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Nitto Denko Technology Corporation
N. Peyghambarian (Nasser N.) university of Arizona
Nonlinear optical chromophore
Ghassan Jabbour N. Peyghambarian patents
http://www.docstoc.com/docs/51375399/Organic-Light-emitting-Diodes-And-Methods-For-Assembly-And-Emission-Control---Patent-6399221
G. Jabbour was working on nanpowders in 2002, (also with N. Peyghambarian)
]
BIG THINGS COME IN SMALL PACKAGES
File Format: PDF/Adobe Acrobat - Quick View
Ghassan Jabbour, University of Arizona. BIG THINGS. COME IN. SMALL PACKAGES ... By suspending nanopowders in solution, it is possible to print ... N. Peyghambarian, for their help. We also gratefully acknowledge the ...
spie.org/documents/Newsroom/Imported/oemJuly02/ink.pdf
http://spie.org/documents/Newsroom/Imported/oemJuly02/ink.pdf
NITTO DENKO TECHNICAL CORPORATION
Nitto Denko Technical Corporation (NDT) was established in Oceanside, California in October 2000 as an independent centre of excellence for research and ...
www.ndtcorp.com/ -
http://www.ndtcorp.com/?cmd=rd_02_opt_0
- - World's First Novel, High-performance Rewritable Holographic 3D Display Successfully Developed Jointly with University of Arizona -
Nitto Denko Technical Corporation (NDT) has successfully developed a novel, image-rewritable holographic display jointly with an American research team led by Prof. N. Peyghambarian of the University of Arizona.
NDT succeeded for the first time in the world in developing a holographic display with an outstanding image persistence as well as image updating capability, by taking advantage of Nitto Denko's proprietary organic photorefractive material demonstrating both a diffraction efficiency at the world's highest level and a fast writing speed, says Nitto Denko. The company foresees applications for the holographic display in devices and apparatuses requiring three-dimensional visualization in the fields such as medical care, industrial operation and security assurance.
For the readers' information, the system setup as well as the basic scientific principles and other details of the latest development are presented in an article in the February 7 issue of the world-renowned scientific journal "Nature".more info..
________________________________________
We has been developing polymer based novel nonlinear optical chromophore (NLO) and matrix polymer, by utilizing our chromophore synthetic technologies and computer molecular orbital calculation designing techniques. The NDT materials show high electro-optical performances and
long-term thermal stability, compared to inorganic materials. Currently, we are designing novel device structure, by using the easy process, flexibility, and lo cost features. more info..
http://www.nitto.com/rd/composite/index.html this link should also be looked at
- - World's First Novel, High-performance Rewritable Holographic 3D Display Successfully Developed Jointly with University of Arizona -
Nitto Denko Technical Corporation (NDT) has successfully developed a novel, image-rewritable holographic display jointly with an American research team led by Prof. N. Peyghambarian of the University of Arizona.
NDT succeeded for the first time in the world in developing a holographic display with an outstanding image persistence as well as image updating capability, by taking advantage of Nitto Denko's proprietary organic photorefractive material demonstrating both a diffraction efficiency at the world's highest level and a fast writing speed, says Nitto Denko. The company foresees applications for the holographic display in devices and apparatuses requiring three-dimensional visualization in the fields such as medical care, industrial operation and security assurance.
For the readers' information, the system setup as well as the basic scientific principles and other details of the latest development are presented in an article in the February 7 issue of the world-renowned scientific journal "Nature".more info..
oping novel, rewritable recording materials. The research company particularly focused on organic polymer-based materials which are inexpensive to produce and at the same time easy to coat on glass and plastic media. As a result, NDT succeeded in 2002 to come up with a photorefractive material and the associated system demonstrating an excellent compositional stability while at the same time exhibiting image strength at the highest level in the world as well as fast writing speed.
In the recent years, with the need for displays capable of creating dynamic holographic images continuing to expand further, various approaches to realizing such holographic imaging have been explored, but many technical issues still need to be overcome. Japan's Ministry of Internal Affairs and Communications has recently announced its plans to enter into a joint development program with the private sector to develop by 2025 a 3D-TV which would display images in three dimensions. With such a move expected to further accelerate the 3D imagery development efforts, novel materials and systems capable of continuously recording high-definition images are being awaited.
http://www.ndtcorp.com/?cmd=rd_02_opt_0
who knows, maybe there’s a dot or two that will connect
Nitto Denko Technology Corporation
N. Peyghambarian (Nasser N.) university of Arizona
Nonlinear optical chromophore
Ghassan Jabbour N. Peyghambarian patents
http://www.docstoc.com/docs/51375399/Organic-Light-emitting-Diodes-And-Methods-For-Assembly-And-Emission-Control---Patent-6399221
G. Jabbour was working on nanpowders in 2002, (also with N. Peyghambarian)
]
BIG THINGS COME IN SMALL PACKAGES
File Format: PDF/Adobe Acrobat - Quick View
Ghassan Jabbour, University of Arizona. BIG THINGS. COME IN. SMALL PACKAGES ... By suspending nanopowders in solution, it is possible to print ... N. Peyghambarian, for their help. We also gratefully acknowledge the ...
spie.org/documents/Newsroom/Imported/oemJuly02/ink.pdf
http://spie.org/documents/Newsroom/Imported/oemJuly02/ink.pdf
NITTO DENKO TECHNICAL CORPORATION
Nitto Denko Technical Corporation (NDT) was established in Oceanside, California in October 2000 as an independent centre of excellence for research and ...
www.ndtcorp.com/ -
http://www.ndtcorp.com/?cmd=rd_02_opt_0
- - World's First Novel, High-performance Rewritable Holographic 3D Display Successfully Developed Jointly with University of Arizona -
Nitto Denko Technical Corporation (NDT) has successfully developed a novel, image-rewritable holographic display jointly with an American research team led by Prof. N. Peyghambarian of the University of Arizona.
NDT succeeded for the first time in the world in developing a holographic display with an outstanding image persistence as well as image updating capability, by taking advantage of Nitto Denko's proprietary organic photorefractive material demonstrating both a diffraction efficiency at the world's highest level and a fast writing speed, says Nitto Denko. The company foresees applications for the holographic display in devices and apparatuses requiring three-dimensional visualization in the fields such as medical care, industrial operation and security assurance.
For the readers' information, the system setup as well as the basic scientific principles and other details of the latest development are presented in an article in the February 7 issue of the world-renowned scientific journal "Nature".more info..
________________________________________
We has been developing polymer based novel nonlinear optical chromophore (NLO) and matrix polymer, by utilizing our chromophore synthetic technologies and computer molecular orbital calculation designing techniques. The NDT materials show high electro-optical performances and
long-term thermal stability, compared to inorganic materials. Currently, we are designing novel device structure, by using the easy process, flexibility, and lo cost features. more info..
http://www.nitto.com/rd/composite/index.html this link should also be looked at
- - World's First Novel, High-performance Rewritable Holographic 3D Display Successfully Developed Jointly with University of Arizona -
Nitto Denko Technical Corporation (NDT) has successfully developed a novel, image-rewritable holographic display jointly with an American research team led by Prof. N. Peyghambarian of the University of Arizona.
NDT succeeded for the first time in the world in developing a holographic display with an outstanding image persistence as well as image updating capability, by taking advantage of Nitto Denko's proprietary organic photorefractive material demonstrating both a diffraction efficiency at the world's highest level and a fast writing speed, says Nitto Denko. The company foresees applications for the holographic display in devices and apparatuses requiring three-dimensional visualization in the fields such as medical care, industrial operation and security assurance.
For the readers' information, the system setup as well as the basic scientific principles and other details of the latest development are presented in an article in the February 7 issue of the world-renowned scientific journal "Nature".more info..
oping novel, rewritable recording materials. The research company particularly focused on organic polymer-based materials which are inexpensive to produce and at the same time easy to coat on glass and plastic media. As a result, NDT succeeded in 2002 to come up with a photorefractive material and the associated system demonstrating an excellent compositional stability while at the same time exhibiting image strength at the highest level in the world as well as fast writing speed.
In the recent years, with the need for displays capable of creating dynamic holographic images continuing to expand further, various approaches to realizing such holographic imaging have been explored, but many technical issues still need to be overcome. Japan's Ministry of Internal Affairs and Communications has recently announced its plans to enter into a joint development program with the private sector to develop by 2025 a 3D-TV which would display images in three dimensions. With such a move expected to further accelerate the 3D imagery development efforts, novel materials and systems capable of continuously recording high-definition images are being awaited.
http://www.ndtcorp.com/?cmd=rd_02_opt_0
who knows, maybe there’s a dot or two that will connect
CdSe anyone?
http://pubs.acs.org/doi/abs/10.1021/jp106140j
also have a few other posts on Hawk's for those interested in further research.
GLTA
hey FREE jump in the water's fine, your input is missed.
can you say carbon credits? take a look at the following link of a meeting that G. E. Jabbour was at;
http://www.eugcc-cleanergy.net/Agenda1DG.aspx
there is conjecture involved, but to me it seems like some are figuring out how to bake a pie and slice it.
GLTU
worth browsing for ideas and leads for further DD
http://apl.aip.org/resource/1/applab/v97/i19
get ready to get excited
http://pubs.acs.org/doi/abs/10.1021/cm101314b?prevSearch=%2528ghassan%2Bjabbour%2529%2BNOT%2B%255Batype%253A%2Bad%255D%2BNOT%2B%255Batype%253A%2Bacs-toc%255D&searchHistoryKey=
Article
Efficient Light-Emitting Devices Based on Platinum-Complexes-Anchored Polyhedral Oligomeric Silsesquioxane Materials
* Abstract
* HTMLFull Text HTML
* PDFHi-Res PDF[1092 KB]
* PDFPDF w/ Links[859 KB]
* Figures
Xiaohui Yang†, Jesse. D. Froehlich‡, Hyun Sik Chae‡, Brett T. Harding‡, Sheng Li‡, Amane Mochizuki*‡ and Ghassan E. Jabbour*†§
† School of Materials, Advanced Photovoltaic Center, Arizona State University, Tempe, Arizona, 85287-6006
‡ Nitto Denko Technical Corporation, 501 Via Del Monte, Oceanside, California 92058
Chem. Mater., 2010, 22 (16), pp 4776–4782
DOI: 10.1021/cm101314b
Publication Date (Web): July 21, 2010
Copyright © 2010 American Chemical Society
*Authors to whom correspondence should be addressed. E-mail addresses: Jabbour@asu.edu, Ghassan.jabbour@kaust.edu.sa (G.E.J.), amane.mochizuki@gg.nitto.co.jp (A.M.)., §
Current address: Solar and Alternative Energy Engineering Research Center, Physical Science and Engineering, KAUST, Thuwal, Saudi Arabia.
Abstract
Abstract Image
The synthesis, photophysical, and electrochemical characterization of macromolecules, consisting of an emissive platinum complex and carbazole moieties covalently attached to a polyhedral oligomeric silsesquioxane (POSS) core, is reported. Organic light-emitting devices based on these POSS materials exhibit a peak external quantum efficiency of ca. 8%, which is significantly higher than that of the analogous devices with a physical blend of the platinum complexes and a polymer matrix, and they represent noticeable improvement in the device efficiency of solution-processable phosphorescent excimer devices. Furthermore, the ratio of monomer and excimer/aggregate electroluminescent emission intensity, as well as the device efficiency, increases as the platinum complex moiety presence on the POSS macromolecules decreases.
Dissect away Hawk
http://pubs.acs.org/doi/abs/10.1021/ja908139y?prevSearch=%2528%2522michael%2Bs.%2BWong%2522%2529%2BNOT%2B%255Batype%253A%2Bad%255D%2BNOT%2B%255Batype%253A%2Bacs-toc%255D&searchHistoryKey=
think this one had to do with the frog lit up with qd
Article
Self-Assembly Synthesis, Tumor Cell Targeting, and Photothermal Capabilities of Antibody-Coated Indocyanine Green Nanocapsules
* Abstract
* HTMLFull Text HTML
* PDFHi-Res PDF[3635 KB]
* PDFPDF w/ Links[442 KB]
* Supporting Info
* Figures
* Citing Articles
Jie Yu†, David Javier‡, Mohammad A. Yaseen‡§, Nitin Nitin‡, Rebecca Richards-Kortum‡, Bahman Anvari and Michael S. Wong*†
Department of Chemical and Biomolecular Engineering, Department of Bioengineering, and Department of Chemistry, Rice University, Houston, Texas 77251, Department of Radiology, Massachusetts General Hospital, Charlestown, Massachusetts 02129, and Department of Bioengineering, University of California, Riverside, California 99251
J. Am. Chem. Soc., 2010, 132 (6), pp 1929–1938
DOI: 10.1021/ja908139y
Publication Date (Web): January 21, 2010
Copyright © 2010 American Chemical Society
mswong@rice.edu, †
Department of Chemical and Biomolecular Engineering, Rice University.
, ‡
Department of Bioengineering, Rice University.
, §
Current address: Massachusetts General Hospital.
,
Department of Bioengineering, University of California, Riverside.
,
Department of Chemistry, Rice University.
Abstract
Abstract Image
New colloidal materials that can generate heat upon irradiation are being explored for photothermal therapy as a minimally invasive approach to cancer treatment. The near-infrared dye indocyanine green (ICG) could serve as a basis for such a material, but its encapsulation and subsequent use are difficult to carry out. We report the three-step room-temperature synthesis of 120-nm capsules loaded with ICG within salt-cross-linked polyallylamine aggregates, and coated with antiepidermal growth factor receptor (anti-EGFR) antibodies for tumor cell targeting capability. We studied the synthesis conditions such as temperature and water dilution to control the capsule size and characterized the size distribution via dynamic light scattering and scanning electron microscopy. We further studied the specificity of tumor cell targeting using three carcinoma cell lines with different levels of EGFR expression and investigated the photothermal effects of ICG containing nanocapsules on EGFR-rich tumor cells. Significant thermal toxicity was observed for encapsulated ICG as compared to free ICG at 808 nm laser irradiation with radiant exposure of 6 W/cm2. These results illustrate the ability to design a colloidal material with cell targeting and heat generating capabilities using noncovalent chemistry
CdSe anyone?
http://pubs.acs.org/doi/abs/10.1021/jp106140j
Abstract
Abstract Image
Many techniques to transfer NPs from the oil phase into the water phase have been developed, but all have limitations that remain to be addressed, specifically low transfer yields and partial NP aggregation. One of the transfer processes involves emulsifying an oil suspension of NPs in water with surfactants, followed by evaporation of the oil to produce water suspensions of surfactant-encapsulated NPs. We show here that using salt solutions instead of deionized water significantly improves this emulsion-based transfer process. With oleate-coated CdSe quantum dots as a model NP system, hexane as the oil phase, sodium bis(2-ethylhexyl) sulfosuccinate (AOT) as the emulsifying surfactant, and NaCl solution as the water phase, the resultant aqueous suspensions exhibit months-long photoluminescence stability, near 100% phase-transfer yield, and nonaggregation. These benefits are attributed to a more laterally packed AOT layer surrounding the NP, as supported by zeta-potential measurements, surface-charge calculations, thermogravimetry, and Nile Red fluorescence analysis. The new phase-transfer method is general for a variety of NP, surfactant, and salt types.
you're right. I was having a moment
got something for you to take a look at
http://www.chemfeeds.com/energyenvironsci.php
4 articles by Michael S Wong on site; haven't seen anything by G. Jabbour
boatload to browse, enjoy
you dig well, rock on.
in regards to teleportation, it seems there was a ship that was teleported accidentally during WWII while doing an experiment. don't remember the details, but do wonder how things would work out if that experiment were revisited by scientists today.
you mod a good board, will be looking for the golden.
know what you mean, was about the same for me, but when I saw how much the board had already accomplished, I wanted to find something they hadn't discovered yet.
QTMM board was the first I ever posted on. Talk about a challenge to find something not already posted about.
I try to look at things a little skewed and figure that I'll get lucky sometime.
Hope others on the board feel a little lucky too, causer it is a challenge.
GLTU
on the other board I posted the following;
/ IDMC / nSIn DISPLn\
File Format: PDF/Adobe Acrobat - Quick View
?Ghassan E. Jabbour(Arizona State Univ., USA). ?Dongun Jin(Samgsung Mobile Display Co., Ltd., Korea). ?Chang-Dong Kim(LG Display Co., Ltd., Korea) ...
www.imid.or.kr/sub03/download.php?no=5
Given the companies associated with this and other events that Ghassan Jabbour has attended in the past, does anyone really think that no one is using our TQDs?
QR-LPD is a bistable, reflective display technology that uses airborne, electronically switchable powder particles of extremely high fluidity. The results are paper-like visibility, wide viewing angles, fast response times and ultra-low power consumption.
Sounds like some kind of QD is used in the powder particles for QR-LPD
I got the QR=LPD paste from the Bridgestone link on #467
The following link on that post talks about Qualcomm Mirasol which uses a thin film stack in their process,(it's on their video). That is also something QTMM could do.
Pixel Qi is also mentioned with a new OEM looking to having product on line within 6 months.
Things in the quantum world are happening at a very rapid pace.
I have nothing that specifically mentions TQD, Solterra, or QTMM. I think the best place to look for something is in the things most talked about. Our best chance of finding it is to look at cutting edge product with a skewed view and conjecture. I mention product because we're looking pps to go up and a return on our investment.
Out of the people posting on either board, DDhawk seems to be the most informed and the best at it. Like a Hawk, he seems to be all over any information presented. I think we're best served by being supportive and seeing if we can find other snippets of information for him to pounce upon.
Understand that we're trying to connect dots and conjecture is involved, but maybe one of us will stumble upon something factual and definitive. It takes stones to be willing, for some information won't fit.
Perhaps if we don't get it, we could ask once and keep digging if we don't make the connection or look in what we consider a more positive direction.
Personally, I think we owe DDhawk a big round of thanks both for his labor and patience.
I accept responsibility for the confusion involving my post, ask forgiveness, and apologize.
Merry Christmas and GLTA
Thanks Crunch, wish you success and a Merry Christmas.
links to previous post
http://www.bridgestone.eu/press/press-releases/all/2010/bridgestone-corporation-and-delta-electronics-agree-on-joint-development-for-next-generation-electronic-paper-products
http://besttabletreview.com/a-comparison-of-second-generation-displays-why-pixel-qi-mirasol-qr-lpd-and-liquavista-are-the-future-of-tablet-screens/
http://www.bridgestone.eu/press/press-releases/all/2010/bridgestone-corporation-and-delta-electronics-agree-on-joint-development-for-next-generation-electronic-paper-products
http://besttabletreview.com/a-comparison-of-second-generation-displays-why-pixel-qi-mirasol-qr-lpd-and-liquavista-are-the-future-of-tablet-screens/
sorry last msg didn't take
Bridgestone Europe - Bridgestone Corporation and Delta Electronics ...
10 November 2010. Bridgestone Corporation and Delta Electronics announced today that they ... QR-LPD is a bistable, reflective display technology that uses ...
www.bridgestone.eu/.../2010/bridgestone-corporation-and-delta-electronics-agree-on-joint-development-for-next-generation-electronic-paper-p...
This is a fun read with potential.
A comparison of second generation displays: Why Pixel Qi, Mirasol ...
Bridgestone announced their QR-LPD screen (which stands for “quick response ...
besttabletreview.com/a-comparison-of-second-generation-displays-why-pixel-qi-mirasol-qr-lpd-and-liquavista-are-the-future-of-tablet-scr... -
Qualcom Mirasol uses thin film stack, (it's on their video)
Pixel Qi
It sounds great but is this all “pie in the sky” thinking? Evidently it’s not. According to a panel of tech company leaders, the Pixel Qi screen will be in a handful of devices within six months. Additionally it will be included as part of a first generation eReader that will officially be announced next month (don’t get your hopes up Apple fanatics. The device is supposedly from a new OEM that hasn’t entered the market yet).
interesting that this OEM hasn't even entered the market yet. it shows how quick things can happen.
Think the best place to find evidence of TQDs now is in cutting edge products. That could be any thing, but mosst likely what they talk about most often.
GLTA
This is a fun read with potential.
A comparison of second generation displays: Why Pixel Qi, Mirasol ...
Bridgestone announced their QR-LPD screen (which stands for “quick response ...
besttabletreview.com/a-comparison-of-second-generation-displays-why-pixel-qi-mirasol-qr-lpd-and-liquavista-are-the-future-of-tablet-scr... -
Qualcom Mirasol uses thin film stack, (it's on their video)
Pixel Qi
It sounds great but is this all “pie in the sky” thinking? Evidently it’s not. According to a panel of tech company leaders, the Pixel Qi screen will be in a handful of devices within six months. Additionally it will be included as part of a first generation eReader that will officially be announced next month (don’t get your hopes up Apple fanatics. The device is supposedly from a new OEM that hasn’t entered the market yet).
interesting that this OEM hasn't even entered the market yet. it shows how quick things can happen.
DDhawk has some interesting info and insight
Thanks to all who try to add to our information base.
EX, I owe you an apology. You were putting information out that I didn’t know how to connect. It didn’t mean that some other couldn’t or wouldn’t. Some of this tech info is a little overwhelming.
Think we’re at a point now where we may find the best evidence of TQDs in cutting edge product development. That could be in anything, but most likely in what QTMM personnel talk about most.
GLTA
/ IDMC / nSIn DISPLn\
File Format: PDF/Adobe Acrobat - Quick View
?Ghassan E. Jabbour(Arizona State Univ., USA). ?Dongun Jin(Samgsung Mobile Display Co., Ltd., Korea). ?Chang-Dong Kim(LG Display Co., Ltd., Korea) ...
www.imid.or.kr/sub03/download.php?no=5
Given the companies associated with this and other events that Ghassan Jabbour has attended in the past, does anyone really think that no one is using our TQDs?
QR-LPD is a bistable, reflective display technology that uses airborne, electronically switchable powder particles of extremely high fluidity. The results are paper-like visibility, wide viewing angles, fast response times and ultra-low power consumption.
Sounds like some kind of QD is used in the powder particles for QR-LPD
looking forward to the next year
Fuji isn't alone in seeking improvements, it seems most visionary companies are trying to find a way to get a piece of the Q-pie.
In my area, Wacker is building a new plant, (price tag 1.45B) in support of the solar industry. Olin is looking to shift into thin membrane.
When QD's become predominant, changes will probably occur rapidly in multiple markets.
It would be interesting to hear about changes in the area of fellow board members.
In reference to smoke and tea leaves, last I heard tea leaves burned pretty well.
Smoke and mirrors tend to be illusory, but where there's smoke, there tends to be burning coals or fire. I think there is more substantial evidence out there, however we may need to look with a skewed view to find it.
Enjoyed all of your posts.
GLTA
yes, $5 would be nice, but don't know how many would sell. gl
CdSe doping http://www.nanotech-now.com/columns/?article=475
Enhancement of device performance of organic solar cells by an interfacial perylene derivative layer
http://pubs.acs.org/doi/abs/10.1021/am100039m
A New Materials Printer Deposits Functional Fluids
The Fujifilm Dimatix DMP-3000 materials deposition printer offers users a larger format, higher accuracy and higher repeatability.
A third endorsement comes from Ghassan Jabbour, director of research, optoelectronic materials and devices at the Flexible Display Center at Arizona State University. “The new DMP-3000 provides an increased printable area and higher stepping accuracy and repeatability. Also, having the flexibility to interchange printheads of varying drop sizes as needed is an important and unique advancement in this area.”
http://www.printedelectronicsnow.com/articles/2009/07/a-new-materials-printer-deposits-functional-fluids
competition?
Roland Piquepaille at ZDNet has a post on OLED lighting reportedly achieving 100% energy efficiency.
You all know that incandescent light bulbs are terribly inefficient, turning only 5% of the electricity they consume into light. Fluorescent lamps are better using up to 25% of its energy as light. And solid state lighting devices lose only 50% of the energy they received. But now, researchers at Arizona State University (ASU) claim they’ve developed organic lighting devices which are 100% efficient. The researchers think it’s possible to produce these solid-state lighting devices based on OLED technology at low cost. If this is true, this would be of major benefit to the environment by conserving energy and natural resources.
These organic lighting devices have been developed by a team led by Ghassan Jabbour, professor at the ASU School of Materials, and Jian Li, an assistant professor in the same department. In addition, Jabbour is director of optoelectronics research and development at the Flexible Display Center at ASU.
What’s particularly significant about the researchers’ work is that their optimized device adopts an even simpler structure than any yet reported by other research groups. “There is no waste of electricity,” Jabbour says. “All the current you are putting into the device is being used to produce light. It’s the first time something like this has been demonstrated. Nobody else has shown a 100 percent internal quantum efficiency for lighting devices using a single molecular dopant to emit white light.”
This research work has been published in Advanced Materials under the name “Excimer-Based White Phosphorescent Organic Light-Emitting Diodes with Nearly 100 % Internal Quantum Efficiency” (Volume 19, Issue 2, Pages 197-202, January 2007). Here are two links to the paper reference and a short comment about it. “By combining the monomer and excimer/aggregate emission of FPt, a white OLED can be obtained. Incorporating the novel host material 26mCPy and engineering the charge balance properties, Jabbour and co-workers used FPt to demonstrate, for the first time, nearly 100% internal quantum efficiency in white OLEDs.”
http://www.hybridautonews.net/jungle-law.html
as the above was printed in 2007, I wonder how close it is to an actual product or if it’s already passé due to the QLED?
www.plausiblefutures.com, 16 Feb 2002 [cached]
"But our vision is that it is really easier to integrate the materials and the cloth, not make the cloth itself," Jabbour said.
...
"This sounds like science fiction, but lots of things we have today were science fiction yesterday," says Ghassan E. Jabbour, associate research professor of optical sciences at the University of Arizona."Some of the research we do is high risk, but if successful, the payoffs are huge."
Jabbour is pioneering flexible organic and polymeric electronics and photonics (optical electronics) - a technology based on new, ultra-thin organic films that either function as transistors, emit light, or in the case of solar cells, collect light to generate electricity.Jabbour and his group, along with European partners, are developing nanometer-thick organic films for printing on paper, plastic and textiles.These films could be manufactured on flexible substrates by the mile, rolling like reams of newspapers off a cylindrical press.
"Our goal really is to print these nanofilms using traditional tools like screen printing, inkjet printing, laser printing, and gravure printing.Printing all these nanofilms by traditional techniques reduces cost and is one of the major reasons why this is really attractive," Jabbour said.
His laboratory was the first to print organic light-emitting devices on large areas of plastic and textile by screen printing. His group also found a unique technique to inkjet print using this technology as well.
About six months ago, Jabbour and his team demonstrated that such nanofilms could be printed on cloth.Theirs is the first such breakthrough.
"We now know how to integrate organic materials onto textiles.We haven't solved the whole problem yet, but we understand the pitfalls, what the 'killers' are that prevent these materials from sticking to cloth."
Jabbour collaborates with other UA optical scientists and materials scientists on integrating ultra thin organic films for memory storage and other applications.
...
Jabbour adds a couple of caveats about university research on new photonic materials and new processes to print organic and hybrid electronics.
One is that university researchers study the science that supports development of new emerging technologies.Industry - and industry is heavily interested, Jabbour says - recognizes potential applications and products that can profitably be developed from academic research.That university research focuses on basic science and industry focuses on applications is a point that people sometimes fail to grasp.
Two is that applications of many new technologies are niche applications - they are appropriate for many great new things, but won't soon replace established technologies that continue to improve.
Case in point: "Organic nano-thick film technology is not about to replace silicon," Jabbour said."Based on current materials, organic solar cells won't out-generate silicon solar cells soon.I strongly doubt you will see space shuttles using this technology, at least for the next several years.However, organic solar cells have many attractive attributes that make them suitable replacements for their inorganic counterparts in some cases," he added.
INDUSTRYWEEK ARTICLES -- R&D Stars To Watch
www.iwgc.com, 21 Aug 2002 [cached]
Ghassan E. Jabbour, assistant research professor, University of Arizona, Tucson.The organic light-emitting diode (OLED) technology that Jabbour and his team are developing at the University of Arizona's Optical Sciences Center could lead to the replacement of liquid crystal displays in computer monitors.In the lab, Jabbour's team has fabricated devices that produce light 2,000 times brighter than the average computer display.Last year the U.S. Department of Defense provided several million dollars to the research effort. http://www.zoominfo.com/search#search/profile/person?personId=21999223&targetid=profile
Again, one would think product ready
Guess, we keep digging
interesting overview
http://www.wiley-vch.de/util/hottopics/solarcells/
feel free to interpret or add an opinion
in regards to networking information
http://www.oeindex.com/lab.html is informative.
Given their news section and developments, I think some are also playing with TQDs. http://www.oeindex.com/
let's dig a little longer. the last quarter mile is usually the hardest, but the sense of accomplishment and victory is very worthwhile.
GLTA
Welcome back Free, was wondering about you.
Looking forward to see what you dig up next.
You're a good man. Thanks for your time and effort to inform us.
Trade on and Merry Christmas
appreciate the heads up
Thanks for your DD PDGY. In the meantime, is there any of the legal profession on this board? If so, would you mind postulating the pros and con of your pov as to any action on our part?
I for one would like to see that this isn't repeated.
GLTA
Thanks for the update PV.
GLTU
any of you ever get a local permit? Some you get in a day,others weeks, months, or longer. One area I lived septic permits were backed up by 1.5 - 2 yrs. (go figure.) That's the pisser about not knowing, you still don't know. You can't tell what you don't know and it seems like in some regards they may be in a similar position.
The message and actions have been pretty consistent. They have a long term view. I was in NENE and pulled out of that to reinvest here. The footsteps have been more consistent and long term I believe I'll be a lot better off.
Some here seem to think debate or opposing points of view aren't wanted here. I think debate is healthy, but I don't think people want tears in my coffee as their only contribution. Everyone has concerns, it's their money invested for the hope of a brighter future.
Thanks to everyone that address concerns and contribute in a positive manner.
I still trust Steve to read others well. If something works well for QTMM good, if not forget it. The man has a plan and a long term vision.
GLTA
you express yourself well about legit concerns, hope you get a reply
gl
we do have waspish wit and the humor that goes with it from time to time.
not really, best case scenario another company buys them out, (if they have a viable product). Their history seems to indicate they have done similar things in the past.
Am looking forward to pdgy's post, will be surprised if any officer of the company is there. aimo
gltu
appreciate you doing what you can.
A billion shares doesn't move this puppy. You may want to check out post #3610,3616, and 3787. It looks like they have done this kind of thing before. People start talking and they switch personnel around. Looks like the only thing these shares are good for will be a tax write off, but I don't think you'll have any luck selling......another one bites the dust.
Maybe we can help them get a room, (with bars).
GLTA
I think Dr. Bob is trying to give us a heads up about where the company is at in the scheme of things. He knows we have some of the information, (he reads the posts). Evidently he thinks some of us are intuitive or smart enough to connect the dots. Our friend PV is one such person. He is constrained by SEC regs. and company policy about what he can say.
He has been a friend to this board and I thank him for it.
#4851 We don't have enough staff to respond to more inquiries than we presently get.
#4856 October 27th 2010 Flowid and FutureChemistry will develop a method for manufacturing quantum dots in continuous flow on a laboratory scale, subsequently design, develop and install an operational plant for manufacturing quantum dots in continuous flow on a production scale.
Their leading edge work essentially allows the Company to overcome barriers to entry of high volume, high tech markets. The imminent ability to sell stand alone quantum dots in large quantities at attractive pricing into various markets, while continuing to develop breakthrough solar cell technology, undoubtedly will generate significant revenue for Solterra, Quantum Materials Corporation and its shareholders.”
Steve Squires is of course running the company. His job is to get the money.Our technology is being represented by ASU. That saves us time and money and frees up the staff to focus on business, either research or negotiations. His action could also imply that he has enough business lined up for the immediate future, i.e., his hands are full.
I think sales are lined up and they're negotiating in multiple directions, but nothing happens until the product hits the market in a big way. When it pops, it should rock.
#4856 states "will develop", meaning not done as of that time. I suspect the building in Jeddah is. It takes the time it takes.
I think the real question is whether this company is the right investment for you. No one can decide that for you. We could sell shares, drive the price down and maybe buy back in or miss the pop. Me I'm holding right where I'm at. I figure, I've got the odds in my favor this time. I like that I'm in something that may have a positive impact on the world.
I try to contribute even though at times I suspect I appear a fool. Do you believe in your decision that much?
For peace of mind PV's suggestion of meditation or prayer works wonders. It helps grow through diversity and adverse conditions, and clarify thinking.
For any whose toes I step on (past, present, and future) I apologize.
Forgive my verbosity, aimo or tol
Hope we all continue to acknowledge good deeds done.
SX thanked DDhawk on his board for his contribution here, well done SX
GLTA
lol, wonder if that was the job that called him away
I hear you. I think we are on pretty solid ground.
Good find, helps put things in perspective.
Sorry I'm not a tech guy either, any tech on board willing to help EX and myself?
wicked wit btw
peace
I don't think we're producing 100kg a day at this time. Given Dr. Bob's statements about expected time line and things to come.
things move much slower than expected especially when dealing with other countries.
Quantum Materials Website will correspond to a major event...
now looking like first quarter next year
I don't believe we are ready to get out of stealth mode,,My best guess is that we should be doing this around midyear 2011
It sounds like we could be waiting on a regulatory response in regards to the plant or SA. Given Trevorbc's post #4856, I lean towards the plant.
I imagine the proposals have to do with sale agreements and carbon credits and etc. The major event will most likely seem like an explosion or like a rocket as sp soars. aimo
DDhawk
Thanks for your response.
I'm curious about the "mid 2011" timeframe Dr.Bob mentioned to you...he told me Q1 ?? Are we talking about the same thing...breaking loose ?
Sounds like they're waiting on some kind of regulatory response.
My guess would be either the plant or SA.
Seems like their hands are full.
It would be a pretty positive sign if they hired more staff. That would indicate that some of those inquiring were buying.
Think I might be in line for getting hair or just shaving the remainder.
GLTU
Seems like their hands are full.
It would be a pretty positive sign if they hired more staff. That would indicate that some of those inquiring were buying.
Think I might be in line for getting hair or just shaving the remainder.
GLTU
Note from Dr. Bob;
Thanks for your note. I think you should talk to Steve Squires about your idea, He responds to SMS' best.
At this point I don't believe we are ready to get out of stealth mode,,,but you should ask Steve. My best guess is that we should be doing this around midyear 2011. We don't have enough staff to respond to more inquiries than we presently get.
Steve's SMS number is :
((I'm giving the number to Free and DDhawk, as the staff have their hands full now, I'm trusting the members of the respective boards to abide by the moderator's recommendation(s))
As I'm not a paying member, my email is chessmite@gmail.com
I appreciate Dr. Bob's prompt response, but I in no way would think his time line is written stone, it's his best guess, but still a guess. Should Steve choose to share, it should be more accurate).
bob glass
On Nov 29, 2010, at 12:02 PM, Garry Williams wrote:
Dr. Bob,
I posted a proactive message on the QTMM board questioning whether the board could act as an interface to help get information about your company and product(s) to other companies.
Do you know if we would be violationg any law, rule, ethic or business principle?
Were we to take such action, do you think it would be helpful or a hindrance?
Thanks for taking the time to share your thoughts.
Regards,
Garry
Note from Dr. Bob;
Thanks for your note. I think you should talk to Steve Squires about your idea, He responds to SMS' best.
At this point I don't believe we are ready to get out of stealth mode,,,but you should ask Steve. My best guess is that we should be doing this around midyear 2011. We don't have enough staff to respond to more inquiries than we presently get.
Steve's SMS number is :
((I'm giving the number to Free and DDhawk, as the staff have their hands full now, I'm trusting the members of the respective boards to abide by the moderator's recommendation(s))
As I'm not a paying member, my email is chessmite@gmail.com
I appreciate Dr. Bob's prompt response, but I in no way would think his time line is written stone, it's his best guess, but still a guess. Should Steve choose to share, it should be more accurate).
bob glass
On Nov 29, 2010, at 12:02 PM, Garry Williams wrote:
Dr. Bob,
I posted a proactive message on the QTMM board questioning whether the board could act as an interface to help get information about your company and product(s) to other companies.
Do you know if we would be violationg any law, rule, ethic or business principle?
Were we to take such action, do you think it would be helpful or a hindrance?
Thanks for taking the time to share your thoughts.
Regards,
Garry