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From the supplemental information filded on 14.02.12:http://www.otcmarkets.com/financialReportViewer?symbol=TLNUF&id=116203
"The management team is currently securing a number of contracts and acquisitions to ensure increased value to everyone’s shares. We are very close to making a number of major announcements that will with no doubt improve the share value and in turn, prove that making an investment in Telecorp, Inc. is a very wise choice"
While we are presently in the acquisition stage, there will be opportunities for Telecorp to be acquired by a conglomerate. This of course would significantly increase our company’s worth as well as share value by giving each investor the opportunity to capitalize on their investment with Telecorp.
Acquisitions of $50 million to a billion are rather common in this industry particularly after the market conditions improve.
seekingalpha.com/article/1962461-shares-of-vringo-jump-22-percent-after-work-around-ruling-are-you-capitalizing-on-this-big-opportunity?source=nasdaq
there is to be a demand of WDAS stocks today
PM 0.028 / 0.032
Up 453 % premarket? Lol first trade 500 shares @1,34
Climbs its way back up ..we might see .35 today
I m too, my target .4
Thanks jz
This should be stickied thanks
Dr it might be a good idea to post the excerpt of the S1 with that info thanks!
This one is not stopping its way forward before 0.1 minimum .... IMO
Those selling now will soon regret it or chase later IMO.
This company is legit and making business. Let's talk about that in a month or two...GLTA
and growing orders from Italy, US and India + 5 additional patents!!!
That is excellent news: the company is heading north and seems to make the appropriate steps to stay alive and even become profitable. I think yesterday was only day #1 of a long upward move for CERP
This is good news if we think of it
Effective January 18, 2013, Cereplast, Inc. (the “Company”) entered into a payment agreement dated January 15, 2013 with Magna Group, LLC (“Magna”) and the holders of the Company’s 7% Convertible Senior Subordinated Notes (the “Notes”) issued by the Company in the aggregate principal face amount of $12,500,000 pursuant to the Indenture dated as of May 24, 2011 (the “Indenture”) to provide for payment of interest on the Notes which was due on June 1, 2012 and December 1, 2012. The payment agreement also provides for payment of interest which will be due on June 1, 2013. Payments in the agreement will be made by Magna to the Holders in tranches. In connection with the execution of the payment agreement, the holders waived the event of default and agreed to forbear from exercising their rights and remedies under the Indenture with respect to the Company’s failure to make interest payments that were due on June 1, 2012 and December 1, 2012.
Seems to be a reversal here, let's wait
Nice article on CERP from December, 14th 2012
http://plasticsengineeringblog.com/2012/12/14/can-lowly-algae-save-the-planet/
Can Lowly Algae Save the Planet?
Posted on December 14, 2012 by Jan Schut By Jan H. Schut
May be yes. May be no. They’re already grown on an industrial scale to make anti-aging pharmaceuticals and nutrients. But can algae also clean up industrial waste water and polluted fish farms? Convert CO2 emissions from utility and ethanol plants into oxygen? Make bioplastics? And replace fossil fuels? Those are tall orders for pond scum, but the emerging algae industry is targeting all of them—sometimes two or three at once.
BioProcess Algae LLC in Portsmouth, R.I. (www.bioprocessalgae.com), for example, just started up its first full size commercial algae plant on five acres next to Green Plains Renewable Energy Inc.’s bio ethanol plant in Shendandoah, Iowa (www.gpreinc.com). The algae farm eats CO2 emissions from the ethanol plant and produces animal nutrients. Algae carcasses after the nutrients are removed can potentially be used in bioplastics. BioProcess’ chief technology officer Toby Ahrens says they have been contacted by several research groups asking to sample algae residues for plastics.
BioProcess Algae’s new commercial algae farm next to Green Plains Renewable Energy’s ethanol plant in Iowa eats CO2 emissions from the ethanol plant and produces animal nutrients. Algae carcasses after the nutrients are removed can potentially be used as a filler in bioplastics.
The Algae Biomass Organization in Denver (www.algaebiomass.org), a four-year-old trade group formed to promote industrial algae, says the rapidly growing industry is already $1.2 billion/year. But that’s actually the value in 2010 of pharmaceutical algae (carotenoids) alone. (Pharmaceutical powders with 5-10% active carotenoids can also cost $300 to $3000/kg, according to a recent paper by Herminia Rodrigues, professor of biochemistry at the University of Seville in Spain.) All the other industrial applications for algae–waste water cleanup, CO2 emission abatement, bio fuel and bioplastics–are in stages of R&D or early commercialization.
Algae are single- or multi-celled organisms that can grow in water either alone or in strings or colonies. They can be macro like seaweed or micro like slime. They can be photosynthetic getting energy from sunlight, breathing in CO2 and respiring oxygen, then at night reverse and breath in oxygen and out CO2. Algae can also be heterotrophic, getting energy from sugars and continually respiring CO2. Brown algae, like Phaeophyceae, are usually marine and are used to remove heavy metals from water. Green algae are usually in fresh water, like macro algae found in fish farms, or microalgae Chlorella and Spirulina, which are used to purify waste water and remove CO2. The ritzy carotenoid-producing algae used by the pharmaceutical industry can be yellow and bright orange. Cyanobacteria are photosynthetic bacteria, not algae, also being developed to produce biomonomers and abate CO2.
Algae use in bioplastics is in its infancy. Three companies have published or announced blending algae into thermoplastics. Cereplast Inc., a compounder of starch-based biopolymers in El Segundo, Calif. (www.cereplast.com) compounds post-industrial algae into thermoplastics. Algix LLC in Bogart, Ga. (www.algixllc.com), a spinoff in 2010 from the University of Georgia in Athens (www.uga.edu), is developing blends of unprocessed algae into thermoplastics under a global license (U.S. Pat. Applic. # 20100272940) from Kimberly-Clark Corp. (www.kimberly-clark.com) in Irving, Texas (see this blog posted Nov. 8, 2011).
CEREPLAST COMMERCIALIZES WORLD’S FIRST ALGAE PLASTIC
In September 2009 Cereplast announced that it had successfully blended algae into PP. Cereplast had just licensed patented technology for making bio-content degradable polymers (U.S. Pat. # 7608649) from the University of Arkasas in Fayetteville (www.uark.edu) and wanted to offer algae-content in degradable polymers. But Cereplast assumed that post-industrial algae wouldn’t be available in large enough quantities until algae biofuels became commercial. Instead Cereplast found postindustrial algae were already available.
Different kinds of algae have different starch, fat, protein and fiber content, but post-industrial algae, which consists of the carcasses or cell walls left over after oil or medicinal contents have been extracted, is largely lignin and cellulose and fairly consistent regardless of algae type. “We care more about the industrial process the algae comes from than about the kind of algae,” says Cereplast senior v.p. of R&D Kelvin Okamoto.
Cereplast first developed algae-content thermoplastic in 2010 and introduced it commercially this year as Biopropylene 109D with 20% post-industrial algae biomass in PP. Biopropylene 109D is designed for thin-walled injection molding with density of 0.94 g/cc, melt flow index of 24 g/10 min. at 190 C and flex modulus of 125 kpsi (see data sheet). The first commercial application is for luxury hair accessories injection molded in France for the Barrette Factory in Hollywood, Calif. (www.dominiqueduval.com), which promotes Cereplast’s algae plastic on its website. Algae add some desirable properties, especially soft haptics, a natural feel, and better grip for hair products, says Jane Gauthier, designer for the Barrette Factory.
The first commercial algae-thermoplastic products in the world are a line of luxury hair accessories injection molded in France for The Barrette Factory. They use a new grade of 20/80 algae/PP compounded by Cereplast and boast improved haptics and a natural feel.
Properties of Cereplast’s New Biopropylene 109D
Algae content, % 20
Density, g/cc 0.94
Tens. Strength @ max., psi 3,460
Tens. Elong. @ break, % 3.3
Tens. Modulus, kpsi 240
Flex. Modulus, kpsi 125
Flex. Strength, psi 3,630
Gardner Impact, in-lbf 20
MFI 190 C @ 2.16 kg 24 g/10 min
MFI 230 C @ 2.16 kg 78 g/10 min
In packaging algae they can add biodegradability. Cereplast has experimental grades with up to 50% algae content. Algae also add color, either green or brown, and unfortunately odor. Both depend on the type of algae and the industrial process it comes from, so Cereplast keeps algae from different post-industrial sources separate. “Algae smell like the ocean,” notes BioProcess’ Ahrens, “but they shouldn’t smell like the ocean at low tide.” Processing algae to remove nutrients or oil reduces the odor, but when a closed box of plastic pellets with algae content is opened, it still smells. Secondary processing, however, for example by injection molding, reduces the odor further, so that Barrette Factory’s Gauthier says odor isn’t an issue.
ALGIX IS SCALING UP BLENDS OF ALGAE WITH PP AND PBAT
Algix this year received a $100,000 grant from the University of Georgia and $500,000 of private capital to scale up production of algae-content bioplastics. Algix initially took dried algae cultivated from waste water cleanup from Ven Consulting LLC in Melbourne, Fla., and ground it with a hammer mill to a particle size of around 250 microns. The algae was then compounded into polypropylene at up to 50% loading and extruded into sheet at Interfacial Solutions LLC, a contract R&D company in River Falls, Wis. (www.interfacialsolutions.com). Algix’s director of R&D Ryan Hunt notes that about 500 microns was the thinnest sheet they could make. Hunt had been in communication with Dordan Manufacturing Co. in Woodstock, Ill. (www.dordan.com), which wanted to test the new algae/PP sheet, so Algix sent Dordan the test roll. Dordan formed it and showed algae/PP test samples at Pack Expo in Chicago in October.
Algix, a spinoff from the University of Georgia, is scaling up compounds of green microalgae with PP and the biopolymer PBAT. Target applications are for sheet for thermoforming and injection molding of containers for lawn and garden products.
Algix next tried jet milling the dried algae to finer particle size (10 microns) and compounded it into both PP and poly(butylene adipate-co-terephthalate). In January 2013 Algix plans to make a larger run of 2000 lb of dried algae, compounded into both PP and PBAT to sample to companies that want to develop applications with it. One potential application is for injection molded containers for lawn and garden products, Algix’s Hunt says, where odor won’t be an issue. For injection molding the particle size of the algae doesn’t have to be quite as small as for thin films for packaging, Hunt adds.
ALGAE CAN ALSO MAKE BIO-POLYMERS
Growing algae to make jet fuel and gasoline, the application the government likes to talk about the most, is probably the farthest from commercialization, though there are over 30 start-up companies in the U.S. alone working on it. The criticism leveled at algae biofuel technologies is that they consume way too much fresh water and energy for aeration to be environmentally sustainable. The advent of inexpensive shale gas in North America is also likely to slow algae biofuels. But some algae biofuel companies target making chemical intermediates like bio ethanol and lactic acid for biopolymers.
Algenol Biofuels Inc. in Bonita Springs, Fla. (www.algenolbiofuels.com), has selectively enhanced cyanobacteria (U.S. Pat. Applic. # 20100297736 and 20120142066), which live in salt water, eat CO2 from industrial waste, and give off ethanol and fresh water without killing the bacteria. This saves time and resources needed to grow new bacteria and the cost of separating ethanol. Algenol is building a farm of closed plastic reactor tubes in Lee County, Fla., hoping to produce ethanol for around $1/gallon. “We also would consider converting ethanol into ethylene,” says Algenol’s chairman and CEO Paul Woods.
Incubators for the ethanol producing (genetically engineered) cyanobacteria–a photosynthetic bacteria.
Inventure Chemical Inc. in Tacoma, Wash. and Tuscaloosa, Ala. (www.inventurechem.com), uses a catalytic reaction and esterification technology (U.S. Pat. Applic. # 20110162951) to convert algae to chemical intermediates like ethanol and also recovers starch and cellulose.
A new research group in Germany from the Institute for Synthetic Microbiology (www.synmikro.com), set up in 2010, with Philipps University in Marburg (www.uni-marburg.de) and Westfaelische Universitaet Muenster (www.uni-muenster.de), has come up with the first algal production of poly-3-hydroxybutyrate (PHB). Researchers injected the diatom Phaeodactylum tricornutum with three bacterial enzymes that together make PHB. After seven days, the algae accumulated granules of PHB up to 10.6% dry weight. That’s less far efficient than bacteria, which can yield 80wt% PHB, but with photosynthesis algae could be less expensive to grow.
A new research group in Germany at Synmikro has developed the first PHB from algae cells, which in seven days accumulated 10.6wt% PGA. That’s less efficient than bacteria, which can yield 80wt% PHB, but could be less expensive to grow because of photosynthesis.
Interesting high value polysaccharide polymers are also being extracted directly from specialized algae. Georgia Institute of Technology in Atlanta (www.gatech.edu) and Clemson University in Clemson, S.C. (www.clemson.edu) discovered a polysaccharide from brown marine algae that could allow greater energy storage in lithium ion batteries. The materials are being developed by Sila Nanotechnologies Inc. (www.silanano.com), a spinoff from Georgia Tech. Marine Polymer Technologies Inc. in Danvers, Mass. (www.marinepolymer.com) extracts chitin from brown algae, then extracts N-acetylglucoseamine monosaccharides from the chitin. It’s used to make dressings that can stop bleeding even from open wounds.
AMBS seems to be willing to close green today, we'll see
NEWS!!!!!
Cereplast Announces Commercialization of Cereplast Algae Bioplastics(TM)
PrintAlert
Cereplast, Inc. (OTCQB:CERP), a leading manufacturer of proprietary biobased, sustainable bioplastics, today announced the commercialization of Cereplast Algae Bioplastics™ with the introduction of Biopropylene® 109D.
Cereplast identified a post-industrial algae source that does not rely on the commercialization of biofuel production, allowing the company to commercialize Cereplast Algae Bioplastics sooner than anticipated. Additionally, the Cereplast Research and Development team has discovered a post-industrial process that significantly reduces the odor that is typically inherent to algae biomatter.
Biopropylene 109D is an injection molding grade manufactured with 20% post-industrial algae biomatter. The renewable resource content significantly reduces the carbon footprint of the final product while reducing the petroleum-based plastic content. The algae biomass used by Cereplast are byproducts from algae biofuels and nutritionals, resulting from industrial processing to extract specialty chemicals. Biopropylene 109D can be processed on existing conventional electric and hydraulic reciprocating screw injection molding machines, and is recommended for thin wall injection molding applications.
Chairman and CEO of Cereplast, Mr. Frederic Scheer, commented, "Since 2008 our team has developed and extensively tested algae-filled grades of bioplastics, and more recently has perfected this specific grade which is now ready for commercialization. We have several customers evaluating this technology and anticipate generating revenue from it during the first half of 2013. We strongly believe that our technology leads the algae bioplastic market and presents yet another revenue stream opportunity as we head into 2013."
About Cereplast, Inc.
Cereplast, Inc. (OTCQB:CERP) designs and manufactures proprietary biobased, sustainable bioplastics which are used as substitutes for traditional plastics in all major converting processes - such as injection molding, thermoforming, blow molding and extrusions - at a pricing structure that is competitive with traditional plastics. On the cutting-edge of biobased plastic material development, Cereplast now offers resins to meet a variety of customer demands. Cereplast Compostables® resins are ideally suited for single-use applications where high biobased content and compostability are advantageous, especially in the food service industry. Cereplast Sustainables® resins combine high biobased content with the durability and endurance of traditional plastic, making them ideal for applications in industries such as automotive, consumer electronics and packaging. Learn more at www.cereplast.com. You may also visit the Cereplast social networking pages at Facebook.com/Cereplast, Twitter.com/Cereplast and Youtube.com/Cereplastinc.
The Cereplast, Inc. logo is available at http://www.globenewswire.com/newsroom/prs/?pkgid=9567
Do you know the precise AS?
CERP book value $ 0.51
CERP book value $ 0.51
Everything is made to make you sell , shorts Will have to cover for sure, company not bankrupt for now you sell you lose
http://ih.advfn.com/p.php?pid=news&symbol=CERP
Stop loss taken out watch out
Look at the recent news : shares acquired by a private fund and a new loan granted to CERP : potential up from here
Isn't there a triple bottom chart forming?
never say never in pinkies
will close green imho
no just referred to a deleted post that suggested the Chinese offer was rejected. I do not see any supporting evidence of that
On the contrary! , according to this article, they accepted the offer but it is not yet consumated
Beware of false allegattions
http://finance.yahoo.com/news/cost-effective-lithium-battery-solution-120201175.html
ok thanks!
DJ CEO PAGE Sells 41,666 Of GOOGLE INC >GOOG
SOURCE: Form 4
ISSUER: GOOGLE INC
SYMBOL: GOOG (CL A)
FILER: PAGE LAWRENCE
TITLE: Chief Executive Officer
DATE TRANSACTION SHARES PRICE VALUE
10/9/12-10/10/12 Sale 41,666 $746.19 $31,090,544
(10b5-1 Plan Indicated)*
OWNERSHIP: 80,000 (Direct)
* - A 10b5-1 plan enables an insider to establish a program to make trans-
actions according to an advance plan. Such a program allows an insider
to continue with planned transactions even if he or she comes into
possession of material non-public information.
The Form 4 is filed with the Securities and Exchange Commission by insiders
to report transactions in their companies´ shares. Open market purchases
and sales must be reported within two business days of the transaction.
Insider Data Source: The Washington Service
(info@washingtonservice.com or 301-913-5100)
(END) Dow Jones Newswires
October 10, 2012 19:58 ET (23:58 GMT)
0.1649 / 0.165(1 x 1) pretrading http://www.otcmarkets.com/stock/TAGG/quote
NEWS TagLikeMe Corp. Invests In Social Mobile Market Ahead Of Industry Data Projecting $20.6 Billion In Ad Spending By 2015
Fat finger?
Mine too....
CBD Managing Director & CEO, Gerry McGowan said, "We are and continue to be fully committed to the merger with Westinghouse Solar. Our collaborative efforts over the past few months, in our Italian commercial project joint venture, our EPC project in New Jersey, and the distribution of modules through Harvey Norman in Australia, should attest to our unwavering dedication to the proposed merger. CBD has already applied for listing on the NASDAQ stock exchange and, if approved, the merged entity will be listed on NASDAQ. We fully support Westinghouse Solar's decision."
:::meaning: what's the purpose of a R/S if we get back to the NAS once merged?
"As a result of the NASDAQ's determination to cease listing its shares, the company has decided that it will not seek shareholder approval for a reverse stock split, and is cancelling its previously announced special shareholder meeting that was scheduled for September 13th."