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Try the generic code 7866. If not successful the following should reward you: 7826886 3687 4283 7827833 2 73624772623 46 8324665649
A short list of TV manufacturers incase some think they are all taken up by Dow (Nanoco) and 3M (Nanosys):
Aceawtasd 2011 Present
Advent 1975 Present
Adyson 2008 2011
Aiwa - -
Akai 1929 Present
Akari 1992 Present
Akurra 2011 Present
Alba (Now known as Harvard) - -
Allorgan - -
Amigo Video - -
Amplivision 2011 Present
Amstrad - -
Anitech 1999 Present
Arcam 2011 Present
Arena - -
Argosy - -
Arise India 2012 present - -
Asuka 2011 Present
Atlantic 2010 Present
Audiosonic (related to Multitech, not a manufacturer, brand name only) - -
Audiovox - -
Bace Television 1947 -
Baird 1926 -
Bang & Olufsen - present
Basic Line - -
Baur - -
Baycrest (own by The Bay store) - -
Beko - present
BenQ - -
Beon - -
Binatone - -
BiSA - -
Blaupunkt - -
Blue Sky - -
Blue Star - -
Bondstec - BOSE
BPL 1980 -
Brandt - -
Britannia 2011 Present
BSR - -
BTC - -
Bush Radio - -
Candle - -
Carrefour - -
Cascade 2011 Present
Cathay - -
Cello 2004 Present
Centurion - -
CGE[disambiguation needed] 2009 Present
Changhong[disambiguation needed] 1958 Present
ChiMei - -
Cimline - -
Citizen - -
Clairetone Electric Corporation 1967 -
Clarivox - -
Clatronic - -
Coby - -
Color Electronics Corporation 1964 -
Conar Instruments 1962 -
Condor - -
Conrac (Germany) - - (various plasma TV sets around 2003)
Contec - -
Continental Edison - -
Cossor - -
Crown - -
Crystal - -
CS Electronics - -
CTC - -
Curtis Mathes Corporation 1960 present
Cybertron - -
Daewoo - -
Dainichi - -
Dansai - -
Dayton - -
De Graaf - -
Decca - -
Deccacolour (UK) - -
Defiant - -
Diamond vision - -
Delmonico International Corporation 1967 -
Diboss - -
Dixi - -
Dual - -
Dual Tec - -
Dumont (No relation to the above company) - -
Durabrand (private label tradename of Wal-Mart) 2003 present
Dyanora (in India) - -
Dynatron - -
Electronics Corp. (ECTV) (in India) - -
English Electric Valve Company - -
EKCO - -
Elbe - -
Electrohome - -
Element Electronics 2006 present
Elin - -
Elite - -
Elta - -
Emerson (no relation to the above company) 1948 present
EMI - -
Expert - -
Ferguson Electronics - -
Ferranti - -
Finlandia - -
Finlux 1971 present
Firstline - -
Flint - -
Frontech (not a manufacturer, brand name only) - -
Fujitsu 1992 present
Funai Electric 1980s present
General Electric 1947 1986 (taken over by Thomson)
General Electric Company plc (UK manufacturer completely unrelated to the US manufacturer of the same name) - -
General Gold
Geloso - -
Genexxa - -
GoldStar 1958 1995, name changed to LG Electronics
Goodmans Industries - -
Gorenje - -
GPM - -
Gradiente - -
Graetz - -
Granada - -
Grandin - -
Grundig 1966 2003 (taken over by Beko, brand still exists)
Haier -
Hannspree - -
Hanseatic - -
Hantarex - -
Harvard International 2000s -
Harvey Industries 1989 -
HCM - -
Hinari Domestic Applicanes - -
Hisawa - -
HMV - -
Hisense[disambiguation needed] 1970 Present
Hitachi, Ltd. 1956 present
Huanyu - -
Hypson - -
Ice - -
Ices - -
ITS - -
ITT Corporation - -
ITT-KB (UK) - -
ITT-SEL (Germany) - - (bought by Nokia)
Imperial - -
Indiana - -
Ingelen - -
Inno Hit - -
Interfunk - -
Intervision - -
Isukai - -
IZUMI 2008 present
Jensen Loudspeakers 2003 present
JMB - -
JVC 1976 present
Kaisui - -
Kamacrown - -
Kane Electronics Corporation 1967 -
Kapsch - -
Kathrein - -
Kendo - -
Kingsley - -
Kloss Video 1981 -
Kneissel - -
Kogan 2006 Present
Kolster-Brandes - -
Konka 1984 Present
Korpel - -
Koyoda - -
Lanix - -
Leyco - -
LG Electronics (founded as GoldStar, name changed 1995) 1958 present
Liesenkötter (cabinet builder only, bought chassis from manufacturers such as Philips) - -
LLoyd's - -
Loewe AG - present
Luma - -
Luxor - -
M Electronic - -
MTC - -
Magnadyne - -
Magnafon - -
Magnasonic - -
Magnavox (subsidiary of Philips) 1976 present
Maneth - -
Marantz 1992 present
Marconiphone - -
Mark - -
Matsui - -
McMichael Radio - -
Mediator (brand name owned by Philips) - -
Memorex 1961 present
Micromax 2009 present
Metz - present
Minerva - - (taken over by Grundig)
Minoka - -
Mirc Electronics (Onida brand) (in India) 1982 present
Mitsubishi - -
Mivar 1945 -
Multitech (not a manufacturer, brand name only) - -
MT Logic (related to Multitech, not a manufacturer, brand name only) - -
Murphy Radio - -
NEC 1950s -
Neckermann - -
Nelco (in India) - -
NEI - -
NetTV - -
Nikkai - -
Nobliko - -
Nokia (Nokia) - -
Nordmende - 1990s
North American Audio, Inc. 1962 -
Oceanic - -
Onida 1990 Present
Onwa - -
Orion (Hungary) - -
Orion (Japan) - -
Osaki - -
Oso - -
Osume - -
Otake - -
Otto Versand - -
Packard Bell, Teledyne Packard Bell 1948 1974
Palladium - -
Panama - -
Matsushita (Panasonic, National, Quasar, Technics, Ramsa) 1959 present
Pathe Cinema - -
Pathe Marconi - -
Pausa - -
Perdio - -
Peto Scott - -
Philips 1930s present
Phonola 1939 - (taken over by Philips)
Pilot Radio Corporation (Jerrold Electronics) 1964 present
Pioneer Electronics 1985 -
Planar Systems 1983 present
Polaroid - -
Profex - -
Prima - -
ProLine - -
ProScan (div. of Technicolor SA) 1990s present
ProTech - -
Pulser (own by Canadian tire) - -
Quasar - -
Pye - -
PyxScape - -
Quelle - -
Questa - -
R-Line - -
REI - -
Radiola - -
Radiola (France, owned by Philips) - -
RadioMarelli 1929 -
RadioShack - -
Rank Arena - -
Ravenswood (div. of Annapolis Electroacoustics Corp.) 1962 -
RBM - -
RCA 1939 1986 (taken over by Thomson)
Realistic - -
Rediffusion - 1985
Regentone - -
Revox - -
Rex - -
RFT (Stassfurt plant) - 1991? (bought by Technisat)
RGD (Radio Gramaphone Development Company) - -
Roadstar (not a manufacturer, brand name only) - -
Rolls - -
SABA - -
Saccs - -
Saisho - -
Salora 1956 present[1]
Salora International 1977 present
Sambers - -
Sampo Corp. of America 1981 present
Samsung 1989 present
Sanabria Television Corporation (American Television) 1960 -
Sandra - -
Sansui 1987 present
Sanyo 1953 present
SBR - -
Schaub Lorenz - -
Schneider Electric - -
Schneider (Germany) - -
Schneider (France, taken over by Philips) - -
Sears (Silvertone) - -
SEG - -
SEI - -
Sei-Sinudyne - -
Seiki Digital 2009 present
Selco (in India) 1980s -
Sèleco 1984 -
Sentra - -
Seura[2] 2003 Present
Sharp 1953 Present
Shorai - -
Siarem - -
Siemens AG - -
Silo Digital 2004 Present
Silver - -
Silvertone - (Sears) - -
Skyworth[disambiguation needed] 1992 Present
Sobell - -
Solavox - -
Sonitron - -
Sonoko - -
Sonolor - -
Sonora 1962 -
Sontec - -
Sony 1960 present
Soyo
- 2009
Soundwave - -
Standard - -
Stern - -
Stewart-Warner - -
SunLite TV - -
Sunkai - -
Susumu - -
Supra 1974 present
Symphonic Electronic Corp 1960 -
Symphonic Radio and Electronics 1952 -
Sysline - -
Tandy - -
Tashiko - -
Tatung Company 1979 present
TCL[disambiguation needed] 1981 Present
Tec - -
Technema - -
Technics - -
Technisat - present
Tecnimagen (formerly Philips Spain) - -
Technika - -
TECO - -
Teleavia - -
Telefunken - -
Telemeister - -
Teletech - -
Teleton - -
Teletronics 1970 -
Tensai - -
Texet - -
Thomson SA (Some sold under RCA and GE brands) 1940s? present (after bankruptcy some assets were sold to Videocon and TCL, continued as Technicolor)
Thorn Electrical Industries - -
Thorn EMI - -
Tomashi - -
Toshiba 1952 present
TPV Technology - present
TP Vision (joint venture between Philips and TPV) 2012 present
Travelers Electronics Co. 1954 -
Trinium Electronics Philippines 2006 Present
Triumph - -
Uher - -
Ultra - -
Ultravox - -
Universum - -
Vestel 1980s present
Videocon 1980s present
Videosat - -
Videotechnic - -
Viewsonic - -
Vision - -
Vistron - -
Vizio 2002 present
Vu - -
Waltham - -
Watson - -
Watt Radio - -
Westinghouse Digital 2003 Present
Weston Electronics (in India) 1980s -
White-Westinghouse - -
X2GEN - -
Yoko - -
Yoko (not a manufacturer, brand name only) - -
Zanussi - -
Zenith Radio 1948 present
Zonda
I agree with Jamis1, combine that with quantum dot solar cells and we have two technology advancements that can get significant numbers off the grid. Thanks Lineman.
Yeah but 4 cents to 40 cents was in the up direction the last time I looked. That was without revenue or contracts. Hmmm, wonder what it will do starting from this level with a revenue or contract announcement. All that negativity for 25 shares, was it worth the effort, just asking.
Ditto for me too! I think all the wives got together secretly at one point and developed their strategy to prevent us from buying more.
Merry Christmas and belated Happy Hanukkah to all, except the POS.
Bill
Sorry to hear of Lee's passing, my condolences to the family. 2014 was not a good year. We also lost Lynn (Quereka), both men were ardent supporters of the company. Hopefully 2015 will see their expectations come to fruition.
Old news now. It appears I lost a whole day. Whoever said retirement was boring is crazy. Waiting to see what comes out of CES next month.
QMC and Dr. Glass resolve issue amicably: http://www.sec.gov/Archives/edgar/data/1403570/000101376214001445/0001013762-14-001445-index.htm
Item 8.01 Other Events Earlier this year, Quantum Materials Corp. (the “Company”) announced that it had commenced legal action against Dr. Robert Allan Glass related to the termination of his employment agreement. In the lawsuit, the Company sought to recover all common stock and cancel all options issued to Dr. Glass as part of his employment agreement. Dr. Glass filed a counterclaim against the Company for breach of his employment contract seeking unpaid compensation. On December 12, 2014, the Company and Dr. Glass amicably resolved their dispute. Pursuant to the mutual release and settlement agreement executed by the parties, of the 5,000,000 shares of stock that were issued to Dr. Glass in connection with his employment contract, Dr. Glass will retain 2,400,000 shares of stock and has agreed to return for cancellation 2,600,000 shares of stock. In addition, Dr. Glass has agreed to forego all outstanding accrued salary and terminate all outstanding options. Further, in regard to the 2,400,000 shares retained by Dr. Glass, the parties agreed that Dr. Glass may sell up to 100,000 shares through an escrow agent in each of the first four weeks following the deposit of the retained 2,400,000 shares into an escrow account. Subsequently, Dr. Glass may sell up to 50,000 shares through an escrow agent in each week thereafter. The parties also executed a final, non-appealable agreed judgment that was submitted to the Court for its approval. 2
SIGNATURES
Pursuant to the requirements of the Securities Exchange Act of 1934, the Registrant has duly caused this Report to be signed on its behalf by the undersigned hereunto duly authorized.
QUANTUM MATERIALS CORP.
Dated: December 17, 2014 /s/ Stephen Squires STEPHEN SQUIRES
Trending on YAHOO - What the hell are quantum dots, and why do you want them in your next TV?
Read more: http://www.digitaltrends.com/home-theater/how-quantum-dot-lcd-tvs-work/#ixzz3M5I3m7iq
Follow us: @digitaltrends on Twitter | digitaltrendsftw on Facebook
Smart to accumulate and take advantage of the dip. What's coming long term is hard for most to comprehend or even imagine.
DEFINE GRABAGE, IT'S AT AN INTELLIGENCE LEVEL I DON'T COMPREHEND.
Notice who is missing from the list of KEY companies; Nanosys, Nanoco, 3M, Dow and QDVision. Hmmmm
It appears they didn't like the response to: http://www.pv-tech.org/news/are_utilities_facing_a_perfect_storm_from_disruptive_renewables
Comment• What is a disruptive renewable? A TETRAPOD QUANTUM DOT solar cell! Utilities have buried their carbon based business plan in the sand, with hopes not to be burnt by the suns rays. It will turn out to be a BIG mistake on their part. Up and coming companies like Solterra Renewable Technologies, Inc. are in the throes of bringing the next generation of economical solar cells to market. So what makes these solar cells unique that utilities should be worried about an unknown disruptive renewable? Two numbers - 24/7. This next generation solar cell will be able to produce power on cloudy, rainy, snowy and even at night, 24 hours a day, 7 days a week. Better yet they can be tuned to a specific environment to optimize its regional solar characteristics. The sun intensity in Iceland, Europe or North America and Canada is a lot different than in Brazil or along the equator. This day and night production of electricity uses solar cells that generate power from the ultraviolet, visible and infrared range. To be more descriptive, sunlight at zenith (climax or high point) provides a radiance of just over 1 kilowatt per square meter at sea level. Of this energy 527 watts is infrared radiation, 445 watts is visible light, and 32 watts is ultraviolet radiation. The wafer type solar cells available today can only process visible light. That leaves out over half of the energy available from IR and the remainder in the UV. 56% of the available energy to be converted to electricity is LOST using today’s solar cells. In the future using the Solterra Renewable Technology flexible solar cell you will be able to capture that lost energy in the IR and UV region. And what is really exciting about this new Nanotechnology with Tetrapod Quantum Dots is it’s absorption capability 24 hours a day! Add to that the advancements being made in the energy storage field using Quantum Dots and you have a disruptive technology emerging that the utilities should be embracing and not ignoring in the hopes it will go away. I believe they are underestimating the number of households that will go off grid once the technology is economical and available to the general public.
This BS WTF POS BOARD is a SCAM. If you take offense to this as the ADMIN and delete it why is it allowed on the QTMM board so BLATANTLY?????
I enjoyed the story and you're right the truth hurts, so I'm sure you'll have hit a nerve.
3D printed QLEDs bring one-production-step integrated conformal electronic components a step closer to reality in a LUX research report. https://portal.luxresearchinc.com/research/tidbit_excerpt/18342
I don't have access to the report so I googled 3d QLEDs:
http://www.nanowerk.com/spotlight/spotid=37985.php
Posted: Nov 05, 2014
Fully 3D-printed quantum dot LEDs
(Nanowerk Spotlight) To date, the 3D printing of electronic components has been limited to the printing of batteries, strain sensors, interdigitated-electrode capacitors and passive metallic structures such as interconnects and antennas on surfaces or within biological organs.
The ability to directly and seamlessly incorporate materials with a range of diverse functionalities with 3D printing is particularly attractive as it could allow the simultaneous, comprehensive, and direct printing of structural, biological, and electronic materials that capture the complete spectra of material properties.
The free-form generation of active electronics in unique architectures which transcend the planarity inherent to conventional microfabrication techniques has been an area of increasing scientific interest. Yet, attaining seamless interweaving of electronics is challenging due to the inherent material incompatibilities and geometrical constraints of traditional micro-fabrication processing techniques.
At the fundamental level, 3D printing should be entirely capable of creating spatially heterogeneous multi-material structures by dispensing a wide range of material classes with disparate viscosities and functionalities, including semiconducting colloidal nanomaterials, elastomeric matrices, organic polymers, and liquid and solid metals.
"The big push in 3D printing these days is to try to print two or more polymers at once," Michael McAlpine, an assistant professor of mechanical and aerospace engineering at Princeton University, tells Nanowerk. "In our latest research, we go way beyond that. We show that we can print interwoven structures of quantum dots, polymers, metal nanoparticles, etc, to create the first fully 3D printed LEDs, in which every component is 3D printed."
This demonstration represents a proof of concept in combining active nanoelectronic components with the versatility of 3D printing, which enables the three-dimensional free-form fabrication of active electronics.
3D printed quantum dot light-emitting diode (QLED)
3D printed quantum dot light-emitting diode (QLED) on a 3D scanned curvilinear substrate. This CAD model shows the QD-LED components and conformal integration onto the curvilinear substrate. (Reprinted with permission by American Chemical Society)
McAlpine and his team published their findings in Nano Letters ("3D Printed Quantum Dot Light-Emitting Diodes").
"Using this approach, we can create unique structures, such as 2x2x2 arrays of LEDs, in which the electrical wiring runs horizontal and vertical, to create a multi-color 3D stack of LEDs," notes Yong Lin Kong, a graduate student in McAlpine's group who led this project and first author of the paper. "We also use 3D scanning to carefully scan a contact lens and store the specific topology of that lens, and then alter our 3D printing to adjust to that topology, allowing us to conformally 3D print LEDs on a contact lens. This may have use in electronic contact lens or bionic eye applications in the future."
"This work outlines an exciting breakthrough that enables the direct printing of functional, embedded, active 3D nanoelectronics using only a 3D printer," he adds. "Indeed, this is the first time to our knowledge that semiconducting nanoparticles have been 3D printed, and the first time that such a broad array of diverse functional materials have been fully interwoven entirely using a 3D printer."
The team's approach consists of three key steps. First, it identifies electrodes, semiconductors, and polymers that possess desired functionalities and exist in printable formats. Next, care is taken to ensure that these materials are dissolved in orthogonal solvents so as not to compromise the integrity of underlying layers during the layer-by-layer printing process. Finally, the interwoven patterning of these materials is achieved via direct dispensing in a CAD-designed construct.
As a proof of concept of this approach, the researchers demonstrate the 3D printing of quantum dot light-emitting diodes (QLEDs), which involves the design, integration and printing of five classes of materials with distinct material properties.
"Specifically, we demonstrate the seamless interweaving of 1) emissive semiconducting inorganic nanoparticles; 2) an elastomeric matrix; 3) organic polymers as charge transport layers; 4) solid and liquid metal leads; and 5) a UV-adhesive transparent substrate layer," explains Kong. "The printed QLEDs exhibit excellent performance characteristics. The combination of 3D scanning and 3D printing allows for the direct printing of active functional electronics onto the precise topology of a non-flat object."
3D printed quantum dot light-emitting diode (QLED)
3D printed 2×2×2 multidimensional array of embedded QD-LEDs. (A) Layout of the multi-color 3D QD-LED array design. (Image: McAlpine Group)
He points out that, most excitingly, this approach allows for the free-form fabrication of multi-dimensional nanoelectronics within a complex, interwoven architecture such as a 3D array of embedded QLEDs.
The QLEDs printed by McAlpine's team capture the unique properties of quantum dots: tunable and pure color emission. Further, combining a complementary 3D light-scanning technique with this approach allows for the fabrication of electronics topographically tailored to curvilinear surfaces.
"We anticipate that this general strategy can be expanded to 3D print other classes of active devices, such as MEMS devices, transistors, solar cells, and photodiodes," says McAlpine. "Our results suggest a number of exciting applications, including the generation of geometrically tailored devices containing LEDs and multimodal sensors to provide a new tool for optogenetics for studying neural circuitry."
Co-printing of active electronics with biological constructs could also lead to new bionic devices, such as prosthetic implants that optically stimulate nerve cells.
According to the team, future work will address a number of key challenges. These include: 1) increasing the resolution of the 3D printer such that smaller devices can be printed; 2) improving the performance and yield of the printed devices; and 3) incorporating other classes of nanoscale functional building blocks and devices, including semiconductor, plasmonic, and ferroelectric.
By Michael Berger. Copyright © Nanowerk
Read more: Fully 3D-printed quantum dot LEDs
Share buying for those smart enough to See The Light with a new technology. SCAM? def; 'SCAM'...Seriously Creative Advancements in Materials Science.
Vuduu is right on the mark with PRETTY OUTSTANDING STOCK!
In July Quantum Materials Announced Outside Directors and Added A Scientific Advisory Board. Three fresh insights were added to the BRAIN TRUST to maximize growth potential by separating the business aspect from the scientific endeavors!
http://www.prnewswire.com/news-releases/quantum-materials-announces-new-outside-directors-and-adds-scientific-advisory-board-268077081.html
In November they added two more staff of significance:
Nov 19, 2014, 05:55 ET
• Eminent Nanotechnologist Dr. Michael Krueger Joins Quantum Materials Corp
• Leading North American quantum dot manufacturer Quantum Materials Corp (OTCQB:QTMM) today announced the appointment of Dr. Michael Krueger to the position of Vice President of Nanomaterials. Prior to joining Quantum Materials Dr. Krueger led groundbreaking research teams at the...
Nov 12, 2014, 05:59 ET
• Nanomaterial Processes Scientist Dr. Krishna Kowlgi Joins Quantum Materials Corp
• Quantum Materials Corp (OTCQB:QTMM) today announced that Dr. Krishna Kowlgi has joined the Company as Nanomaterials Process Engineer. Dr. Kowlgi is an experienced entrepreneurial scientist specializing in analytical and physical chemistry with inventions and commercialized technologies in...
• More news about: Quantum Materials
What Torrey Hills Capital had to say about QMC earlier this month Click here
Nice finds Stanley, thanks for digging those up. Since this is take two to your post can you go into your email and forward the original ihub email you received to me? My email is ih8aloss@yahoo.com. Thanks,
Bill
GAME-CHANGING STOCKS QTMM Set To Lead Quantum Dot Nanotechnology!
Received this in my e-mail along with all the other material but found some of the points here very apropos for QTMM. http://www.streetauthority.com/a/what-i-learned-well-known-stock-2500-458320
Andy Obermueller wrote: “Most of you know me as the Chief Strategist of Game-Changing Stocks. The entire focus of my advisory —and my investment philosophy —is to find those situations where the “rubber meets the road.” I’m talking about those profitable instances where a company, technology, or trend is really about to soar.
And while the goal sounds noble, my earnest intentions mean nothing if I don’t have a method to fit my aims. Of course, I do have a method. And the best news is that its main tenets aren’t difficult to put to work in your own portfolio…
First, research is the only way you’ll successfully find the next big thing. Most game-changers are ignored by media outlets until they’re bigger trends. By then the opportunity for the biggest profits has passed.
And believe me, I know whereof I speak. I was business writer and editor for years at some of the nation’s largest papers. By the time you read a story in The Wall Street Journal or Forbes or Barron’s, the smart money is already in and scoring profits. Now, I have a pretty big advantage of most investors. Much to the benefit of my readers, it’s my job to research these ideas. Most people simply don’t have the time.
My office is filled with clippings, newspapers, SEC reports, and magazines lying just about everywhere. (I read just about anything I can get my hands on.)(Sounds like some of the board members for QTMM on Investorshub http://investorshub.advfn.com/boards/board.aspx?board_id=15185)
But research is only one part of the process. To profit the most from game-changing ideas, you also have to be an investor.
Now we all consider ourselves investors —after all, we buy stocks, right? That’s not quite what I’m talking about.
When you hear about “game-changers,” I bet you think of stocks that rise dramatically nearly overnight. You buy in, hold for a few weeks or days and then sell after a quick run-up. But in my experience, real game-changers see strong returns for months and years. (This is what we are really talking about here and that is what gets me all excited. It was once said over on Motley Fool the secret to making a fortune in the stock market was to identify a unique growth business poised to dominate a mass market. If QTMM and their quantum dots doesn’t fit that bill, I don’t know what does.)
Look at shares of Apple (Nasdaq: AAPL). It was more than seven years ago when shares traded at $13. Now they’re at $337. That’s a gain of nearly 2,500% (An update as of 7-25-14 – “Apple is up 6000% since 2004?)
And if you look at the biggest winners in the market’s history, it’s the exact same story.
Walmart (NYSE: WMT) didn’t grow to a national presence overnight. Its shares didn’t soar for just a few weeks either. Microsoft (Nasdaq: MSFT) may have grown quickly, but even those with the foresight to buy shares in the ’80s wish like hell they had hung on to them. As long as the trend behind an investment is still moving positively, I want to be profiting from it. And I have no problem seeing profits build year after year after year.
Many happy returns . . .
Andy Obermueller Chief Investment Strategist —Game-Changing Stocks”
Hope Andy’s point of view helps some of those on the fence make their decision. “I think this stock is a long term investment, say 20 – 25 years. Imagine the first 5-10, (after confirmation) will be the glory years with the next 10+ good for growth/dividends, (jmho).” That’s right in line with Mr. Obermuellers message here. But you have to take some $’s off the table at some point and not feel like you made a mistake. Just don’t get greedy.
Good luck and do your DD before investing.
Bill
APPEARS BUYING THE VIRGINIA TECH 3D TECHNOLOGY WAS A VERY SMART MOVE!
from todays trade show:
3D Printing A 7 Billion Dollar Market By 2025
You are absolutely right on. After following for 5 years you get a good feeling and knowledge of the type of management style and it is without a doubt run by someone with high ethical standards. Waiting for the day the investment world realizes this isn't a penny stock and this baby starts to run!
Future is looking very exciting and the best is the growth will continue for years!
I agree with you Kinnaree QMC is building a very strong team to support growth in many areas! I think his expertise in GRAPHENE Oxide will also be a huge contribution in the future.
Bill
NEW PATENT APPLICATIONS FOR QUANTUM DOTS EXPLODING!
You have requested to be notified of new patent applications according to your search criteria. To see the new patent applications, please click the link below. Alert for phrase quantum dot : Application ID Title Inventor Phrase usage example 20140332723 QUANTUM DOT (QD) DELIVERY METHOD Juanita N. Kurtin, Michael Jansen QUANTUM DOT (QD 20140332821 SEMICONDUCTOR DEVICE, LIGHT EMITTINGDEVICE USINGTHE SAME, AND LIGHT EMITTING DEVICE PACKAGE INCLUDINGTHE SAMEJung Hun Jangquantum dot structure. For example, the active layer 44 may have an MQW 20140332829 LIGHT SOURCE MODULE Fu-Cheng Fan light-emitting element, and a quantum dot element. The light guide 20140332830 LIGHT SOURCE MODULE AND ELECTRONIC DEVICE Fu-Cheng Fan, Chih-Jen Hu element and a quantum dot element.The lightguiding plate has a light 20140332839 LIGHT EMITTING DEVICE PACKAGE Byeong Kyun CHOI, Jae Won SEO, Sung Ho CHOO structure, a quantum dot structure, and a quantum wire structure. The 20140332849 SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME Jung Hun JANG quantum dot structure. For example, the active layer 54 may have an MQW 20140333679 IMAGE ADJUSTING METHOD, LIGHT SOURCE MODULE AND ELECTRONIC DEVICE Fu-Cheng Fan red light quantum dot component and a green light quantum dot component, 20140333977 DISPLAY DEVICE Chi-Sun HWANG, Hye Yong CHU, Jong Sool JEONG source device based on a quantum dot light emitting diode (QD-LED 20140334005 SIGNAL ENHANCEMENT BY SILK PHOTONIC CRYSTALS Fiorenzo Omenetto, David Kaplan, Sunghwan Kim small molecule, protein or quantum dot. Several techniques exist to 20140334181 BACKLIGHT UNIT OF DISPLAY DEVICE AND WHITE LED Che chang HU, Yong FAN red-green-blue (RGB) quantum dot phosphor layer is arranged in a path of 20140335184 NANOPARTICLE ASSEMBLY, PREPARATION THEREOF, AND ACTIVE MATERIAL DELIVERING COMPOSITE COMPRISING THE SAME No-kyoung PARK, Kyu-hyun IM, Jae-hyun HUR quantum dot. 20140335186 METHODS AND COMPOSITIONS FOR ENHANCING CD4+ REGULATORY T CELLS Takashi Kei Kishimoto, Roberto A. Maldonado (e.g., metal particle, quantum dot, ceramic particle, bone particle, 20140335464 ORAL ILLUMINATION SYSTEMS AND METHODS Edward S. Boyden, Alistair K. Chan, Roderick A. Hyde, Jordin T. Kare, Lowell L. Wood, JR. 204 may be an LED, an OLED, a quantum dot, an incandescent bulb, or any 20140335469 ORAL ILLUMINATION SYSTEMS AND METHODS EDWARD S. BOYDEN, ALISTAIR K. CHAN, RODERICK A. HYDE, JORDIN T. KARE, LOWELL L. WOOD, JR. 204 may be an LED, an OLED, a quantum dot, an incandescent bulb, or any 20140335513 HYBRID NANOPORE DEVICE WITH OPTICAL DETECTION AND METHODS OF USING SAME Martin Huber, Bason E. Clancy [0049] One example of a Quantum dot which may be utilized as a pore label 20140335527 SYSTEMS AND METHODS FOR MOBILE DEVICE ANALYSIS OF NUCLEIC ACIDS AND PROTEINS Anita Goel quantum dot module, a module using nanoparticles such as gold 20140336055 GENETIC MARKERS FOR MACULAR DEGENERATION DISORDER TREATMENT Gregory HANNUM, Karsten E. Schmidt or Osmium); quantum dot fluorophores, isothiocyanate fluorophore 20140336061 METHODS FOR OPTICALLY ENCODING AN OBJECT WITH UPCONVERTING MATERIALS AND COMPOSITIONS USED THEREIN RobertC. Haushalterinventionfrom emissions from organic dye and quantum dot reporters. 20140336068 MAGNETIC IMMUNO DIGITAL PCR ASSAY Shawn Hodges, Nick Heredia, Jonathan Petersen fluorescent agent is a polymer dot or a quantum dot. Fluorescent dyes and 20140336071 DEVICES, COMPOSITIONS, AND METHODS FOR MEASURING MOLECULES AND FORCES Khalid S. Salaita, Carol Schumacher, Daniel R. Stabley quantum dot, and fluorescent protein. 20140336514 METHODS TO REGULATE POLARIZATION AND ENHANCE FUNCTION OF CELLS Gholam A. Peyman A quantum dot-targeting agent complex is administered to a patient in 20140337612 SYSTEMS AND METHODS FOR INTERACTING WITH A QUANTUM COMPUTING SYSTEM Colin P. Williams quantum processors, quantum dot quantum processors, etc. Regardless of
WHAT YOU’RE MISSING and WHY you’ll stay BROKE! You’re missing the technology revolution in nanotechnology by reading the message board instead of doing your research!. It’s about quantum dots. One company is Quantum Materials Corp, QTMM
DON'T HAVE TIME TO MAKE IT PRETTY, GOT TO GO. ENJOY YOUR $$$$$
<strong>Latest Audio:</strong>
October 2014: <a href="http://www.qmcdots.com/videos.php" target="_blank" rel="nofollow">QMC's CEO Clear Channel Radio Interview</a>
Latest Videos:
Sept. 2014: <a href="http://www.qmcdots.com/videos.php" target="_blank" rel="nofollow">Click HERE to view 4 short TV interviews with Tetrapod Quantum Dots being produced before your eyes at qmcdots.com/videos!</a>
June 2013: <a href="
Latest press releases:
November 5, 2014: <a href="http://www.prnewswire.com/news-releases/quantum-materials-corp-to-quadruple-lab-space-and-add-scientists-281586211.html" target="_blank" rel="nofollow">"Quantum Materials Corp to Quadruple Lab Space and Add Scientists"</a>
October 1, 2014: <a href="http://www.prnewswire.com/news-releases/quantum-materials-scaling-up-photoactive-quantum-dot-production-for-solar-power-generation-277714621.html" target="_blank" rel="nofollow">"Quantum Materials Scaling Up Photoactive Quantum Dot Production for Solar Power Generation"</a>
August 20, 2014: <a href="http://www.prnewswire.com/news-releases/quantum-materials-acquires-bayer-technology-services-quantum-dot-manufacturing-and-quantum-dot-solar-cell-patents-271967701.html" target="_blank" rel="nofollow">"Quantum Materials Acquires Bayer Technology Services Quantum Dot Manufacturing and Quantum Dot Solar Cell Patents"</a>
August 20, 2014: <a href="http://www.plusplasticelectronics.com/Lighting/quantum-dot-displays-to-launch-in-2015-118744.aspx" target="_blank" rel="nofollow">"Quantum dot displays to launch in 2015"</a>
Latest IR release:
This newsletter is Courtesy of Torrey Hills Capital, Quantum Materials Corps’ new Investor Relations firm:
OTCQB: QTMM
10/31/14
Happy Friday Everyone!
I am going to start out today's post with a quote from the notorious but often sage Michael Douglas character from the iconic 1987 movie Wall Street:
"The most valuable commodity I know of is information." Gordon Gekko
In the micro-cap realm we continue to find this to be a very true statement. These inefficient, choppily traded markets can work to an investors advantage by leveraging information that is public but has not yet been picked up on by the mainstream investment community. We see this phenomenon as being the case with quantum dot/nanomaterials pioneer Quantum Materials Corp. (OTCQB: QTMM) - note: for those not familiar with quantum dots, and it's ok if you're not because we just got up to speed on this recently - they are incredibly small, man-made chrystalline semi-conductors - 5 to 50 nanometers in diameter that harness the incredible power of light photons.
We are perched on the razor's edge of one of, if not the biggest fundamental technology shift in our lifetime: the age of quantum materials - and specifically the use of "quantum dots" to harness the unique properties of light to drive a myriad of major advancements in consumer and industrial products ranging from materially richer color display panels for TV's and handhelds, to highly efficient solid state lighting and medical diagnostic equipment to eventually next gen, high-yield solar cells that will be competitive and likely cheaper sources of energy than existing fossil fuels.
And in case you think this is just us drinking the Kool-Aid, here's an excerpt from an article out just this week quoting UBC physics professor and quantum dot researcher Andrea Damascelli on the future of quantum dots that puts this paradigm shift into perspective:
Damascelli believes quantum materials will have a bigger impact on our lives than the semiconductor, which was invented in 1947 and laid the groundwork for the integrated circuit and the computer revolution that has so shaped the contemporary world.
“Today, I feel that we’re on the cusp of an even bigger revolution,” Damascelli said Monday. “This is a quantum material revolution, which I believe will have a much larger impact on our lives.”
There is so much to talk about regarding quantum dots and how this burgeoning technology is going to likely affect just about everything in the tech sector over the next five years - but today I just want to focus on the near term driver in quantum dots - what's happening right now that you need to be up to speed on (and most importantly how you can position yourself in this rapidly approaching market shift) -
. . . . .the flat panel display marketplace.
Earlier this week, LG and Samsung backed up earlier statements informing the markets that they will be developing flat panel displays in 2015 incorporating quantum dots to drive the red, green, blue (RGB) color spectrum in these displays in order to create a much richer viewing experience/color gamut. They are doing this now to drive quality into their upper echelon product lines due to the fact that they have been unsuccessful in driving manufacturing costs out of their OLED line of displays (mostly due to high scrap rates). Quantum dots yield a visually similar (if not superior in terms of lowering power consumption, especially important in hand held battery powered devices) color gamut display panel to OLED and most importantly at a reduced manufacturing cost and can be incorporated directly into existing panel manufacturing lines. The end game here is to put displays on the market that "look like" OLED but "cost out" similar to LED/LCD displays - and once you see the quality of these next gen displays, it will be very hard to continue to watch the LCD TV you currently have in your home/office (yes the upgrade in color/contrast quality is THAT DRAMATIC - this new class of TV's/displays are just "off the chart" incredible!).
Here's one use for quantum dots you wouldn't think of right off the bat: HOT BEARING DETECTION SYSTEM by thermally emitted radiation. http://www.faqs.org/patents/app/20140321501?emailalert=1 Uses keep growing every day! I believe Damascelli is right with his observation: “This is a quantum material revolution, which I believe will have a much larger impact on our lives.”
Clays article for Torrey Hills is spot on. Thanks Crunch.
Bill
QTMM - Audio file - video - write-up - site
Audio interview from Oct. 1, 2014
http://drive.google.com/file/d/0B03CegsXfYLORUdhYlRUV2FDVjA/view?usp=sharing
This is one of the articles I wrote: Quantum Dots – What’s It About?
http://solterra1.wordpress.com/2014/03/03/quantum-dots-whats-it-about/
This is a quick video from their local TV station (1 of 4):
QTMM - Quantum Dots – What’s It About?
http://solterra1.wordpress.com/2014/03/03/quantum-dots-whats-it-about/
This is a quick video:
We'll see what kind of impact and reach this radio station really has with investors. My daughter may get a really nice birthday present today and it didn't cost me a dime!
"MORE INTERESTED IN WHAT IT DOES FOR THE CONSUMER" was Steve's answer to the question what does it mean to businesses. Perfect answer to impress the shows audience, the end user that will be using the products. GREAT INTERVIEW in layman terms.
Sorry Demdots. I wasn't referring to you. Don't take it the wrong way I was trying to show that it's a big positive for the company, imo.
Getting the 10k out on time is a significant event in itself. Sounds silly but it's about building credibility. After a few false starts in the past it was important they nailed this one. Large companies and investors like to see goals, projects and commitments accomplished on time. So as insignificant of an accomplishment this may seem to you, it is a big deal in the business world.
I want to know just how much could that NDA for autoglass really be worth in the future? Are you talking windshields that change color like you change your lenses on ski googles? Would signage be integrated into the security system so windows display, "STOLEN CAR - CALL 911 - REPORT LOCATION". Would a company like Tesla incorporate solar into the windows for charging? Really, how much autoglass is there in the world to make it worth the companies time to manufacture TQD's for such lame uses?
Wynn, sounds like you have a temporary case of buyer's remorse, I think that's better than a permanent case of seller's remorse.
LOOKING GOOD!
BILL