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Statement of beneficial ownership, from a patent holder
http://ih.advfn.com/p.php?pid=nmona&article=66562826
Looks like the agreement represents strong share prices
Indicstes possibilities here to pop out of the current trading range
Wish I didn't have these bills to pay! I want more of my shares back... Nothing wrong with buying more before PR release ^_^
Havnt seen you active much here lately
Sleeping giant or evaporating share structure?
Unlike other UCSB companies, this one has their product ready and in production.
That's good news! Others are expanding off Merger/Acquisition strategy but not yet off their own products
We have one product to market and thin film is supposed to take off soon
Defeceit funded Development of HYSR's H2Generator System
Without that we would have had to divest and sell the remainder of our patent rights to UCSB
As of now we are sponsored by UCSB to December 2015
Our last year of sponsorship in R&D ended Dec. 2014 and faced annual Renewal
Additionally we have DEFECEIT because University of Iowa, HYDROSCIENCES & Engineering is not sponsoring our R&D - that one comes out of pocket to some extent
Syed Mubeen Hussaini is employed by UI to work in the dept there for HYSR
Formerly he was in Santa Barbara CA at UCSB working in the lab for HYSR
He is still listed on UCSB faculty pages however so he may be jointly employed
UCSB R&D is via Sponsorship, University Iowa is from Financing
To be honest we are looking at 100% gain coming up just like SLTD did over a couple days last January
Read about Hanergy-Thin Film Solar, taking years to scale up
http://m.barrons.com/articles/BL-AFUNDSB-205
http://www.bloomberg.com/news/articles/2015-03-25/hanergy-s-billionaire-chairman-denies-manipulating-shares
People just don't understand logistics behind this tech... Mfg process isn't like pressing a button or flipping a switch!
BSRC board has no posts since December!! I'm gonna move in and get a moderator position =)
They have patent processes for mfg thin film solar just like Hanergy
SLTD October-January 600% HYSR Next
We are in the right stock......... I just opened those other couple positions so I could still feel like I'm trading =)
And hell, they're all UCSB companies anyway what a life!!!!! Diversified my portfolio that was 80% comprised HYSR to 75% HYSR and remaining 15% in other UCSB companies
Let's get BSRC DD going! It's sitting 50% down over 3 months and appears to be at the end of a long downward spiral
BSRC 70% down since Sept news of International Joint UCSB Patent??
Never know BSRC might be mfg for SLTD and HYSR with CABN as their Graphene supplier
BSRC=Thin Film Solar Technologies Patent Holder
Here's a link to the details!
https://www.google.com/patents/US20070295394
Perfect! I saw your posts before making my decision, just like the prospect considering the expanded growth potential
I'll be keeping up on SLTD and the lot quite extensively
Hope we have a chance to work together on research
UCSB Commercialization plans & outline?
Bought 3,000@2.65 I'm a HYSR guy like Jose =)
Opened up BSRC and CABN today as well as IFCR
Working towards some upcoming revenue potential on my personal affairs - Would love to have a boat load of these !!!
In my interpretation we are more considerably "ground floor" on warrant pricing because we avoid manipulation present in common stock.
Loving that the warrants have 2020 expiration... They can't short SLTD forever!!
Alex - Do you think there is potentially less volatility here with warrants? I'd imagine so - once the trading floor opens up I could see these theoretically trading higher than the common stock in some strange conceptual parallel universe O_o
Opened 3 Positions; Long HYSR 6,505,885 Shares
3,000 SLTWW @ 2.65 - $7,950
452,000 CABN @ 0.01076 - $4,867.10
79,960 BSRC @ 0.0749 - $5,996.95
And a Gamble
1,000,000 IFCR @ $0.0027 - $2,707.95
I wanted to get back into SLTD and decided to do warrants (SLTWW) like you Jose,
Hope I don't miss the price action on the common stock!!!
Also just learned BSRC the other day so I jumped in without DD - Other than fact they're GRT, Inc (UCSB) patent holders.
CABN I have been wanting back in for some time just waited for the PPS consolidation
GLTA I won't be selling any more HYSR - I sold at the Bid today because I need my cash by Monday ?
How is everyone doing who's alive out here tonight??
Haha oh boy... you didn't know you were mod!!! Your name just disappeared there past 48 hrs as far as I know!
Man I am praying we get action out of all these UCSB companies soon... We deserve it to be honest!!!! Schris has his priorities right he must be staying in the pocket on his trades! Makes me cry to see all that SLTD not in my acct Schris!!!!!
Beautiful #'s! I'm all in HYSR at the moment but planning to get some CABN and BSRC today, undecided how much have to see how HYSR stands today I am cashing out a few to pay bills =)
currently 7,784,430
Notice-Selling 200k maybe 300k tomorrow-#Bills2Pay
I have to sell a couple shares to pay some bills
Was holding for a better April price but didn't see it come
I plan to buy back asap - Being as scared of Nasdaq stocks as I am at the moment, HYSR is my #1 asset in my limited portfolio
Hope I don't miss buying back... But got a couple bills I need to pay like yesterday
Best luck to all of us as we wait for the big green!!
Going to keep some cash for advertising budget too so hold on tight!
CO2 Feedstock Depletion Result From Coal Divesting?
What are their perspective routes for CO2 Feedstock?
Curious, appx how many shares?(HYSR Mod here)
Cid, you're breakin my heart man
Saw u left as HYSR Moderator???
I didn't even know BSRC existed until today, and I am already ready to buy shares just because its a UCSB affiliate...
Anywho, I hope you can hop back in HYSR before it makes a big move... I liked chatting with you and hope you make a profit on these bad boys!
Personally I feel we are set for a monster move by Q3 2015.. If not by July, absolutely by August
Just learned about this company!(Current HYSR Mod)
I am excited to read this page because I see that we have relations with UCSB's GRT, Inc.
Beginnkng my DD tonight !
HYSR Shareholders: A Call For Unified Effort
I would like us to unify on the front of advancing the marketing efforts of this company.
The present budget does not allow them to market their securities to perspective shareholders.
Any thoughts from good willing members who who would like to organize online marketing on their (our) behalf?
Bhmltn7 at live.com
I am assembling a compny of my own brand, Consiglieri Financial
We could perhaps consolidate marketing efforts under my brand and sign:
Jose, Feb-18th was a Wednesday PR... Maybe Tomorrow???
March-31-2015 UC Santa Cruz Dr.Yat Li joins HyperSolar
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.
February-18-2015 Dr.Wei Cheng joins Dr.Syed Mubeen Hussaini @Iowa
http://www.marketwired.com/press-release/hypersolar-researcher-wei-cheng-to-join-university-of-iowa-team-otcqb-hysr-1992610.htm
HyperSolar Researcher Wei Cheng to Join University of Iowa Team
Hydrogen Expert to Join R&D Team Focused on Increasing the Water-Splitting Voltage of Proprietary Hydrogen Technology
SANTA BARBARA, CA--(Marketwired - February 18, 2015) - HyperSolar, Inc. (OTCQB: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today announced that Dr. Wei Cheng, a post-doctoral researcher who has extensive experience in developing hydrogen production applications and previously served the Company during his time as visiting scholar at the University of California, Santa Barbara, will be joining HyperSolar's research and development team at the University of Iowa.
Dr. Cheng focuses on developing a low-cost way to make photo-electrochemical devices for producing hydrogen in wastewater. Dr. Cheng received his bachelor's degree in Materials Science and Technology from Nanjing University of Aeronautics and Astronautics, his master's degree and PhD in Materials Physics and Chemistry from Shanghai Jiao Tong University, China. He is currently a post-doctoral researcher at the University of Iowa. His previous works include producing hydrogen using low voltage electro-oxidation of organic wastewater and preparing non-toxic metal sulfide semiconductors with low-cost materials such as tin monosulfide (SnS) and Cu2ZnSnS4.
As HyperSolar's technology progresses, the market for hydrogen fuel continues to build momentum. Just recently, the "big 3" auto manufacturers in Japan -- Nissan, Toyota, and Hyundai -- jointly announced their goal of "working together to help accelerate the development of hydrogen station infrastructure for fuel cell vehicles (FCVs)." Among several topics, hydrogen fuel infrastructure with respect to fueling stations was emphasized throughout the announcement as being of utmost importance. HyperSolar believes that its hydrogen producing technology, which uses a completely renewable process capable of being implemented at or near the point of distribution, will support fueling infrastructure upon commercialization.
"We are thrilled that Dr. Cheng will be joining our University of Iowa team to focus on increasing the water-splitting voltage required for commercialization of real-world systems," said Tim Young, CEO of HyperSolar. "Dr. Cheng's background in producing hydrogen, along with his familiarity with HyperSolar technology, makes him an integral part of our research and development team. As hydrogen fuel solutions continue to garner attention from major corporations around the world, we are confident that our technology will serve many applications within both consumer and commercial industries."
December-16-2014 UCSB Extends HYSR Research Sponsorship Agreement
http://www.marketwired.com/press-release/hypersolar-extends-agreement-with-top-university-following-recent-hydrogen-production-otcqb-hysr-1977079.htm
HyperSolar Extends Agreement With Top University Following Recent Hydrogen Production Milestone
Company Extends Research Agreement With University of California, Santa Barbara With Intent to Focus on the System Aspects and Cost Models of Commercial Scale Renewable Hydrogen Production
SANTA BARBARA, CA--(Marketwired - December 16, 2014) - HyperSolar, Inc. (OTCQB: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, announced today that it has extended its sponsored research agreement with the University of California, Santa Barbara (UCSB) through December 31, 2015, as the Company continues its pursuit of its hydrogen production technology intended to meet the internationally growing demand for hydrogen fuel.
The announcement comes on the heels of a recent technological breakthrough, as the Company reported it has exceeded the 1.23 volts threshold required for artificial photosynthesis to split water into hydrogen and oxygen. HyperSolar's technology, which achieved 1.25 volts, could potentially be used to produce hydrogen at the point of use. While 1.23 volts is the theoretical minimum needed to split water molecules, HyperSolar anticipates requiring 1.5 volts or more to do so effectively in real world systems.
The University of California, Santa Barbara, has been working closely with HyperSolar for nearly three years in developing this breakthrough technology. Recently, the University of Iowa was added to the research and development team, giving HyperSolar the support of two leading universities as it continues its pursuit of commercially viable renewable hydrogen. As the technology progresses, the University of Iowa team will continue to focus on increasing the voltage of the technology, while the UCSB team will focus more on the technology's production aspects and cost models for scaled up systems.
"We are pleased to continue our relationship with the scientific team at UCSB, who has proven to be instrumental in leading our R&D efforts," said Tim Young, CEO of HyperSolar. "Coupled with the efforts from the University of Iowa group, we are thrilled to have two exceptional universities focused on advancing our technology toward the goal of commercialization. 2014 has been such an important year for the hydrogen fuel industry, as its potential for commercial, industrial, and consumer-level applications has come into much greater focus. We believe that our technology will play a critical role within hydrogen fuel infrastructure for the future, providing cost-efficient, renewable hydrogen at or near the point of distribution."
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.
December-9-2014 HYSR w/UCSB+Iowa 1.25v Milestone
1.23v requirement for H2O Electrolysis surpassed, H2Generator stable @1.25v
HyperSolar Achieves Major Breakthrough in Splitting Water Into Renewable Hydrogen Fuel
The Company Exceeds the 1.23 Volts Threshold Required for Artificial Photosynthesis to Split Water Into Hydrogen and Oxygen Using Only the Power of the Sun
SANTA BARBARA, CA--(Marketwired - December 09, 2014) - HyperSolar, Inc. (OTCQB: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and any source of water, today announced that it had reached 1.25 volts (V), an important milestone achievement in its effort to split water molecules for the production of renewable hydrogen fuel.
HyperSolar's research is centered on developing a low-cost and submersible hydrogen production particle that can split water molecules under the sun, emulating the core functions of photosynthesis. Each particle is a complete hydrogen generator that contains a novel high voltage solar cell bonded to chemical catalysts by a proprietary encapsulation coating. A video of an early proof-of-concept prototype can be viewed at http://hypersolar.com/application.php.
The theoretical minimum voltage needed to split water molecules into hydrogen and oxygen is 1.23 V. However, in real world systems, 1.5 V or more is generally needed because of the low reaction kinetics. So far, other researchers have only been able to achieve this voltage level through the use of either inefficient materials, such as titanium oxide, or very expensive semiconductors, such as gallium arsenide. Also, overcoming the corrosive degradation of these "artificial photosynthesis" systems remains a monumental challenge and has thus far eluded commercialization.
HyperSolar has previously solved the degradation problem through the use of its patent-pending protective coating, which has demonstrated long stability. Now, with 1.25 V of water splitting voltage through an inexpensive but efficient solar absorber, the company has achieved something that has never been done in a real-world environment. Future development efforts will focus on increasing the currents and photovoltages beyond 1.5V.
"Our teams at the University of California, Santa Barbara and at the University of Iowa have been working diligently to achieve efficient renewable hydrogen production," said Tim Young, CEO of HyperSolar. "Our low cost, submersible semiconductor technology does not require a fossil fuel component, making the process truly as 'green' as possible. We are pleased that this milestone brings us one step closer to producing hydrogen fuel at or near the point of distribution, and at a cost reasonable enough to ensure industrial scalability."
Mr. Young concluded, "The recent announcements from auto manufacturers, big box retailers, and the state of California, have created nationwide optimism for the future of hydrogen fuel technology. We believe our technology will support the industry as it strives to meet the growing public demand for renewable hydrogen fuel. Currently, most of the industry uses 'brown' hydrogen fuel, produced from natural gas, which emits significant amounts of carbon dioxide into the environment."
November-3-2014 Dr.Syed Mubeen Hussaini, HyperSolar@University of Iowa
http://www.marketwired.com/press-release/hypersolar-adds-university-of-iowa-to-support-its-research-and-development-otcqb-hysr-1963520.htm
HyperSolar Adds University of Iowa to Support Its Research and Development
Top University Enlisted to Help Accelerate the Development of the Company's Breakthrough Technology to Produce Renewable Hydrogen for Commercial Use
SANTA BARBARA, CA--(Marketwired - Nov 3, 2014) - HyperSolar, Inc. (OTCQB: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today announced that it has entered into a one year agreement with the University of Iowa to help accelerate the company's research and development efforts to reach its goal of producing commercially viable renewable hydrogen.
The University of Iowa possesses a reputation for pioneering advancements in the renewable energy technologies and sustainable practices in and around the campus. Its state-of-the-art "Sustainable Energy Discovery District" initiative with Solar E-car charging station, alternative fuel vehicle fleet, solar panel technologies on Cambus Maintenance facility, etc. epitomizes its leadership role towards developing a sustainable future. Its excellence in energy efficiency research is well recognized and continues to grow. Recently, a graduate from University of Iowa was awarded top University recognition for her work with hydrogen fuel cell storage.
"We are thrilled to add experienced and knowledgeable scientists from yet another prestigious University to our research group," said Tim Young, CEO of HyperSolar. "The great team at the University of California, Santa Barbara (UCSB) has helped us achieve a number of major breakthroughs toward renewable hydrogen fuel production. We believe that the addition of the University of Iowa will help us reach the major milestone of 1.5 volts needed for direct solar water-splitting. We believe that reaching this major milestone will allow us to cost effectively produce renewable hydrogen at or near the point of distribution."
The University of Iowa team will be led by Dr. Syed Mubeen Hussaini who joined the University as a Professor in August and has been instrumental in HyperSolar's progress while leading the research at University of California, Santa Barbara.
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.
October-21-2014 H2Generator Reactor Disclosures: A Scientific Breakthough
http://www.marketwired.com/press-release/hypersolar-achieves-breakthrough-in-hydrogen-separation-process-otcqb-hysr-1959363.htm
SANTA BARBARA, CA--(Marketwired - Oct 21, 2014) - HyperSolar, Inc. (OTCQB: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, today announced that the Company has achieved a significant technological milestone in its pursuit of clean hydrogen fuel production, by eliminating an expensive hydrogen-oxygen separation process. This will dramatically reduce the overall system cost of hydrogen fuel production from sunlight.
Self-contained sunlight driven water-splitting technology, also commonly referred to as "artificial photosynthesis," typically produces hydrogen and oxygen gas bubbles in the same reactor. This hydrogen-oxygen gas mixture is potentially explosive and must be quickly separated from each other. Current gas separation technology uses selective membranes and is very expensive and the membranes need to frequently be replaced.
HyperSolar has developed a novel reactor design and system architecture that uses a high voltage solar cell, that can be wrapped in the company's patent pending polymer coating, that serves two functions: (1) convert sunlight into electricity to split water into hydrogen on one side, and oxygen on the other side, and (2) acts as a physical barrier preventing oxygen from combining with hydrogen. The respective hydrogen and oxygen gas bubbles to the top of the reactor as two separate and pure gas streams. This novel design circumvents the need for membrane separators all together.
"Artificial photosynthesis and the concept of separating hydrogen from oxygen has been linked to having great 'potential' for some time," said Tim Young, CEO of HyperSolar. "With this novel reactor design, we believe that we are much closer to eliminating the aspects of the hydrogen production process which many have considered unsafe, costly and inefficient. This breakthrough will support our ultimate goal of cost-effectively producing hydrogen fuel at or near the point of distribution, for use in both consumer and industrial industry sectors."
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.
HyperSolar is currently funding a sponsored research agreement with UCSB to further the development of its renewable hydrogen technology.
June-30-2014 H2Generator Reaches Bromine Extraction Commercialization Requirement
http://www.marketwired.com/press-release/hypersolar-reports-record-time-for-hydrogen-production-otcqb-hysr-1925698.htm
SANTA BARBARA, CA--(Marketwired - Jun 30, 2014) - HyperSolar, Inc. (OTCQB: HYSR), the developer of a breakthrough technology to produce renewable hydrogen using sunlight and water, announced today that its patent pending polymer coating, when applied to a bromine electrode in a wireless solar powered particle, resulted in 170 continuous hours of hydrogen production, one of the longest duration applications of wireless hydrogen production on record.
The test conducted by members of the company's research team at the University of California, Santa Barbara (UCSB) confirms the possibility of commercializing a process for the direct conversion of sunlight into valuable chemicals and fuels. Solar to chemical conversion (artificial photosynthesis) has the advantage in that the energy storage challenges associated with photovoltaics are eliminated. The company's goal is to efficiently convert solar energy into hydrogen.
"Our UCSB research team is continuing its work to reach the ultimate milestone of achieving 1.5 open volts required to successfully split water molecules into hydrogen and oxygen. Meanwhile, we are very encouraged to learn that our patent pending polymer coating will allow the process to occur," said Tim Young, CEO of HyperSolar.
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. The company announced earlier this year that it had achieved 1.2 open circuit voltage progressing towards its goal of 1.5 open volts.
April-29-2014 HYSR Extends Sponsorship @UCSB w/Dr. Syed Mubeen Hussaini
http://www.marketwired.com/press-release/hypersolar-extends-agreement-with-top-university-as-it-nears-hydrogen-production-milestone-otcqb-hysr-1903867.htm
Extended Sponsorship thru December 31, 2014
SANTA BARBARA, CA--(Marketwired - Apr 29, 2014) - 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 extended its sponsored research agreement with the University of California, Santa Barbara (UCSB) through December 31, 2014, in the continued pursuit of achieving important milestones in the company's development plan.
"The innovative research program at the University of Santa Barbara, led by Dr. Syed Mubeen Hussaini, has made significant strides towards achieving the critical 1.5 volts required for splitting water molecules into hydrogen and oxygen," said Tim Young, CEO of HyperSolar. "By extending this partnership, we are progressing toward our ultimate goal of producing economical hydrogen at or near the point of distribution."
January-15-2015 HYSR Extends Sponsorship@UCSB w/Dr. Syed Mubeen Hussaini
http://www.hypersolar.com/news_detail.php?id=55
HYSR Extends Thru July 2014 -- In July Sponsorship is again extended
In the next phase of the research program with UCSB, the team aims to achieve the following milestones:
1. Fabricate solar absorbers using low cost methods
2. Build a low cost 1.5 volt prototype particle capable of direct water splitting
Tim Young, CEO of HyperSolar, said, "Our cutting-edge research program at the University of California Santa Barbara led by Dr. Syed Mubeen Hussaini continues to make impressive progress. The recently announced 1.1 volt milestone is very exciting in that it provides us with a clear and encouraging roadmap to reach the 1.5 volts needed for splitting water molecules into hydrogen and oxygen. We believe that producing renewable hydrogen anywhere there is water and sunlight is the key to realizing a sustainable hydrogen economy. For example, using our technology, hydrogen fueling stations could be built next to self-contained solar hydrogen production plants."
http://www.marketwired.com/press-release/hypersolar-extends-agreement-with-top-university-for-research-and-development-otcqb-hysr-1869181.htm
December-10-2013 HYSR Reaches 1.1 Volt-Dr. Syed Mubeen Hussaini
http://hypersolar.com/news_detail.php?id=54
August-20-2013 HYSR Reaches 1.0 Volt-Dr. Syed Mubeen Hussaini
http://hypersolar.com/news_detail.php?id=50
United Nations:Stumped by Australia's Overly-Ambitious GreenhouseGas Reduction Target
http://www.ibtimes.com/australias-level-ambition-over-emission-reduction-targets-questioned-un-1888106
Syed Mubeen Google Scholar Page
https://scholar.google.com/citations?user=tse2liMAAAAJ&hl=en
Recent progress in carbon nanotube-based gas sensors
T Zhang, S Mubeen, NV Myung, MA Deshusses
Nanotechnology 19 (33), 332001, 2008
357
Palladium nanoparticles decorated single-walled carbon nanotube hydrogen sensor
S Mubeen, T Zhang, B Yoo, MA Deshusses, NV Myung
The Journal of Physical Chemistry C 111 (17), 6321-6327, 2007
184
An autonomous photosynthetic device in which all charge carriers derive from surface plasmons
S Mubeen, J Lee, N Singh, S Krämer, GD Stucky, M Moskovits
Nature nanotechnology 8 (4), 247-251, 2013
171
Multiobjective differential evolution (MODE) for optimization of adiabatic styrene reactor
BV Babu, PG Chakole, JHS Mubeen
Chemical Engineering Science 60 (17), 4822-4837, 2005
133
Plasmonic photosensitization of a wide band gap semiconductor: converting plasmons to charge carriers
S Mubeen, G Hernandez-Sosa, D Moses, J Lee, M Moskovits
Nano letters 11 (12), 5548-5552, 2011
116
Plasmonic photoanodes for solar water splitting with visible light
J Lee, S Mubeen, X Ji, GD Stucky, M Moskovits
Nano letters 12 (9), 5014-5019, 2012
95
Poly (m-aminobenzene sulfonic acid) functionalized single-walled carbon nanotubes based gas sensor
T Zhang, S Mubeen, E Bekyarova, BY Yoo, RC Haddon, NV Myung, ...
Nanotechnology 18 (16), 165504, 2007
88
Sensitive detection of H2S using gold nanoparticle decorated single-walled carbon nanotubes
S Mubeen, T Zhang, N Chartuprayoon, Y Rheem, A Mulchandani, ...
Analytical chemistry 82 (1), 250-257, 2009
82
Plasmonic properties of gold nanoparticles separated from a gold mirror by an ultrathin oxide
S Mubeen, S Zhang, N Kim, S Lee, S Krämer, H Xu, M Moskovits
Nano letters 12 (4), 2088-2094, 2012
59
Size-controlled electrochemical synthesis and properties of SnO2 nanotubes
M Lai, JH Lim, S Mubeen, Y Rheem, A Mulchandani, MA Deshusses, ...
Nanotechnology 20 (18), 185602, 2009
49
Electrical and gas sensing properties of polyaniline functionalized single-walled carbon nanotubes
JH Lim, N Phiboolsirichit, S Mubeen, MA Deshusses, A Mulchandani, ...
Nanotechnology 21 (7), 075502, 2010
34
A gas nanosensor unaffected by humidity
T Zhang, S Mubeen, B Yoo, NV Myung, MA Deshusses
Nanotechnology 20 (25), 255501, 2009
31
Simulation and optimization of wiped-film poly-ethylene terephthalate (PET) reactor using multiobjective differential evolution (MODE)
BV Babu, JHS Mubeen, PG Chakole
Materials and manufacturing processes 22 (5), 541-552, 2007
29
Electrical and Sensing Properties of Single-Walled Carbon Nanotubes Network: Effect of Alignment and Selective Breakdown
JH Lim, N Phiboolsirichit, S Mubeen, Y Rheem, MA Deshusses, ...
Electroanalysis 22 (1), 99-105, 2010
28
Silver-based intermetallic heterostructures in Sb2Te3 thick films with enhanced thermoelectric power factors
Y Zhang, ML Snedaker, CS Birkel, S Mubeen, X Ji, Y Shi, D Liu, X Liu, ...
Nano letters 12 (2), 1075-1080, 2012
26
Differential evolution strategy for optimal design of gas transmission network
BV Babu, PG Chakole, JH Syed Mubeen
Multidiscipline Modeling in Materials and Structures 1 (4), 315-328, 2005
21
Optimal design of gas transmission network using differential evolution
BV Babu, R Angira, PG Chakole, J Syed Mubeen
Department of Chemical Engineering, Birla Institute of Technology & Science ..., 2003
21
High-Efficiency Panchromatic Hybrid Schottky Solar Cells
J Lee, S Mubeen, G Hernandez-Sosa, Y Sun, FM Toma, GD Stucky, ...
Advanced Materials 25 (2), 256-260, 2013
17
550 Million Shares set aside for Mergers&Acquisitions
Just like with SLTD, AAPL, and GE -- Check out their Share Structures lately?
TOXIC Waste fuels Dr. Yat Li's Microbial FuelCell
Defeceit traditionally funds Research And Development