CHEMAT GROUP
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| Chemat has acquired the DAC digital surfacing technology business from DAC International. |
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| March 9, 2011 |
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Chemat Technology Inc. has acquired the DAC digital surfacing technology business from DAC International.
DAC was a pioneer of digital surfacing technology and made the first RxD digital generator during the year 2000.
This generator was used by major ophthalmic companies to make their first freeform lenses.
DAC International used many of their patented and proprietary precision engineering contact lens technologies to build
their RxD digital generators. The result of using these technologies is an extremely smooth digitally generated surface
which creates a base for cut-to-coat technology and also revolutionizes the fabrication of the hard to make specialty
lenses such as slab off/on.
Chemat Technology is a total sol gel company with a focus on developing technological solutions to the most challenging
industrial problems. Their technologies and products range from semiconductors to dental implants.
In the last ten years, Chemat has been developing, manufacturing and marketing a revolutionary spin antireflection
coating technology for the optical industry with initial awards from the Eye Institute of the National Institute of Health.
These inventions are of particular benefit to the small retail laboratories and to the medium sized wholesale laboratories.
Chemat will integrate this acquired digital surfacing technology with its own coating expertise to develop the next generation
of digital surfacing freeform technology at prices that are affordable to the small to medium sized optical laboratories.
Chemat will provide support for existing DAC Surfacing System customers as well as new customers with the assistance of DAC
trained technical personnel.
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For further information please contact:
Syed Haider shaider@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
www.chemat.com
Telephone: (818) 727-9786
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| Lithium Ion Battery Powered Car |
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| Feb. 3, 2011 |
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To answer the question on which car is the first lithium ion battery powered car, most of people
may say GM Volt. Actually, the world's first lithium-ion car battery was in Mercedes S400
HYBRID Sedan. Other lithium-ion batteries have been used in prototype vehicles but the S400
has the first lithium-ion in a production vehicle. GM Volt is coincided as first mass production
sedan which employing lithium-ion battery. The compact lithium-ion battery is more powerful
than conventional car (nickel-metal hydride) batteries.
The all-electric version of the popular Ford Focus is set to be launched in late 2011. The 100
mile range, five door hatchback provides many features that make it an enticing EV package,
including higher speed charging, highly customizable displays, and liquid cooled/heated batteries.
Mitsubishi Motors Corporation (MMC) has got a new business plan and eight new hybrid, plug-in hybrid
and full electric vehicles will be launched by 2015.
By the end of 2012, Toyota will launch 11 brand new and updated hybrid models.
Every car manufacturer has the plan and a lot more lithium ion batteries will be running around!
On January 25, President Barrack Obama spoke about the aim of putting 1 million electric vehicles
on the road by 2015.
Chemat has completed DOD SBIR Phase I project on developing more stable cathode material for
lithium-ion battery with improved cycle life and capacity retention. We have an on-going project
to develop low cost cathode material funded by DOE. A DOD SBIR Phase II project will start soon
on developing lithium air battery which has much larger theoretic energy density than that
of lithium-ion battery.
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Chemat Technology Incorporated (www.chemat.com) focuses on Sol-gel and Nanotechnology related applications and aims to be the premier “Total Sol-Gel Solution”
provider to industry. With sol-gel as the platform, novel technologies have been developed for a variety of applications using funding from government grants
and private companies. From this research a number of new technologies have been developed, some of which have been converted into commercial success. These
include the BioFun implant surface for accelerating tissue-implant integration, a special ink for implantable capacitors, GelBond for sports goods and space
applications, Chemalux multi-functional anti-reflective coating systems and a variety of nanopowders and special chemicals.
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For further information please contact:
Dr. Yuhong Huang yhuang@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
Dr. Peter Wilkinson (Europe) pwilkinson@chemat.com
Ms. Kathia Caceres (South America) kcaceres@chemat.com
www.chemat.com
Telephone: (818) 727-9786
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| DOE's Steven Chu maintains conservative stance on fuel cells |
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| Janunary 28, 2010 |
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The U.S. Department of Energy (DOE) recently announced that it "is accepting applications for a
total of up to $74 million to support the research and development of clean, reliable fuel cells for
stationary and transportation applications." This relatively small number is not much of a
surprise, since the head of the DOE, Steven Chu, has previously made clear that he does not feel
that the "hydrogen economy" is the future of transportation and has slashed budgets accordingly.
Chu has slashed the DOE's budget for fuel-cell-vehicle development, including hydrogen-storage technologies, infrastructure,
and various demonstration projects, from what used to average hundreds of millions a year under the Bush Administration –
it was about $250 million annually in FY 2008 and FY 2009, and totaled $1.3 billion in the last 10 years –
to about $70 million in FY 2010.
However, the fact that the recently announced grants are for both "stationary and transportation applications" is
significant because Chu – and Lux Research – believe that stationary applications for fuel cells are much more promising
in the near term than fuel-cell vehicles. In a 2009 interview with MIT's Technology Review, Chu said, "I think that hydrogen
could be effectively a 'battery' in the sense that suppose you had a way of using excess electricity – let's say a nuclear
plant at night, or solar or wind excess capacity, and there was an efficient electrolysis way of turning that into hydrogen,
and then we have stationary fuel cells. It could effectively be a battery of sorts."
Lux Research believes that the best near-term opportunity for stationary fuel cells lies not as an enabler for hydrogen storage,
but to provide combined heat and power (CHP) in distributed applications. While there are still numerous hurdles to overcome for
fuel cell makers like Bloom Energy, Plug Power, and Nordic Power Systems that are seeking to sell into the embryonic CHP market –
high cost being first among them – CHP is still a better bet for significant adoption of fuel cells by 2015 than the ones Honda
and Toyota are making.
Adapted from Fuel Cell Dispatch
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Chemat Technology Incorporated (www.chemat.com) focuses on Sol-gel and Nanotechnology related applications and aims to be the premier “Total Sol-Gel Solution”
provider to industry. With sol-gel as the platform, novel technologies have been developed for a variety of applications using funding from government grants
and private companies. From this research a number of new technologies have been developed, some of which have been converted into commercial success. These
include the BioFun implant surface for accelerating tissue-implant integration, a special ink for implantable capacitors, GelBond for sports goods and space
applications, Chemalux multi-functional anti-reflective coating systems and a variety of nanopowders and special chemicals.
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For further information please contact:
Dr. Yuhong Huang yhuang@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
Dr. Peter Wilkinson (Europe) pwilkinson@chemat.com
Ms. Kathia Caceres (South America) kcaceres@chemat.com
www.chemat.com
Telephone: (818) 727-9786
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| 53rd Electronic Materials Conference 2011 (EMC 2011) |
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| Janunary 24, 2010 |
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The 53rd Electronic Materials Conference 2011 (EMC 2011) will be held on June 22-24, 2011 at
the University of California, Santa Barbara, California. EMC 2011 is sponsored by The
postdoctoral appointment at the University of California, Los Angeles (UCLA).
Minerals, Metals & Materials Society (TMS). Abstracts submission deadline is January 31, 2011.
application includes Positron Emission Tomography (PET) instrumentation.
Technical Topics:
• Energy Conversion and Storage Materials
• Issues for Wide Bandgap Materials
• Nanoscale Science and Technology in Materials
• Enabling Technologies
increase the demand of the PET scanners among the various health care centers.
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Chemat Technology Incorporated (www.chemat.com) focuses on Sol-gel and Nanotechnology related applications and aims to be the premier “Total Sol-Gel Solution”
provider to industry. With sol-gel as the platform, novel technologies have been developed for a variety of applications using funding from government grants
and private companies. From this research a number of new technologies have been developed, some of which have been converted into commercial success. These
include the BioFun implant surface for accelerating tissue-implant integration, a special ink for implantable capacitors, GelBond for sports goods and space
applications, Chemalux multi-functional anti-reflective coating systems and a variety of nanopowders and special chemicals.
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For further information please contact:
Dr. Yuhong Huang yhuang@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
Dr. Peter Wilkinson (Europe) pwilkinson@chemat.com
Ms. Kathia Caceres (South America) kcaceres@chemat.com
www.chemat.com
Telephone: (818) 727-9786
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| New Scientist Joint Chemat |
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| November 16, 2010 |
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Dr. Matthew Franzman has recently joined Chemat. Dr. Franzman earned his Ph.D from the University of Southern California
(USC) in chemistry. Previous to joining the research team at Chemat, Dr. Franzman developed novel scintillator materials during a
postdoctoral appointment at the University of California, Los Angeles (UCLA).
Dr. Franzman current focus is to develop novel scintillation material for Radiation Detection Synthesized by a Sol-Gel Method. Target application
application includes Positron Emission Tomography (PET) instrumentation.
Positron emission tomography (PET) is a nuclear medicine imaging technique which produces a three-dimensional image or picture of functional processes
in the body. PET market was $505 million in 2003 and tripled in 2008. The global positron emission tomography (PET) market is estimated to reach around
$6.3 billion in 2010 and to $10.3 Billion by 2015.
The approval of PET scanning reimbursement in the U.S. by the Medicare and Medicaid widened the opportunities for the major market participants and
increase the demand of the PET scanners among the various health care centers.
**********************************************************************************************************************************************************
Chemat Technology Incorporated (www.chemat.com) focuses on Sol-gel and Nanotechnology related applications and aims to be the premier “Total Sol-Gel Solution”
provider to industry. With sol-gel as the platform, novel technologies have been developed for a variety of applications using funding from government grants
and private companies. From this research a number of new technologies have been developed, some of which have been converted into commercial success. These
include the BioFun implant surface for accelerating tissue-implant integration, a special ink for implantable capacitors, GelBond for sports goods and space
applications, Chemalux multi-functional anti-reflective coating systems and a variety of nanopowders and special chemicals.
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For further information please contact:
Dr. Yuhong Huang yhuang@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
Dr. Peter Wilkinson (Europe) pwilkinson@chemat.com
Ms. Kathia Caceres (South America) kcaceres@chemat.com
www.chemat.com
Telephone: (818) 727-9786
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| Chemat Technology Awarded SBIR Phase I Grant For Li-ion Battery by Department of Energy |
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| October 26, 2010 |
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Chemat Technology Inc. was awarded a Small Business Innovation Research (SBIR) Phase I grant from the Department of Energy (DOE).
The project is to develop a novel cathode material for lithium ion battery used in Plug-In Hybrid Electric Vehicles. Cathode material
material system is lithium transition metal silicates (Li2MSiO4) which has potential high energy density and low cost. Sol-gel derived
nanostructured cathode material, conductive coating on Li2MSiO4 nanoparticle, is anticipated to overcome intrinsic problem of low
conductivity of Li2MSiO4 and to enhance cycle life.
**********************************************************************************************************************************************************
Chemat Technology Incorporated (www.chemat.com) focuses on Sol-gel and Nanotechnology related applications and aims to be the premier “Total Sol-Gel Solution”
provider to industry. With sol-gel as the platform, novel technologies have been developed for a variety of applications using funding from government grants
and private companies. From this research a number of new technologies have been developed, some of which have been converted into commercial success. These
include the BioFun implant surface for accelerating tissue-implant integration, a special ink for implantable capacitors, GelBond for sports goods and space
applications, Chemalux multi-functional anti-reflective coating systems and a variety of nanopowders and special chemicals.
|
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For further information please contact:
Dr. Yuhong Huang yhuang@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
Dr. Peter Wilkinson (Europe) pwilkinson@chemat.com
Ms. Kathia Caceres (South America) kcaceres@chemat.com
www.chemat.com
Telephone: (818) 727-9786
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| Chemat Technology Awarded SBIR Phase II Grant For High Frequency Ultrasonic Transducer for Medical Imaging By National Science Foundation |
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| August 19, 2010 |
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Chemat Technology Inc. was awarded a Small Business Innovation Research (SBIR) Phase II grant from the National Science
Foundation (NSF). Under this Phase II Chemat will develop a piezoelectric element with a thickness of 1/10 of human hair and a high frequency
frequency linear array will be fabricated with this piezoelectric element. This new effort follows Chemat's successful execution of a Phase I
study effort during 2009.
Low frequency ultrasound is a well-established imaging modality that currently accounts for about 1/3 of all diagnostic imaging procedures.
The world market for diagnostic ultrasound in 2008 was $5.37B. The U.S. market, in 2008, totaled $1.59B—approximately 1/3 of the world market.
Over the years the image resolution offered by ultrasound has continued to improve. In ultrasound, spatial resolution is determined by the
frequency and degree of focusing. Advances have been made to allow ultrasound systems to offer better image quality and temporal
resolution for real-time imaging.
High-frequency ultrasonic imaging (HFUI) is a new frontier in diagnostic ultrasound that has been used as a diagnostic as well as surgical
tool in ophthalmology, dermatology, superficial organ imaging, intravascular ultrasound (IVUS) imaging, and small organs and small animal studies.
Due to the need for higher resolution of ultrasonic images, transducer frequency has also increased in order to yield images of cellular
structures in living tissues.
Chemat is developing miniaturer transducer for higher resolution ultrasound medical imaging by employing a sol-gel nanocomposite technology.
Miniature size is from employing high-K piezoelectric material. The high resolution is due to in part much higher working frequency.
Acknowledgement and disclaimer
Our research results are based upon work supported by the National Science Foundation. Any opinions, findings, and conclusions or
recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views
of the National Science Foundation.
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Chemat Technology Incorporated (www.chemat.com) focuses on Sol-gel and Nanotechnology related applications and aims to be the premier “Total Sol-Gel Solution”
provider to industry. With sol-gel as the platform, novel technologies have been developed for a variety of applications using funding from government grants
and private companies. From this research a number of new technologies have been developed, some of which have been converted into commercial success. These
include the BioFun implant surface for accelerating tissue-implant integration, a special ink for implantable capacitors, GelBond for sports goods and space
applications, Chemalux multi-functional anti-reflective coating systems and a variety of nanopowders and special chemicals.
|
|---|
For further information please contact:
Dr. Yuhong Huang yhuang@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
Dr. Peter Wilkinson (Europe) pwilkinson@chemat.com
Ms. Kathia Caceres (South America) kcaceres@chemat.com
www.chemat.com
Telephone: (818) 727-9786
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| Hybrid Materials 2011 Conference will be held in France on March 2011 |
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| August 19, 2010 |
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The Second International Conference on Multifunctional, Hybrid and Nanomaterials, 6-10 March 2011, Strasboung, France
The First International Conference on Multifunctional, Hybrid and Nanomaterials took place in Tours, France, 15-19 March 2009.
Research in hybrid materials has experienced a 14% annual growth in published papers in recent years with increasing interest from a wide range
of industries. This inaugural meeting aims to bring together experts from the various various sub-disciplines to share current research
and create an interdisciplinary forum for discussion.
Research areas cover organic/inorganic chemistry, sol-gel chemistry, polymer, biomaterial and nanostructured materials.
Plenary Speakers include : Markus Antonietti, MPIKG Golm, Germany; Avelino Corma Canós, Universidad Politécnica de Valencia, Spain;
Susumu Kitagawa, Kyoto University, Japan; Jean-Marie Lehn, Université de Strasbourg,France – Nobel Laureate;
and Samuel I. Stupp, Northwestern University, Evanston, IL, USA
Abstract submission deadline is 9 September 2010.
Link to Hybrid Materials 2011 website: http://www.hybridmaterialsconference.com/
**********************************************************************************************************************************************************
Chemat Technology Incorporated (www.chemat.com) focuses on Sol-gel and Nanotechnology related applications and aims to be the premier “Total Sol-Gel Solution”
provider to industry. With sol-gel as the platform, novel technologies have been developed for a variety of applications using funding from government grants
and private companies. From this research a number of new technologies have been developed, some of which have been converted into commercial success. These
include the BioFun implant surface for accelerating tissue-implant integration, a special ink for implantable capacitors, GelBond for sports goods and space
applications, Chemalux multi-functional anti-reflective coating systems and a variety of nanopowders and special chemicals.
|
|---|
For further information please contact:
Dr. Yuhong Huang yhuang@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
Dr. Peter Wilkinson (Europe) pwilkinson@chemat.com
Ms. Kathia Caceres (South America) kcaceres@chemat.com
www.chemat.com
Telephone: (818) 727-9786
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| Chemat Received a DOE SBIR Phase I Award on Developing Li2MSiO4 Material |
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| July 15, 2010 |
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Chemat has recently been awarded a DOE SBIR Phase I Development Contract to develop a Li2MSiO4 nanostructured Li-ion battery cathode
material with improved conductivity for application in hybrid and electrical vehicle. Car battery requires high power and high energy densities,
due to rigorous weight and volume constraints. One way to increase the energy density and specific energy of a battery is to use an electrochemical couple
in which the active materials in one or both electrodes undergo multiple electron redox reactions. Li2MSiO4 materials have high capacity (300 mAh/g),
lattice stabilization, safety, low cost compared to LiFePO4 and LiMn2O4 with following recognized advantages:
·It is potentially cheaper – even cheaper than the phosphate derivates – with iron and silicon oxides making up > 10% of the Earth’s crust.
·It is an essentially “green” material with virtually no direct or associate environmental hazards compared to both cobalt and nickel.
·It has also been shown to compare favorably in term of its mechanical, chemically and electrochemical properties with other candidate cathodes.
It also cycles well with a minimum of capacity loss under extended cycling.
Chemat is seeking an industrial partner for implementing advanced nanostructured cathode material in Li-ion batteries.
**********************************************************************************************************************************************************
Chemat Technology Incorporated (www.chemat.com) focuses on Sol-gel and Nanotechnology related applications and aims to be the premier “Total Sol-Gel Solution”
provider to industry. With sol-gel as the platform, novel technologies have been developed for a variety of applications using funding from government grants
and private companies. From this research a number of new technologies have been developed, some of which have been converted into commercial success. These
include the BioFun implant surface for accelerating tissue-implant integration, a special ink for implantable capacitors, GelBond for sports goods and space
applications, Chemalux multi-functional anti-reflective coating systems and a variety of nanopowders and special chemicals.
|
|---|
For further information please contact:
Dr. Yuhong Huang yhuang@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
Dr. Peter Wilkinson (Europe) pwilkinson@chemat.com
Ms. Kathia Caceres (South America) kcaceres@chemat.com
www.chemat.com
Telephone: (818) 727-9786
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| Sol-gel Technology to improve antibacterial function of Cotton |
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| June 4, 2010 |
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In recent review paper published in Journal of Sol-gel Science and Technology by Dr. Wang, Key Laboratory of Eco-Textile, Jiangnan University,
China has discussed how to use sol-gel as a carrier of antibacterial moiety to attach on cotton surface. A unique property of the sol-gel process is the
ability to convert molecular precursors to a film product. Complex silane precursors consisting of hydrophobic groups and antibacterial active agent
such as quaternary ammonium salt moieties seem to be a much better option because their multifunctional chemical character, such as antibacterial property
and hydrophobicity, the latter important for controlling the release of the active component to the surroundings.
Research showed that antibacterial effect decreased with washing. However, after 10 times of washing, about 60% of antibacterial function still maintained.
Other textile properties were also studied. The breaking strength of treated cotton was slightly increased in warp and weft directions. The whiteness
was decreased about 20%. The hand feeling of the treated cotton was decreased. Besides quaternary ammoniu salt moieties, many other antibacterial moieties
were reported such as precious metal ions, amino acid sequence of SEQ ID NO: 1, polyoxometalates, chlorinated halamines.
**********************************************************************************************************************************************************
Chemat Technology Incorporated (www.chemat.com) focuses on Sol-gel and Nanotechnology related applications and aims to be the premier “Total Sol-Gel Solution”
provider to industry. With sol-gel as the platform, novel technologies have been developed for a variety of applications using funding from government grants
and private companies. From this research a number of new technologies have been developed, some of which have been converted into commercial success. These
include the BioFun implant surface for accelerating tissue-implant integration, a special ink for implantable capacitors, GelBond for sports goods and space
applications, Chemalux multi-functional anti-reflective coating systems and a variety of nanopowders and special chemicals.
|
|---|
For further information please contact:
Dr. Yuhong Huang yhuang@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
Dr. Peter Wilkinson (Europe) pwilkinson@chemat.com
Ms. Kathia Caceres (South America) kcaceres@chemat.com
www.chemat.com
Telephone: (818) 727-9786
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| Coatings made by sol–gel and chemical nanotechnology |
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| May 10, 2010 |
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Today the sol–gel technology expands rapidly and many new products are appearing on the market, especially since the advent of hybrid
and nanocomposite materials, the so-called Ormocer and Nanomer systems. Most of the products are coatings which are developed to exhibit several functional
properties using precursor solutions and easy and fast processing. The low temperature post-processing by UV irradiation or heat treatment made on-line after
the deposition process using available industrial technologies and the combination of the best properties obtained with inorganic and polymeric systems are
further advantages. Although most of the glasses can withstand high temperature post-treatment, low temperature processing saves large amount of time and energy
and is today mandatory for preformed products.
A feature article on industrial application sol-gel coating was published in Journal of Sol-Gel Science and Technology, volume 47, page 203 to 236 in 2008.
The paper listed variety of coatings used in Automotive, architectural, Ophthalmic, Electronic industries and Household.
**********************************************************************************************************************************************************
Chemat Technology Incorporated (www.chemat.com) focuses on Sol-gel and Nanotechnology related applications and aims to be the premier “Total Sol-Gel Solution”
provider to industry. With sol-gel as the platform, novel technologies have been developed for a variety of applications using funding from government grants
and private companies. From this research a number of new technologies have been developed, some of which have been converted into commercial success. These
include the BioFun implant surface for accelerating tissue-implant integration, a special ink for implantable capacitors, GelBond for sports goods and space
applications, Chemalux multi-functional anti-reflective coating systems and a variety of nanopowders and special chemicals.
|
|---|
For further information please contact:
Dr. Yuhong Huang yhuang@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
Dr. Peter Wilkinson (Europe) pwilkinson@chemat.com
Ms. Kathia Caceres (South America) kcaceres@chemat.com
www.chemat.com
Telephone: (818) 727-9786
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| Chemat has been awarded a DOD SBIR Phase I Development Contract to develop a Li-ion battery cathode material suitable for space applications. |
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| April 10, 2010 |
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Chemat has recently been awarded a DOD SBIR Phase I Development Contract to develop a nanostructured advanced Li-ion battery cathode material for space application.
Communications satellites deployed in geosynchronous earth orbit have an operational lifetime of 10 to 15 years. This requires secondary batteries capable of providing up to 60,000 charge/discharge cycles. Even using state of the art cathode materials, current Li-ion batteries have a limited life and the aim of the development contract is to use a nanostructure material to enhance battery life.
This research will be carried out by Chemat in collaboration with Prof. Shirley Meng of the University of California. Dr. Meng focuses her research on the direct integration of experimental techniques using computation modeling to develop new materials for electric energy storage. Her research interests include oxides and phosphates and their electrochemical and thermoelectric applications, in particular, the processing – structure – property relationship of functional nanomaterials and the size-dependent thermodynamic and transport properties of materials at the nano-scale.
Chemat Technology Inc. focuses on Sol-gel and Nanotechnology related applications and aims to be the premier “Total Sol-Gel Solution” provider to industry. With sol-gel as the platform, novel technologies have been developed for a variety of applications using funding from government grants and private companies. From this research a number of new technologies have been developed, some of which have been converted into commercial success. These include the BioFun implant surface for accelerating tissue-implant integration, a special ink for implantable capacitors, GelBond for sports goods and space applications, Chemalux multi-functional anti-reflective coating systems and a variety of nanopowders and special chemicals.
Chemat is seeking an industrial partner for implementing advanced nanostructured cathode material in Li-ion batteries for space application.
|
|---|
For further information please contact:
Dr. Yuhong Huang yhuang@chemat.com
Chemat Technology Inc.
9036 Winnetka Ave.
Northridge, CA 91324
Dr. Peter Wilkinson (Europe) pwilkinson@chemat.com
Ms. Kathia Caceres (South America) kcaceres@chemat.com
www.chemat.com
Telephone: (818) 727-9786
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