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Everything looks great going forward for Coretec .They are in good shape financially ,have a great new technology ,great management ,a partnership with a major well respected chemical manufacturer, customers and partners they are in high level conversations with that Coretec said they are excited about getting those conversations converted into agreements to commercialize CHS .The future looks very good to say the least and on top of that the stock is at a great place to buy , way undervalued , and Coretec has a super low float and no dilution to speak for shareholders.Im extremely excited about things going forward !!!!
All in all the 10Q looks GREAT for a start up company just getting its new technology out on the market .Coretecs management is doing a fantastic job of moving this thing forward and is on the right path that will result in great success for Coretec !!!
New 10 Q shows Coretecs insider Simon Caltons company is handling some of the financing of Coretec , this is huge Coretec is doing business for funding with one of Coretecs Board members when they need some cash .REVENUE IS COMING SOON !!!! ABSOLUTELY NO WORRIES ABOUT FUNDING FOR THE COMPANY AS CORETECS OWN PEOPLE FUND THE COMPANY AND REVENUE IS COMING SOON !!!
Subsequent to June 30, 2018, CJND, a company owned by Mr. Simon Calton, Co-Chairman of the Board of Directors, advanced an additional $40,000 under the terms of the 14% term loan.
10Q great news !!! company paid NDSU zero of the $139,789 after the dispute was settled !!
Under the terms of the Exclusive License Agreement (the “License Agreement”) signed on June 16, 2016 with North Dakota State University Research Foundation (“NDSU/RF”), the Company was delinquent on payments of $139,789 and unable to meet certain milestones. A dispute arose between the Company and NDSU/RF regarding compensation and deliverables. The License Agreement was renegotiated with NDSU/RF and on June 29, 2018, the Company entered into a settlement agreement and general release (the “Settlement Agreement”) with NDSU/RF to resolve the dispute, pursuant to which the Company and NDSU/RF fully and forever released each other from the License Agreement and mutually released each other of all claims. Accordingly, the Company recognized a gain of $139,789 for the settlement of accounts payable during the three months ended June 30, 2018.
Outstanding share count last quarter 67,582,970 and this quarter 68,105,598 !! Beautiful !! great to see just as i expected no dilution to speak of this is fantastic to see !!! Great things ahead float extremely small !!!
Pegs 10 Q is out !!
Pegs Coretec is going to do VERY WELL !!!!
From Michael Kraft and Coretecs VP of Technology article yesterday !!! The Future is very bright for Coretec !!!
Turning Potential to Reality
The development of silicon anodes for lithium ion batteries has also been hampered by commercially scalable methods to produce nanostructured materials with well-defined size and morphology, with characteristic sizes below 150 nm. Traditional top-down methods, including ball milling, are inexpensive and yield silicon materials with high degrees of agglomeration, relatively large particle sizes, and poorly defined morphologies and surfaces. Metal assisted chemical etching is an alternative method that has been explored to synthesize silicon nanomaterials. Control over the morphology, etching direction, mass transfer issues, and the requirement for highly toxic reagents such as hydrofluoric acid limit the commercialization of that method. Meanwhile, bottom-up methods such as chemical vapor deposition (CVD) methods have also been the subject of intense exploration. CVD-based synthesis yields well-defined particle sizes and a diverse array of nanostructured architectures including nanoparticles (NPs), nanowires (NWs), and thin films. A major hindrance to using CVD methods has been high capital cost, low yields, and the use of hazardous and pyrophoric gaseous silicon feedstocks such as silane, SiH4.
The solution may lie in a silicon-carbon hybrid anode, made with nanostructures that store more lithium ions, while reducing the potential for damage as the silicon expands. These hybrid nanostructures include silicon-coated carbon nanotubes, core-shell nanostructures, and carbon coated silicon nanowires grown by electrospinning or by the vapor-liquid-process. Cyclohexasilane, CHS, enables commercially viable approaches to manufacture these nanostructures due to its ability to be readily functionalized, more ideal handling conditions, and more favorable reaction conditions. All of these merits could result in single-step processing and roll-to-roll manufacturing. This “drop-in” replacement to existing manufacturing processes would offer a means to reduce costs and avoid using CVD methods that have high capital costs.
The figure below highlights the merits of this approach, illustrating that with relatively low silicon incorporation into the anode structure, an increase in the energy density by roughly 3x is readily achieved, while maintaining good cycle life.2
Moreover, the resulting silicon nanostructured morphology can be readily tailored to deliver nanofibers or nanoparticles with a desired size and conductive carbon additive. Silicon thin films are also a possibility, and we envision deposition mechanisms that alleviate some of the delamination issues that have plagued previous efforts.
If your interested in companies with a low float CRTG The Coretec Group Inc has about 67 million shares in the float and insiders hold about 60 million of those shares and they are definitely holding those shares for the long run so around 7 million shares left in the float as Coretec gets thier new silicon based materials out on the market in several different markets and is to replace SiH4 ( monosilane ) which has been a billion dollar chemical over the years. Coretecs Si6H12 (CHS) will replace other silicons as well in many markets . An insider, board member of Coretec a few months ago bought 750,000 dollars worth of stock if that tells you anything about the potential here.
https://www.thecoretecgroup.com
Just out Coretec facebook posts article written by Michael Kraft and Dr. Ramez Elgammal . CHS is on the path to Great things !!!! Coretec management the BEST !!!!
Improving Battery Solutions With Energy Density
2 hours 27 min ago
by Michael Kraft and Dr. Ramez Elgammal
Selecting Cell Chemistries for your Portable Battery Systems
There is no denying the benefits of lithium-ion batteries over their lead acid and NiCd precursors. The energy density, cycle life, size and weight of lithium ion batteries have enabled new technologies, such as electric vehicles and personal technologies like cell phones, and contributed to the advancement of products in existing markets. However, continued market growth remains dependent on the ability to further improve energy density, while maintaining current cost and cycle lifetime performance. This is why many consider battery development to be one of the most high-growth global industries, and why manufacturers and product brand makers search for the future in battery manufacturing.
The Challenge
Lithium-ion batteries are a dominant source of energy storage for mobile applications including wearable devices, portable electronics, cordless power tools and electric vehicles. For decades, advancements have been made to improve cycle lifetime, cost and performance, but energy density, defined by the measure of how much energy can be stored in a battery, has remained an elusive challenge.
Today’s lithium ion batteries are made primarily with graphite carbon anodes, which is one of the components in which battery energy is stored. Although graphite anodes provide durability, the material is limited in its capacity to absorb ions and is the main limiting factor in improving energy density.
The Opportunity
Increased energy density is the key to providing battery solutions that can advance tomorrow’s most promising markets, spanning technology, automotive, defense and aerospace. Examples include battery-powered vehicles capable of driving further on a single charge, battery-powered commercial air travel becoming viable, and wearable devices made even smaller which would make them more appealing to consumers.
Manufacturers have been searching for alternative anode materials that have the capability to increase battery energy density, while maintaining other performance requirements. Silicon has been proven to increase energy density in anodes, but presents another challenge of protecting the material against absorbing too many ions, too quickly, resulting in material degradation over time. That restriction imposes challenges on the battery cycle life.
Turning Potential to Reality
The development of silicon anodes for lithium ion batteries has also been hampered by commercially scalable methods to produce nanostructured materials with well-defined size and morphology, with characteristic sizes below 150 nm. Traditional top-down methods, including ball milling, are inexpensive and yield silicon materials with high degrees of agglomeration, relatively large particle sizes, and poorly defined morphologies and surfaces. Metal assisted chemical etching is an alternative method that has been explored to synthesize silicon nanomaterials. Control over the morphology, etching direction, mass transfer issues, and the requirement for highly toxic reagents such as hydrofluoric acid limit the commercialization of that method. Meanwhile, bottom-up methods such as chemical vapor deposition (CVD) methods have also been the subject of intense exploration. CVD-based synthesis yields well-defined particle sizes and a diverse array of nanostructured architectures including nanoparticles (NPs), nanowires (NWs), and thin films. A major hindrance to using CVD methods has been high capital cost, low yields, and the use of hazardous and pyrophoric gaseous silicon feedstocks such as silane, SiH4.
The solution may lie in a silicon-carbon hybrid anode, made with nanostructures that store more lithium ions, while reducing the potential for damage as the silicon expands. These hybrid nanostructures include silicon-coated carbon nanotubes, core-shell nanostructures, and carbon coated silicon nanowires grown by electrospinning or by the vapor-liquid-process. Cyclohexasilane, CHS, enables commercially viable approaches to manufacture these nanostructures due to its ability to be readily functionalized, more ideal handling conditions, and more favorable reaction conditions. All of these merits could result in single-step processing and roll-to-roll manufacturing. This “drop-in” replacement to existing manufacturing processes would offer a means to reduce costs and avoid using CVD methods that have high capital costs.
The figure below highlights the merits of this approach, illustrating that with relatively low silicon incorporation into the anode structure, an increase in the energy density by roughly 3x is readily achieved, while maintaining good cycle life.2
Moreover, the resulting silicon nanostructured morphology can be readily tailored to deliver nanofibers or nanoparticles with a desired size and conductive carbon additive. Silicon thin films are also a possibility, and we envision deposition mechanisms that alleviate some of the delamination issues that have plagued previous efforts.
What’s Next?
The lithium-ion battery market is projected to grow at a CAGR of 13.7% between 2017 and 2022, to a value of USD 67.7 billion. As consumer demand grows for battery-enabled technology, manufacturers are investing in battery research and development, with the goal of speeding the advancement of energy density in lithium-ion batteries.
Silicon-based anodes figure to capture an increasing share of that market, and R&D efforts in that area among major global players and startups is increasing considerably, primarily from battery manufacturers, auto makers and more. As energy density improves, we can look forward to product advancements across the technology sector, and the introduction of products not yet imagined.
The company news i believe will be excellent .Great time to buy CRTG for sure with the stock so undervalued at these prices and a super low float the stock is in a great position to move higher with the success Coretec is going to have .Great time to be a shareholder will very few opportunities with new companies to hold a stock in a new company that has become extremely undervalued ,low float and a disruptive technology hitting the market that puts Coretecs partners at an advantage and brings existing technologies to a more productive place at lower cost .Its going to happen just a matter of time .Nothing can stop it now !!! Great thing ahead for Coretec and those buying stock at these ridiculously low prices !!
Expecting Great things for Coretec , should be news soon on the new chemical manufacturer and an update . Coretec will be a very successful company that i believe could end up being bought out . Si6H12 is the read deal and is the premier silicon based precurser and the premier based silicon derivative out there today set to take the world stage and replace SiH4 which has been a billion dollar chemical.Bid time stuff here folks get ready and get yourself ready for this because its going to happen !!!!
I would think the announcement of the new major well respected chemical manufacturer is announced very soon . It will be a Major company as they have already said it would be so it will be one of the BIG companies. Cant wait for the announcement !!!
Things are obviously going VERY WELL FOR CORETEC based on this comment by the CEO Michael Kraft !!! Thats a big time statement which i anticipate will result in long term agreements !!!
Commercial success for the Company hinges on its technological advances as well as its ability to increase visibility in the market and create meaningful relationships with potential partners and customers,” said Michael Kraft, CEO of The Coretec Group. “We also understand the importance of maintaining effective communications with shareholders, and have placed an emphasis on doing so using several mediums. We are excited about the progress made to convert ongoing high level conversations with partners and customers into agreements that we believe will commercialize and scale our silicon-based material technologies.”
Pegs Michael Kraft is the best around and Coretec is a great company !!! !! Should be news soon enough !! Outstanding share count 67 plus million with almost all shares held by insiders . Thank goodness Coretec doesn't have billions of shares outstanding and trading at something like .002 area or something like that like so many small companies hoping to get new technologies out are . Our management is the BEST !!! Coretec has the best silicon based precursor out there and that will be proved in time for sure !! cant wait for partnerships to be announced !!
From last recent update !!! HUGE CORETEC INSIGHT RIGHT ON TOPIC !!!
Coretec’s lead product candidate is cyclohexasilane or Si6H12 (CHS), a liquid that converts to poly-silane when exposed to heat or UV irradiation, followed by conversion to amorphous silicon and ultimately crystalline silicon. The Coretec group believes further development and eventual commercialization of the product will result in improved performance, reduced cost, simplified manufacturing, and safer handling when compared to the more traditionally used mono-silane.
Pegs Coretec is a great company and a low float to go with it !! should be news soon enough !!Just glad Coretec doesn't have 3 billion plus shares outstanding and trading at something like .002 area or something like that like so many small companies hoping to get new technologies out are . Our management is the BEST !!! Coretec has the best silicon based precursor out there and that will be proved in time for sure !! cant wait for partnerships to be announced !!
Pegs you are so right when you said ,
" Have you looked at Michael Kraft's resume? His education and experience is outstanding in the corporate America world."
"I'm willing to bet that the job is complicated , but wow he's doing a great job !!!!
Pegs you are so right when you said
"Have you looked at Michael Kraft's resume? His education and experience is outstanding in the corporate America world. "
I'm willing to bet the job is complicated, but wow he's doing a great job !!! Pegs you are absolutely RIGHT !!!
New chemical manufacturer should be named soon !!! Another great day to buy CRTG !!!! Great price undervalued big time loving it !!!
Coretec’s new supplier of CHS is a major, highly respected chemical manufacturer. Terms of that partnership will soon be announced, and Coretec is confident our new CHS suppler will provide us with high quality, high purity CHS quickly, and we will attain superior application results in our customer partnering efforts.
I would never own this stock because regardless of the product idea they have massive dilution and on top of that the stock keeps getting hammered and no sign of letting up .Even if the company does get a product out it looks to go down further and then probably do a huge reverse split. There is no sign of hope for this massive number of shares crushing the market cap even month now .Looks like 0009 is very possible here
Major developments coming to Coretec soon !!!! Stock cheap at these prices and a great time to buy !!!!
Introducing new materials into semiconductor may seem technical, but there is a significant CHS value proposition. The added benefit of “plug-n-play” using CHS can be a key differentiator for Coretec when compared to the battery-manufacturing sector, where testing, packaging, and other systems integration requirement changes are bottlenecks to commercialization that are not inherent to CHS, but endemic of the battery industry. For this reason, we believe commercializing CHS within the semiconductor industry could be a faster route to market than in EV battery. To be clear, we will continue in our earnest efforts in EV Battery, but want our shareholders to know we also have a significant value proposition in semiconductors.
It is for this reason we continue to seek out joint development agreements with companies developing next generation technologies in the semiconductor space. This is a separate initiative from our battery component development, but one we believe possesses significant market upside.
CHS is a plug n play which results in faster time to market !!!!!
Like the battery manufacturing industry, there are many key aspects to consider when developing a replacement for existing semiconductor materials. Lithography, deposition, etch, implants, and dielectric layers are some of the key components of a semiconductor wafer that require customization using a new material. In our case, CHS would ideally “plug-n-play” or replace existing materials without disrupting the other manufacturing process, making device analysis using CHS much easier to evaluate for commercial partners, as well as less risky.
From the recent blog from Coretec !!!![/b] BIG TIME STUFF !!!!!! $$$$$$
Previously, liquid hydrosilanes have been cited for instability and low vapor pressure when applied to semiconductor manufacturing. Our CHS technology has demonstrated the capability to overcome these challenges and represents a potential upgrade in terms of efficiency, cost, and increased performance in the semiconductor space.
HUGE UPSIDE WITH CRTG TO COME !!!!
Silicon anode batteries for EV is one of Coretec’s paths to commercialization, but the understanding has always been that it can take time and require the right partner, a strategy we continue to pursue on a daily basis.
Another market we seek to penetrate is semiconductors, a market valued at $463.5 billion in 2016 and forecast to be $831.5 billion in 2024.
Great article on Coretecs facebook : CHS is set to become bigtime in the solar Semiconductor market Stock cheap at these prices got to love it !!!!!!!
Solar Panels and Semiconductor Materials
Harnessing the massive amounts of energy that reaches the Earth from the Sun is a challenging but necessary step to ensure that the future energy needs of the planet can be met. Photovoltaic cells composed of various semiconductor materials are springing up all over the world to convert light energy directly into electricity with zero emissions.
Overview of Solar Cells
When light reaches a solar panel or photovoltaic (PV) cell, it can either be reflected, absorbed or pass right through it. At the heart of a solar cell is a semiconductor layer, which is unequivocally the most important part of the cell. This material combines the properties of metals and insulators to yield a substance uniquely skilled at converting sunlight to electricity. When the semiconductor absorbs light, photons transfer their energy to electrons which flow through the material as an electrical current towards metal contacts above and below the semiconductor layer, from where it can travel to the power grid.
The efficiency of a PV cell is defined as the amount of electrical power divided by the energy from sunlight in. The amount of electricity is dependent on the quality of light offered – it’s intensity and wavelengths – and the performance characteristics of the cell.
Among the most efficient and by far the most common semiconductor used is silicon which is found in approximately 90% of modules sold. It was first used in solar cells in 1956 and is considered a key material in solar energy production. Silicon atoms form a crystal lattice – an organised structure that makes the conversion of light to electricity more effective – and are doped with phosphorous and boron to form a semiconductor. Solar cells constructed from crystalline silicon are highly efficient, low cost and long lasting with a lifespan of around 25 years.
Thin-film PVs are becoming more prevalent. They are created by depositing one or more thin layers of a PV material – cadmium telluride (CdTe) or copper indium gallium diselinide (CIGS) – onto a supporting material such as glass, plastic or metal. CdTE is the second most common PV after silicon and while such films enable low-manufacturing they are not quite as efficient.
Organic PV cells consist of carbon-rich polymers and can be tailor-made to enhance a specific function of the cell, sensitivity to a certain wavelength of light for example. They have the theoretical potential to provide electricity at a lower cost – they are less expensive to make in high volumes - but they are about half as efficient as silicon cells and can have a shorter operating lifetime.
Other cells focus sunlight onto PV materials using mirrors or lenses. These concentration PVs (CPV) require less material as the light is focussed on a comparatively small area and have the highest overall efficiency because the light becomes concentrated on one spot. However, the materials to make them are expensive, as is the manufacturing process.
Use of Perovskites in Solar Cells
So, what does the future hold? Many researchers are working with a material called perovskite. Perovskites have a particular crystalline structure and can consist different materials but lead is an especially common choice. This material is currently placed over conventional silicon solar cells to boost power output by converting certain parts of the solar spectrum into electricity more efficiently than silicon. However, perovskites have a limited lifespan and alternative to the toxic lead are necessary.
Conclusion
Solar power is a popular alternative energy choice. It directly harnesses the power of the sun to make electricity – it is that simple. It doesn’t require any turbines or generators, it needs no other fuels, has no moving parts and so has low maintenance costs, and releases no emissions. Semiconductor materials are key to their functioning, and while efficiency can still be improved, solar panels are likely to continue popping up all over the place.
I would think chemical manufacturing partner will be announced soon !!
PEGS , CORETEC HAS A GREAT CEO THAT IS TAKING CORETEC TO THE TOP!!!!
From the recent blog : GREAT STUFF !!! CORETEC IS GOING TO BE A VERY SUCCESSFUL COMPANY !!!
Another market we seek to penetrate is semiconductors, a market valued at $463.5 billion in 2016 and forecast to be $831.5 billion in 2024.
Previously, liquid hydrosilanes have been cited for instability and low vapor pressure when applied to semiconductor manufacturing. Our CHS technology has demonstrated the capability to overcome these challenges and represents a potential upgrade in terms of efficiency, cost, and increased performance in the semiconductor space.
CHS IS HEADED FOR THE BIG TIME IN THE SEMICONDUCTOR SPACE !!
Coretec Opportunities in Semiconductor ( GREAT UPDATE GREAT THINGS AHEAD !!! )
Jul 30, 2018
Over the past few weeks, we’ve shared why we believe CHS has significant potential as a material component for battery technologies in a number of high growth industries such as electric vehicle (EV) and personal electronics.
Silicon anode batteries for EV is one of Coretec’s paths to commercialization, but the understanding has always been that it can take time and require the right partner, a strategy we continue to pursue on a daily basis.
Another market we seek to penetrate is semiconductors, a market valued at $463.5 billion in 2016 and forecast to be $831.5 billion in 2024.
Previously, liquid hydrosilanes have been cited for instability and low vapor pressure when applied to semiconductor manufacturing. Our CHS technology has demonstrated the capability to overcome these challenges and represents a potential upgrade in terms of efficiency, cost, and increased performance in the semiconductor space.
Like the battery manufacturing industry, there are many key aspects to consider when developing a replacement for existing semiconductor materials. Lithography, deposition, etch, implants, and dielectric layers are some of the key components of a semiconductor wafer that require customization using a new material. In our case, CHS would ideally “plug-n-play” or replace existing materials without disrupting the other manufacturing process, making device analysis using CHS much easier to evaluate for commercial partners, as well as less risky.
Introducing new materials into semiconductor may seem technical, but there is a significant CHS value proposition. The added benefit of “plug-n-play” using CHS can be a key differentiator for Coretec when compared to the battery-manufacturing sector, where testing, packaging, and other systems integration requirement changes are bottlenecks to commercialization that are not inherent to CHS, but endemic of the battery industry. For this reason, we believe commercializing CHS within the semiconductor industry could be a faster route to market than in EV battery. To be clear, we will continue in our earnest efforts in EV Battery, but want our shareholders to know we also have a significant value proposition in semiconductors.
It is for this reason we continue to seek out joint development agreements with companies developing next generation technologies in the semiconductor space. This is a separate initiative from our battery component development, but one we believe possesses significant market upside.
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We should know more as updates continue to come in .I believe things are going VERY WELL and will be very successful.Stock is cheap at these prices with no dilution really to speak of . I believe we will hear more good things that will show great progress has ben made !
CEO Michael Kraft from July 10th !!!
“Commercial success for the Company hinges on its technological advances as well as its ability to increase visibility in the market and create meaningful relationships with potential partners and customers,” said Michael Kraft, CEO of The Coretec Group. “We also understand the importance of maintaining effective communications with shareholders, and have placed an emphasis on doing so using several mediums. We are excited about the progress made to convert ongoing high level conversations with partners and customers into agreements that we believe will commercialize and scale our silicon-based material technologies.”
Big things ahead for the Coretec Group in 2018 !!!!
Michael Kraft from the shareholder update July 10 !!! GREAT STUFF !!!
“Commercial success for the Company hinges on its technological advances as well as its ability to increase visibility in the market and create meaningful relationships with potential partners and customers,” said Michael Kraft, CEO of The Coretec Group. “We also understand the importance of maintaining effective communications with shareholders, and have placed an emphasis on doing so using several mediums. We are excited about the progress made to convert ongoing high level conversations with partners and customers into agreements that we believe will commercialize and scale our silicon-based material technologies.”
THIS STATEMENT BY MICHAEL KRAFT CEO OF THE CORETEC GROUP IS HUGE TO SAY THE LEAST !!!! EXPECT THOSE AGREEMENTS TO MATERIALIZE IN THE NEAR FUTURE !!! CORETEC S MANAGEMENT DOING A GREAT JOB MOVING THINGS AHEAD AT LIGHT SPEED . UNBELEIEVABLE HOW QUICKLY POSITVE THINGS ARE DEVELOPING !! EXPECTING THE MAJOR HIGHLY RESPECTED CHEMICAL MANUFACTURERE TO BE ANNOUNCED SOON ALONG WITH THE TERMS OF THAT AGREEMENT JUST AS CORETEC SAID THEY WOULD IN THE MAY 3RD SHAREHOLDER UPDATE !!!
CRTG $$ Low float 7 million shares , new technology $$$ From previous CEO update :Coretec’s new supplier of CHS is a major, highly respected chemical manufacturer. Terms of that partnership will soon be announced, and Coretec is confident our new CHS suppler will provide us with high quality, high purity CHS quickly, and we will attain superior application results in our customer partnering efforts.
The Coretec Group Issues Corporate Update
Download as PDF July 10, 2018
TULSA, Okla., July 10, 2018 (GLOBE NEWSWIRE) -- The Coretec Group, Inc., (OTC Pink:CRTG) (the “Company”), a Company developing a portfolio of silicon-based materials to pursue commercial development of products in energy-focused verticals, today shared an update surrounding its ongoing efforts to identify potential partners and establish itself as a leader in the advanced materials industry by leveraging the unique properties of cyclohexasilane (CHS) to enable new product developments or act as a drop-in replacement for conventional materials used for application in high growth industries.
Coretec’s lead product candidate is cyclohexasilane or Si6H12 (CHS), a liquid that converts to poly-silane when exposed to heat or UV irradiation, followed by conversion to amorphous silicon and ultimately crystalline silicon. The Coretec group believes further development and eventual commercialization of the product will result in improved performance, reduced cost, simplified manufacturing, and safer handling when compared to the more traditionally used mono-silane.
There are many potential advanced applications for CHS, spanning the high growth industries of solar energy, energy storage, sensors, volumetric imaging and semiconductors, among others. For example, battery manufacturers and application developers for a number of industries’ increased dependence on lithium, cobalt and other minerals have caused the cost of these battery components to rise, ultimately impacting the overall cost of the application itself. CHS represents an alternative to many of these mineral components, with the potential to both increase efficiency and output while simultaneously driving down cost.
Led by its VP of technology, Dr. Ramez Elgammal, the Coretec Group has continued to establish strong relationships with partners and customers, including both original equipment manufacturers (OEMs) and the product support value chain in key industries such as electric cars, personal electronics, semiconductor, solar, and LEDs. In May, Dr. Elgammal attended The Battery Show Europe where he observed strong interest in new anode materials to deliver greater energy density, and longer lasting and faster charging batteries, especially silicon-based ones. Many groups he spoke with expressed interest in integrated technologies that use silicon-based anodes to design next generation solid-state batteries, and view Coretec’s CHS as a potential key to reaching that objective.
The Coretec Group has also placed an emphasis on increased communications with both potential customers and the value chain supporting them, as noted above, as well as its shareholders. In June, CEO Michael Kraft conducted a Q&A with renewable energy news site AltEnergyMag that highlighted the Company’s focus on developing CHS technology for applications within a number of high-growth industries including energy storage, semiconductor, solar, LED, and others. The Company will continue to publish content in leading trade publications to increase visibility and position itself as a thought leader for emerging companies seeking cost-effective commercial solutions for silicon-based materials. To maintain ongoing communications with security holders, The Coretec Group has increased its use of Twitter and Facebook, as well as its corporate blog.
“Commercial success for the Company hinges on its technological advances as well as its ability to increase visibility in the market and create meaningful relationships with potential partners and customers,” said Michael Kraft, CEO of The Coretec Group. “We also understand the importance of maintaining effective communications with shareholders, and have placed an emphasis on doing so using several mediums. We are excited about the progress made to convert ongoing high level conversations with partners and customers into agreements that we believe will commercialize and scale our silicon-based material technologies.”
About The Coretec Group, Inc.
The Coretec Group, Inc. (the "Company") utilizes a portfolio of silicon-based and volumetric display materials to pursue commercial development of products in energy-focused verticals such as energy storage, solar, and solid-state lighting, as well as printable electronics and 3D volumetric displays. For more information, visit www.thecoretecgroup.com.
I would never own this stock for many reasons, Billions of shares in the float for one as well as zero real plans out there to look at that have gotten any traction at all to move this company forward and zero real progress .Just a ton of dilution and dumping of shares . Someones dumping and making money everyday it appears on a stock going downward .Very ugly stock to own
Semiconductor (Silicon) Intellectual Property Market Is Expected To Grow 11.22% CAGR till 2023
THIS IS GREAT NEWS FOR CORETEC GOING FORWARD !!!
The semiconductor (silicon) intellectual property market was valued at USD 3.75 billion in 2017, and is projected to reach a value of USD 7.09 billion by 2023, registering a CAGR of 11.22% during the forecast period (2018 - 2023). The scope of the report is limited to form factors offered by major players, which include Integrated Circuit IP, and System on Chip (SoC) IP. The regions considered in the scope of the report include North America, Europe, Asia-Pacific, Latin America, and Middle East & Africa.
Rising design costs and growing time-to-market pressure are forcing companies to seek semiconductor IP manufacturers. The various applications of the market include smart devices (mobiles and tablets), automotive, computers & peripherals, and others. The major drivers of the market include emerging consumer devices adoption, demand for connected devices coupled with the demand for modern SOC designs. The emerging technologies like embedded and programmable DSP IPs are expected to provide various opportunities for the market in the future. However, the shift of technology is expected to restrain the market’s growth.
From Coretecs facebook a great article on the Semiconductor field , a field Coretec says they will be successful in with thier silicon materials HUGE !!!
The Widespread Usage of Semiconductor IPs in Smartphones is expected to Increase their Adoption in the Consumer Electronics Domain
As there has been a strong consumer demand for better and more advanced smartphones the demand for semiconductor IPs has increased. In the smartphones market, the implementation of semiconductor IPs makes the device more efficient, smaller and lightweight as the System on Chip concept is implemented over here. The System on Chip concept enables all the major components, like the memory unit, the processor unit and others being stored on a silicon chip, enabling the device to be more power efficient and more effective. Mobile Phones have become increasingly necessary to every individual to stay in touch with others, which is driving the smartphone market, indirectly driving the semiconductor IP market. The demand for tablets has seen a slight decrease over the last few years because of its bulkier size compared to the smartphone. But, regardless, it remains a major segment that makes use of semiconductor IPs.
CRTG $$$ Just put out on The Cortecs facebook Groups !!!!!! Article about Volumetric Imaging leaders and Coretec listed as one of them !!! Huge !!!
Volumetric Video Market 2018: Reporting And Evaluation Of Recent Industry Developments Dominated By Google, Holoxica Ltd, Microsoft, The Coretec Group Inc.,Facebook, Intel Corporation, Realview Imaging Ltd,And Others-Forecast 2025
Major Market Competitors:
• Google,
• Holoxica Ltd,
• Microsoft,
• The Coretec Group Inc.,
• Facebook,
• Intel Corporation,
• RealView Imaging Ltd.,
• Lightspace Technologies, SIA.,
• Voxon Photonics,
• 8I,
• VividQ,
• Lytro. Inc.,
• Raytrix GmbH
• among others.
CRTG $$$ Just put out on Coretecs facebook !!!!!! Article about Volumetric Imaging leaders and Coretec listed as one of them !!! Huge !!!
Volumetric Video Market 2018: Reporting And Evaluation Of Recent Industry Developments Dominated By Google, Holoxica Ltd, Microsoft, The Coretec Group Inc.,Facebook, Intel Corporation, Realview Imaging Ltd,And Others-Forecast 2025
Major Market Competitors:
• Google,
• Holoxica Ltd,
• Microsoft,
• The Coretec Group Inc.,
• Facebook,
• Intel Corporation,
• RealView Imaging Ltd.,
• Lightspace Technologies, SIA.,
• Voxon Photonics,
• 8I,
• VividQ,
• Lytro. Inc.,
• Raytrix GmbH
• among others.
Just put out on Coretecs facebook !!!!!! Article about Volumetric Imaging leaders and Coretec listed as one of them !!! Huge !!!
Volumetric Video Market 2018: Reporting And Evaluation Of Recent Industry Developments Dominated By Google, Holoxica Ltd, Microsoft, The Coretec Group Inc.,Facebook, Intel Corporation, Realview Imaging Ltd,And Others-Forecast 2025
Major Market Competitors:
• Google,
• Holoxica Ltd,
• Microsoft,
• The Coretec Group Inc.,
• Facebook,
• Intel Corporation,
• RealView Imaging Ltd.,
• Lightspace Technologies, SIA.,
• Voxon Photonics,
• 8I,
• VividQ,
• Lytro. Inc.,
• Raytrix GmbH
• among others.
When the company releases seats of the new manufacturing partner and there name i believe that will be a game changer .Coretrc said they are a MAJOR WELL RESPECTED CHEMICAL MANUFACTURER. That will be news that proves great things are ahead !!!!