their ultimate YIELD - Target prices for the chemicals produced [Hydrogen, Natural Gas]
Keep in mind the most efficient way to use said systems is to combine them with existing factories - Places with real energy demands and especially places where you can capture CO2 onsite and use it to convert the H2 into CH4 [(Pipeline Ready) Natural Gas]
Coming we will establish some Google Docs [Word/Powerpoint] files that we can all edit and collaborate on together.
PPS: HYSR #GreenTech2015 #ClimateNeutral2030 #COP21
http://www.cop21.gouv.fr/en
I hear by December we are @5cents...
There are some big people who are picking up coverage and front loading right now before they start promoting
Happy Trading To All!
HYSR next press release always keeps me excited, I think this year by time of the Shareholder letter we will have details on commercialization, University of Queensland Australia project w/ FLUOR, DOW Chemical, Mitsubishi Chemical
Thats right....
There are big boys interested and working with HYSR
I am getting my feet back on the ground, head on straight and making progress back towards my goals again
Lots of adjustments come quickly (overnight) in life - in such a way that we never expect them.
- - -
Let us all with our spare time/energy focus and visualize the bringing in of new strength, cohesive positive energy, and constructive (heaing) forces amongst the members of our group.
Knowing in our hearts that we are protected by these forces We will see the plan work out so that the greatest good be done for the greatest number.
Good find Lothar, thx
Oxford funded their own PV company
http://www.pv-magazine.com/news/details/beitrag/oxford-pv-raises-over-us12-million-to-commercialize-perovskites_100018471/
Wondering what HYSR process efficiency is... Would be nice to know more! Come on PR machine give us the real info... I posted some figures here before found from energy.gov website about HYSR efficiency %'s, have to find the post
http://onlinelibrary.wiley.com/doi/10.1002/wene.177/abstract
Hydrogen Methanization=Pipeline Ready Natural Gas
Amazing info to come
CO2 capture/methanation=Audi business plan
They're planning Natural Gas vehicle over Hydrogen
Even though it is reduced efficiency over hydrogen it has a better distribution network? [pipeline]
Light reading.. Night Everybody
http://pubs.acs.org/doi/abs/10.1021/acssuschemeng.5b00368
Methane Conversion to Syngas for Gas-to-Liquids (GTL): Is Sustainable CO2 Reuse via Dry Methane Reforming (DMR) Cost Competitive with SMR and ATR Processes?
Synopsis
In this work, a quantitative economic comparison of five alternative processes is presented for the production of synthesis gas with a hydrogen-to-carbon monoxide ratio of 2.
Carbon dioxide is a greenhouse gas and is obtained as a waste via burning various forms of fuels. Syngas is an intermediate in large-scale long-chain hydrocarbon (C10–C20 alkanes and alcohols) production processes via Fischer–Tropsch (FT) synthesis, typically to obtain high quality fuels. Thus, it is of particular interest to engineer syngas production processes for FT that can consume various combustion process waste CO2 in the process and thus partially contribute to the sustainable carbon neutral fuel synthesis. In this work, a quantitative economic comparison of five alternative processes is presented for the production of synthesis gas with a hydrogen-to-carbon monoxide ratio of 2, which is suitable for feeding to the Fischer–Tropsch gas-to-liquid process. Combinations of steam methane reforming (SMR), dry methane reforming (DMR), autothermal reforming (ATR) and reverse water gas shift (RWGS) are explored. An amine absorber/stripper system is used for carbon dioxide removal. The effects of the cost of natural gas and of liquid oxygen and the magnitude of a potential carbon tax are demonstrated. With current prices of raw materials, the configuration with the lowest total annual cost (TAC) features a system composed of both SMR and DMR reactors.
Keywords: Syngas; Autothermal reforming; Reverse water gas shift; Partial oxidation; Steam reforming; Dry methane reforming
Truly+Greatly appreciated, holding lots amazing memories here, I've been blessed many times over to have had an amazing upbringing and have amazing people lead the way for me.. Sometimes life presents a confusing path but I am keeping faith and navigating as best possible!!
ECS Conference Overview- HYSR Syed Mubeen in "L06"
https://ecs.confex.com/ecs/228/webprogram/programs.html
Physical and Analytical Electrochemistry, Electrocatalysis, and Photoelectrochemistry
L01 Physical and Analytical Electrochemistry, Electrocatalysis, and Photoelectrochemistry General Session
L03 Electroactive and Redox Active Polymers
L04 Electrode Processes 10
L05 Nanoscale Electrochemistry
L06 Photocatalysts, Photoelectrochemical Cells, and Solar Fuels 6
L07 Physical and Analytical Electrochemistry in Ionic Liquids 4
ECS,Upcoming fuel generation presentations, Syed Mubeen goes last
https://ecs.confex.com/ecs/228/webprogram/Session14512.html
Wednesday, October 14, 2015: 18:00-20:00
West Hall 1 (Phoenix Convention Center)
Chairs:
A. Manivannan and Nianqiang (Nick) Wu
1721
Benchmarking Nanoparticulate Metal Oxides for the Alkaline Water Oxidation
S. Jung (Joint Center for Artificial Photosynthesis- Caltech), C. C. L. McCrory, J. C. Peters, and T. F. Jaramillo (Joint Center for Artificial Photosynthesis)
1722
Electrodeposited WO3 Film on Various Metal Substrates and Its Morphological Effect for Photoelectrochemical Water Splitting
S. H. Kang (Chonnam National University)
1723
Photoelectrochemical Characteristics of Pulse Electrodeposited AgIn0.5Ga0.5Se2 Thin FILMS
R. Murali (University of Madras)
1724
Photoelectrochemical Behaviour of Pulse Plated CuIn0.6Al0.4Se2 Thin FILMS
K. R. Murali (University of Madras), T. M (Shree Venkateshwara Hi-Tech Engineering College), and R. K (Vidyaa Vikas College of Engineering and Technology)
1725
Photoelectrochemical Cells Studies with Pulse Electrodeposited CuInS2 Films
K. R. Murali (University of Madras)
1726
Photoelectrochemical Studies on Brush Plated CuInSe2 Films
K. R. Murali (University of Madras) and S. Murugan (AVC College)
1727
Photoelectrochemical Cells Studies with Brush Electrodeposited AgGaSe2 Films
K. R. Murali (University of Madras), J. Ashok Kumar (National Engineering College), and S. Perumal (ST Hindu College)
1728
Preparation of Thylakoid/Polyaniline/Reduced Graphene Oxide/Glassy Carbon Integrated System and Photocurrent Enhancement
J. Lee and S. Kim (Konkuk University)
1729
Solar Fuel Generation By 1D ZnO /QDs Heterostructures
Y. He, J. Li (West Virginia University), D. Chu (U.S. Army Research Laboratory), J. Bright, and N. Wu (West Virginia University)
1730
Enhanced Production of Solar-Fuels By Plasmonic Metal/Semiconductor Photocatalyst Heterostructures
J. Bright, J. Li, S. K. Cushing (West Virginia University), D. Chu (U.S. Army Research Laboratory), and N. Wu (West Virginia University)
1731
Spray Pyrolyzed TiO2 / Sol Gel Dip Coated NiO Dye Sensitized Solar Cells
K. R. Murali (University of Madras)
1732
Sol Gel Dip Coated Yb and Tm Doped Indium Oxide Dye Sensitizrd Solar Cells
K. R. Murali (University of Madras)
1733
Preparation, Characterization and Photoelectrochemical Investigation of p-Type Nanostructured Cobalt Titanate
H. Farsi, S. Moghiminia, and H. Raissi (University of Birjand)
1734
Photoelectrochemical Treatment of Reject Brines from RO Plants
A. Rassoolkhani, K. Nguyen, A. McKee, M. Hemingway, S. Tentinger, W. Cheng, and S. Mubeen (University of Iowa)
1735
Photoelectrochemical Characterization of Spin-Coated CuBi2O4 Thin Films for Water Splitting
I. G. Rodríguez Gutiérrez, M. Flores Pinto, M. J. Rodríguez Pérez, G. Rodriguez-Gattorno, and G. Oskam (CINVESTAV-IPN)
1736
Low-Cost Synthetic Routes for Fabricating Tandem/Multi-Junction Photoelectrochemical Devices
W. Cheng (University of Iowa), A. M. Rassoolkhani (Chemical and Biochemical Engineering, University of Iowa), and S. Mubeen (University of Iowa)
https://ecs.confex.com/ecs/228/webprogram/Paper59686.html
Lothar, I remember what youre talking about
I looked last night but cant find the link to that page!?
Recently, I've been really out of it due to a consecutive loss of family members
I'll track it down in time
Good Morning HYSR holders.. Still quiet here!!!
Excited for next PR all the recent PR has been great IMHO,
1.4 volts is fantastic, new mfg process, large scale prototype coming soon let's hope it gets PR by October
Really excited for more news from the team!
BSRC long-term 10/10, short-term gains only on runs
You need to average your price lower its a tough call at this point
I would buy more or sell either way youre not wrong
Have to keep enough to make up for your losses if/when it does go on a big run so you cover every base if you are liquidating to roll into another trade
quiet before the storm!..more to come from blekko
HYSR already planning large scale "prototype" hydrogen facility
With recent expansion in O/S financing, and confirmation that Eric McFarland is still working with HYSR
Let's hope we have a University of Queensland, Australia PR next month
Exciting times more research to come!
By the way - anyone notice the unusually low volume today???
Looks the churn has bottomed out - We really are "the only people here" when it comes to this stock
It's still at the ground floor... Interesting number to see year over year will be the number of shareholders
Thoughts on Syed Mubeen's upcoming October Presentation?
https://ecs.confex.com/ecs/228/webprogram/Paper59686.html
Production of Hydrogen with Solar Energy
One of the main requirements for a future Hydrogen Economy is a clean and efficient process for producing hydrogen using renewable energy sources. Hydrogen is a promising energy carrier because of its high energy content and clean combustion. In particular, the production of hydrogen from water and solar energy, i.e., photocatalysis and photoelectrolysis are methods for both renewable and sustainable energy production. Systems based on a photocatalyst powder suspended in an aqueous solution comprise single particles, layered materials, composite particles, or particle mixtures. The oxidation and reduction reactions take place at the same surface of a single particle. In order to avoid recombination processes, co-catalysts are deposited on the surface of the photocatalyst to ensure that oxygen and hydrogen evolve at spatially separate surface sites. While water splitting can be carried out with coupled solar cells-commercial water electrolyzers, the direct photoelectrolysis with a semiconductor photoelectrode is a more elegant and cheaper approach and the direct photoelectrolysis is the Holy Grail of electrochemistry, using the power of light. Here, the photoactive semiconductor is immersed in water and the photogenerated electrons and holes are directly used to reduce and oxidize water, respectively, in a PhotoElectroChemical cell (PEC cell).
This article focuses on the materials science and engineering of photocatalysts, co-catalysts, and photoelectrodes and will illustrate that the activities in the field of solar energy conversion into hydrogen are numerous. The principle of the PEC cell will be presented along with materials requirements for application in a PEC cell. Characterizations of the physical and chemical properties of state-of-the-art and novel materials guide materials scientists to optimal photocatalysts and photoelectrodes. Engineering on an atomic scale is achieved by cation and anion doping effects, deviations from stoichiometry, and, in case of ternary and more complex materials, deviations from molecularity. Defect chemical aspects will be presented. To date, the decreasing length scale to the nanoscale of the functional materials for photocatalytical and photoelectrochemical applications attracts widespread attention. Besides water, also aqueous solutions of hydrobromic acid and hydrogen sulfide have been explored for hydrogen production using solar radiation. The large-scale conversion of hydrogen sulfide from the Black Sea would be beneficial from an environmental and energy point of view.
http://onlinelibrary.wiley.com/resolve/doi?DOI=10.1002%2F9781118991978.hces006
Syngas and Synfuels from H2O and CO2: Current Status
Hydrogen and synthesis gas (syngas) production from water and carbon dioxide as well as fuel processing for fuel cells and for transport applications have great potential in addressing major challenges in the area of energy. This review highlights recent progress and future trends on energy storage via carbon-neutral fuels made from water, carbon dioxide and renewable energies. The various electrochemical, thermochemical and photochemical energy conversion technologies for dissociation of H2O or/and CO2 are reviewed and discussed systematically.
http://onlinelibrary.wiley.com/resolve/doi?DOI=10.1002%2Fcite.201400090