Select Page ::

Ninth Annual "Livingston Nanotechnology Conference" December 11-13 in Midtown ManhattanNew York ‘s largest and longest …

Posted on December 20, 2013 by Danzig

MENAFN - Investors Ideas - 19/12/2013

New York, New York - December 11, 2013 (www.investorideas.com newswire) Livingston Securities announces the 9th annual "Livingston Nanotechnology Conference" is being held from December 11-13 in Midtown Manhattan. This is New York 's largest and longest running gathering of investors, entrepreneurs and innovators interested in disruptive technologies.

Some highlights of this year's conference include:

Scott LIvingston, Chief Executive Officer of Livingston Securities, said "We were founded in 2008 with three goals in mind: Finance the Nanotechnology Revolution (in all industries), change the way that innovation is financed on Wall Street, and connect you with your local innovation economy. 2013 has been a great year of change for innovators, entrepreneurs and those who finance them. We are excited to cap off this year with our best client and investor conference yet.

You can learn more about Livingston Securities by visiting http://www.livingstonsecurities.com

To learn more about our investor conference series and be added to our distribution list for future invitations please contact: Media@livingstonsecurities.com

Jonathan Mason

Tim Serignese

Jordan Calabrese

See original here:

Ninth Annual "Livingston Nanotechnology Conference" December 11-13 in Midtown ManhattanNew York 's largest and longest ...

Chinese government officials tour SBCCD Center at EDCT

Posted on December 20, 2013 by Danzig

Seventeen high ranking Chinese Government officials toured the Center for the Advancement of Nanotechnology at the Economic Development and Corporate Training (EDCT) Division of the San Bernardino Community College District (SBCCD) on Dec. 3 after being welcomed by the EDCT Executive Director Dr. Matthew Isaac. Isaac also provided the group with a presentation on Science and Technology and Nanotechnology.

Hosted by the FCC Group International, Inc., the group included heads and representatives of many departments and administrations within the Chinese government.

In 2011, the EDCT was visited by fourteen visitors from Beijing, China. The Center for the Advancement of Nanotechnology has become a regular stop on economic development and advanced science tours of California by corporate and government officials from China.

Nanotechnology is the science of manipulating materials at the atomic level to design and manufacture new and better materials and products. One nanometer equals one billionth of one meter. A sheet of paper is about 100,000 nanometers thick.

This is the revolutionary new manufacturing process and not a single technology.

The following are comments from the readers. In no way do they represent the view of highlandnews.net.

You must register with a valid email to post comments. Only your Member ID will be posted with the comments.

Visit link:

Chinese government officials tour SBCCD Center at EDCT

Future medicine

Posted on December 20, 2013 by Danzig

This site uses cookies to improve performance. If your browser does not accept cookies, you cannot view this site.

There are many reasons why a cookie could not be set correctly. Below are the most common reasons:

This site uses cookies to improve performance by remembering that you are logged in when you go from page to page. To provide access without cookies would require the site to create a new session for every page you visit, which slows the system down to an unacceptable level.

This site stores nothing other than an automatically generated session ID in the cookie; no other information is captured.

In general, only the information that you provide, or the choices you make while visiting a web site, can be stored in a cookie. For example, the site cannot determine your email name unless you choose to type it. Allowing a website to create a cookie does not give that or any other site access to the rest of your computer, and only the site that created the cookie can read it.

Visit link:

Future medicine

"nano tech 2014" to Be Held in Tokyo

Posted on December 20, 2013 by Danzig

TOKYO--Dec. 17, 2013: The nano tech Executive Committee (Chairman: Osaka University Professor, Tomoji Kawai) will host "nano tech 2014" the 13th International Nanotechnology Exhibition & Conference, for three days from January 29 to 31, 2014 at Tokyo Big Sight. This marks the 13th installment of the event, with a total of 520 companies and organizations (total of 736 booths) from 20 countries and regions scheduled to exhibit. (As of December 6, 2013) Concurrent Events: InterAqua, ASTEC, SURTECH, neo functional material, Printable Electronics, enex, Smart Energy Japan

This year's highlight is a special symposium focusing on Life & Green Nanotechnology. The "life" segment will feature lectures on topics such as 'Regenerative Medicine', 'Personalized Medicine', and 'Imaging', discussing the latest life-science research findings which are moving closer to practical applications thanks to nanotechnology. The dominant theme for the green segment will be 'Hydrogen', which is garnering increasing interest as the ultimate source of renewable energy. The program will explore the possibilities of the age of a hydrogen society which will bring with it fuel cell vehicles and filling stations, as well as residential-use fuel cells for housing.

-- Life Nanotechnology Special Symposium -- January 29 (Wednesday) The symposium will be highlighted with the keynote lecture titled, Life Nanotechnology: State-of-the-art 'Regenerative Medicine', 'Personalized Medicine', and 'Imaging' technology for the next generation. In addition, FUJIFILM, Kyoto University, Kyowa Hakko Kirin, and others are also set to lecture at the event. * See more about the Green Nanotechnology special symposiums program online!

Members continue to increase for the business matching system! (211 participants from 169 companies are registered, as of December 6, 2013) The business matching system, which has been significantly improved, provides support for business negotiations at the exhibition with yet more efficiency and effectiveness! Members registered 'needs' and 'seeds' are available for viewing online. See the registration status of matching members at => Nano Tech Expo

Check out the latest technological trends and state-of-the-art research findings at nano week 2014! This year will mark the first year that TNT (Trends in Nanotechnology) ventures outside Europe to be held in Japan. Hosted by Phantoms Foundation (EU, Spain) and the National Institute for Materials Science's International Center for Materials Nanoarchitectonics, lectures and discussions will take place concerning world-leading state-of-the-art nanotechnology research. Several nanotechnology-related conferences will also be held, providing forums in which to present the latest technological trends and research findings.

-- Exhibition Summary -- Nano Tech Expo

The rest is here:

"nano tech 2014" to Be Held in Tokyo

Nanotechnology – Wikipedia, the free encyclopedia

Posted on December 20, 2013 by Danzig

Nanotechnology (sometimes shortened to "nanotech") is the manipulation of matter on an atomic and molecular scale. The earliest, widespread description of nanotechnology[1][2] referred to the particular technological goal of precisely manipulating atoms and molecules for fabrication of macroscale products, also now referred to as molecular nanotechnology. A more generalized description of nanotechnology was subsequently established by the National Nanotechnology Initiative, which defines nanotechnology as the manipulation of matter with at least one dimension sized from 1 to 100 nanometers. This definition reflects the fact that quantum mechanical effects are important at this quantum-realm scale, and so the definition shifted from a particular technological goal to a research category inclusive of all types of research and technologies that deal with the special properties of matter that occur below the given size threshold. It is therefore common to see the plural form "nanotechnologies" as well as "nanoscale technologies" to refer to the broad range of research and applications whose common trait is size. Because of the variety of potential applications (including industrial and military), governments have invested billions of dollars in nanotechnology research. Through its National Nanotechnology Initiative, the USA has invested 3.7 billion dollars. The European Union has invested 1.2 billion and Japan 750 million dollars.[3]

Nanotechnology as defined by size is naturally very broad, including fields of science as diverse as surface science, organic chemistry, molecular biology, semiconductor physics, microfabrication, etc.[4] The associated research and applications are equally diverse, ranging from extensions of conventional device physics to completely new approaches based upon molecular self-assembly, from developing new materials with dimensions on the nanoscale to direct control of matter on the atomic scale.

Scientists currently debate the future implications of nanotechnology. Nanotechnology may be able to create many new materials and devices with a vast range of applications, such as in medicine, electronics, biomaterials and energy production. On the other hand, nanotechnology raises many of the same issues as any new technology, including concerns about the toxicity and environmental impact of nanomaterials,[5] and their potential effects on global economics, as well as speculation about various doomsday scenarios. These concerns have led to a debate among advocacy groups and governments on whether special regulation of nanotechnology is warranted.

The concepts that seeded nanotechnology were first discussed in 1959 by renowned physicist Richard Feynman in his talk There's Plenty of Room at the Bottom, in which he described the possibility of synthesis via direct manipulation of atoms. The term "nano-technology" was first used by Norio Taniguchi in 1974, though it was not widely known.

Inspired by Feynman's concepts, K. Eric Drexler independently used the term "nanotechnology" in his 1986 book Engines of Creation: The Coming Era of Nanotechnology, which proposed the idea of a nanoscale "assembler" which would be able to build a copy of itself and of other items of arbitrary complexity with atomic control. Also in 1986, Drexler co-founded The Foresight Institute (with which he is no longer affiliated) to help increase public awareness and understanding of nanotechnology concepts and implications.

Thus, emergence of nanotechnology as a field in the 1980s occurred through convergence of Drexler's theoretical and public work, which developed and popularized a conceptual framework for nanotechnology, and high-visibility experimental advances that drew additional wide-scale attention to the prospects of atomic control of matter.

For example, the invention of the scanning tunneling microscope in 1981 provided unprecedented visualization of individual atoms and bonds, and was successfully used to manipulate individual atoms in 1989. The microscope's developers Gerd Binnig and Heinrich Rohrer at IBM Zurich Research Laboratory received a Nobel Prize in Physics in 1986.[6][7] Binnig, Quate and Gerber also invented the analogous atomic force microscope that year.

Fullerenes were discovered in 1985 by Harry Kroto, Richard Smalley, and Robert Curl, who together won the 1996 Nobel Prize in Chemistry.[8][9] C60 was not initially described as nanotechnology; the term was used regarding subsequent work with related graphene tubes (called carbon nanotubes and sometimes called Bucky tubes) which suggested potential applications for nanoscale electronics and devices.

In the early 2000s, the field garnered increased scientific, political, and commercial attention that led to both controversy and progress. Controversies emerged regarding the definitions and potential implications of nanotechnologies, exemplified by the Royal Society's report on nanotechnology.[10] Challenges were raised regarding the feasibility of applications envisioned by advocates of molecular nanotechnology, which culminated in a public debate between Drexler and Smalley in 2001 and 2003.[11]

Meanwhile, commercialization of products based on advancements in nanoscale technologies began emerging. These products are limited to bulk applications of nanomaterials and do not involve atomic control of matter. Some examples include the Silver Nano platform for using silver nanoparticles as an antibacterial agent, nanoparticle-based transparent sunscreens, and carbon nanotubes for stain-resistant textiles.[12][13]

See the rest here:

Nanotechnology - Wikipedia, the free encyclopedia

Nanotechnology – Foresight Institute

Posted on December 20, 2013 by Danzig

17th Foresight Conference:"The Integration Conference" February 7-9, 2014 Crowne Plaza Cabana Hotel, Palo Alto Silicon Valley, California, USA

The Integration Conference will bring together over 20 speakers to present their research and vision within the realm of groundbreaking atomic- and molecular-scale science and engineering with application across a wide range of advanced technologies, including materials, electronics, energy conversion, biotechnology and more. Events will include presentation of the annual Foresight Institute Feynman Prize, one of the most prestigious awards in nanoscale science and technology.

Integration:The development and proliferation of nanotechnology through its applications in diverse fields are dependent upon the successful integration of nano-engineered devices and materials ("nanosystems") into more complex micro- and macro-systems. Thus, this year the concept of Integration is highlighted, for the successful integration of nanosystems can impact the rate of development, application, and ultimately benefit.

Analysis, simulation, synthesis, and mass production are challenges for nanotechnology integration in such diverse applications as biotechnology, medicine, microelectronics, defense, energy conversion and storage, coatings, textiles, pharmaceuticals, cosmetics, and even food and food security.

Conference Co-Chairs Robert P. Meagley, CEO/CTO, ONE Nanotechnologies William A. Goddard III, Director, Materials and Process Simulation Center, Caltech

Planned Sessions include:

For further details on the conference, speakers, and events, and to register

With contributions like yours, Foresight will be able to advance beneficial nanotechnology through our publications, prizes, and conferences. We will continue to be a growing force enabling businesses, scientists, technologists, policy makers, investors, and individuals to be informed about how nanotechnology can contribute to a better future.

Thanks to a generous $40,000 Challenge Grant, every contribution you make to Foresight is matched dollar-for-dollar to that amount. Donations and memberships sent by December 31 qualify as 2013 tax deductions. For extra tax savings, donate appreciated stock.

Conference on nanotechnology held in Kozhikode

Posted on December 20, 2013 by Danzig

The second day of COPEN, the International conference on Precision, Meso, Micro and Nano Engineering at the National Institute of Technology, Calicut (NIT-C), was quite informative for the participants with eminent speakers from all over the world delivering four keynote addresses on Saturday.

The first keynote address was by Shreyas N. Melkote from Georgia Institute of Technology, on Wafering of Photo-Voltaic Silicon. The second keynote address was delivered by Satish T.S. Bukkapatanam from Oklahoma State University, on Sensor Reconstructed Non-Linear Stochastic Modelling for Monitoring Precision Grinding Processes.

The third keynote address was by Suhas S. Joshi from IIT, Mumbai on Reverse Micro Electro Discharge Machining . The last keynote of the day by Nilesh J. Vasa from IIT, Chennai was based on Recent Advances in Laser Assisted Annealing and Texturing of Amorphous Silicon thin films for Photo-Voltaic Applications. COPEN is being held for the eighth consecutive year and the conference was inaugurated by former chairman of HAL, Bangalore and Chancellor of Jain University C.G. Krishnadas Nair on Friday. In his inaugural address, he highlighted the growing importance of miniaturization of components in various engineering equipments. Managing Director of HMT Ltd, Bangalore M.D. Sreekumar presided over the inaugural function. The COPEN-8 souvenir was launched on the occasion.

The first day featured three keynote speakers and an industrial presentation along with a parallel technical session.

A book exhibition and an industrial exhibition are being organised as part of COPEN 8.

The conference will conclude on Sunday.

Originally posted here:

Conference on nanotechnology held in Kozhikode

NanoMech Unveils Its ‘Oscar of Innovation’

Posted on December 20, 2013 by Danzig

NanoMech unveiled its "Oscar of Innovation" Thursday at the University of Arkansas.

The UA startup manufactures nano-based products including TuffTek, the nano-coating that reduces heat resistance and improves precision for cutting tools and for which NanoMech won a prestigious R&D 100 Award earlier this year.

Considered the "Oscars of Innovation," the R&D 100 awards recognize the year's top tech innovations. The R&D 100 plaque unveiled Thursday at the UA's Institute for Nanoscience and Engineeringsignifies NanoMech's inclusion in R&D Magazine's 2013 list.

NanoMech, with amanufacturing plant and labs in Springdale and offices at the UA's research park in Fayetteville,was founded in 2002 by UA mechanical engineering professor Ajay Malshe. The technology is patented to the UA and licensed to NanoMech, a client firm of Innovate Arkansas and the Arkansas Science & Technology Authority and a portfolio company of VIC Technology Venture Development.

"We maintain an outstanding relationship with the University of Arkansas in technology transfer and commercialization, said NanoMech CEO Jim Phillips in the release. "The vast majority of our engineers and scientists are University of Arkansas graduates and have trained on the analytical equipment.

"The Institute of Nanoscience and Engineering is a major regional asset to NanoMech as we utilize the vast array of scientific apparatuses and electron microscopes to help advance our technology and industry breakthrough products that increase Americas global manufacturingcompetitiveness," he said.

NanoMech currently has 35 employees, 80 percent of whom graduated from the UA, and plans to add 10 employees soon.

"NanoMech could not have received this prestigious award without the interdisciplinary, out-of-the-box thinking and tireless work of our world-class team of scientists, including Dr. Wenping Jiang, vice president of manufacturing," Malshe said. "I would also like to thank the teams at the Institute for Nanoscience and Engineering at the University of Arkansas, the National Science Foundation and the Environmental Protection Agency for their contributions over the years."

Gearhart noted the university's return-on-investment with NanoMech.

"NanoMech presented a check for $375,000 in royalty payments to the university at the dedication of this very building two years ago," Gearhart said at the unveling from the Institute. "NanoMech has gone on to pay the U of A nearly $200,000 in royalty payments since then."

See more here:

NanoMech Unveils Its 'Oscar of Innovation'

Nanofilm Announces Krish Rao as New President, Scott Rickert to Remain CEO

Posted on December 20, 2013 by Danzig

Valley View, OH (PRWEB) December 20, 2013

Nanofilm, a company with a leading market position for specialty optical coatings, cleaners and nano-composite products, has named Krish Rao as President of the company. He succeeds Scott Rickert, company founder, who retains his role as Chief Executive Officer.

Dr. Rao has been Nanofilms Vice President of Technology since joining the organization in 2006.

Krish Rao has a track record of product development success at Nanofilm, said Rickert. "His ability to blend research and development expertise with an understanding of the realities of commercialization makes him ideal for a leadership position for a future of growth.

With a portfolio of products enabled by nanotechnology and an expanding global reach, its an exciting time to for me to lead the Nanofilm team and help continue the momentum, noted Rao.

Rao brings over thirty years experience in new product development and commercialization in fibers, plastics, and film industries, for diverse end use market such as aerospace, automotive, power tools and construction. His previous experience encompasses rebuilding organizations for customer focus and speed and managing diverse functions such as R&D, Manufacturing, Quality Control, Technical Service and Materials Management groups. The holder of four patents and author of a variety of technical publications, Dr. Rao holds a BS in Chemical Engineering from the Indian Institute of Technology, Masters Degrees in both Chemical Engineering and Engineering Administration, and a Ph.D., from the University of Utah in Materials Science and Engineering.

About Nanofilm, Ltd. Nanofilm, Ltd. Is a Valley View, Ohio private company that develops nano-layer coatings, nano-based cleaners, and nano-composite products. Nanofilms primary commercial products center around its unique eyewear lens cleaning, best-in-class de-fogging products and nanotechnology treatments that enhance glass and ceramic surfaces to provide special properties. Examples include enabling easy removal of fingerprints from touchscreens, making shower doors resistant to soap scum and dirt accumulation, stay-clean surface treatments for ceramic insulators, and scuff-resistant treatments for commercial dinnerware. For information about Nanofilm, please visit http://www.nanofilmtechnology.com.

See the original post:

Nanofilm Announces Krish Rao as New President, Scott Rickert to Remain CEO

Four University of Houston researchers named to National Academy of Inventors

Posted on December 20, 2013 by Danzig

Four researchers from the University of Houston have been named as fellows of the National Academy of Inventors (NAI).

The new fellows include Rathindra N. Bose, vice president for research and technology transfer for the University of Houston and vice chancellor for research and technology transfer for the UH system; Dmitri Litvinov, interim vice provost and dean of the Graduate School and John and Rebecca Moores Professor in the Cullen College of Engineering; Zhifeng Ren, M.D. Anderson Chair Professor of Physics and principal investigator at the Texas Center for Superconductivity, and Venkat Selvamanickam, M.D. Anderson Chair Professor of Mechanical Engineering and director of the Texas Center for Superconductivitys Applied Research Hub.

Together, they hold 134 issued and pending U.S. patents, along with a number of international patents.

Academic researchers are driven by curiosity and the search for new knowledge, Bose said. But we also strive to produce work that can in some way improve the lives of the people around us.

He and the other researchers from UH were among 143 people elected NAI Fellows, representing 94 universities and governmental and nonprofit research institutes. All told, the new fellows hold more than 5,600 U.S. patents. Nine are Nobel Laureates.

They will be inducted March 7, during the annual conference of the National Academy of Inventors in Alexandria, Va., at the headquarters of the U.S. Patent and Trademark Office.

Rathindra Bose: Bose, who also holds faculty appointments in the UH departments of Chemistry, Biology and Biochemistry, and Pharmacological and Pharmaceutical Sciences, discovered a new class of anti-cancer agents, Phosphaplatins, which have potential to treat metastatic cancers. They have been licensed to a New York-based biotechnology company, Phosplatin Therapeutics, which is planning to hold clinical trials.

Cancer is a disease of genetic disorder, and hence, it should be treated as such, Bose said.

He believes organ-based treatment is the strategy of the past, and he concentrated on the design and discovery of anti-cancer drugs that address major signaling pathways to shut down the growth of tumor cells by cutting blood supply and selectively killing cancer cells.

He said that Phosphaplatins have been shown to be effective against 96 percent of the National Cancer Institutes 60 major cancer cell lines, and preclinical data show that Phosplatins are equally effective against ovarian, lung and head and neck cancers.

HowStuffWorks "How Moore’s Law Works" – Computer

Posted on December 20, 2013 by Danzig

There's a joke about personal computers that has been around almost as long as the devices have been on the market: You buy a new computer, take it home and just as you finish unpacking it you see an advertisement for a new computer that makes yours obsolete. If you're the kind of person who demands to have the fastest, most powerful machines, it seems like you're destined for frustration and a lot of trips to the computer store.

While the joke is obviously an exaggeration, it's not that far off the mark. Even one of today's modest personal computers has more processing power and storage space than the famous Cray-1 supercomputer. In 1976, the Cray-1 was state-of-the-art: it could process 160 million floating-point operations per second (flops) and had 8 megabytes (MB) of memory.

Today, many personal computers can perform more than 10 times that number of floating-point operations in a second and have 100 times the amount of memory. Meanwhile on the supercomputer front, the Cray XT5 Jaguar at the Oak Ridge National Laboratory performed a sustained 1.4 petaflops in 2008 [source: Cray]. The prefix peta means 10 to the 15th power -- in other words, one quadrillion. That means the Cray XT5 can process 8.75 million times more flops than the Cray-1. It only took a little over three decades to reach that milestone.

If you were to chart the evolution of the computer in terms of processing power, you would see that progress has been exponential. The man who first made this famous observation is Gordon Moore, a co-founder of the microprocessor company Intel. Computer scientists, electrical engineers, manufacturers and journalists extrapolated Moore's Law from his original observation. In general, most people interpret Moore's Law to mean the number of transistors on a 1-inch (2.5 centimeter) diameter of silicon doubles every x number of months.

The number of months shifts as conditions in the microprocessor market change. Some people say it takes 18 months and others say 24. Some interpret the law to be about the doubling of processing power, not the number of transistors. And the law sometimes seems to be more of a self-fulfilling prophecy than an actual law, principle or observation. To understand why, it's best to go back to the beginning.

HowStuffWorks "How Moore's Law Works" - Computer

The Skanner Newspaper – Remember the Moores at Christmastime

Posted on December 20, 2013 by Danzig

Details Written by By Gloria J. Browne-Marshall Published: 19 December 2013

Late on Christmas night terrorists bombed a wood-framed house in Mims, Florida. Harry Moore, 46, died instantly. His wife Harriette, 49, would die days later. They were African-American civil rights leaders. That was 1951. No one was convicted. Too few remember.

The explosion was heard for miles. Neighbors rushed to their single story home usually kept so neat to find splintered wood, broken glass, and a gaping hole where the bedroom used to be. As the couple slept, terrorists had placed a bomb under their home near the bedroom.

That Christmas Day marked their 25th wedding anniversary. The Moores had been community activists standing up for justice when others were too afraid. In 1934, Harry Moore started the Brevard County NAACP. He organized Floridas first NAACP conference.

Harriette Moore was a teacher. Harry Moore was a principal. When Black and White teachers received very different salaries for the same work, Harry Moore helped Black teachers file the first lawsuit brought in the Deep South to equalize salaries. The Moores believed race pride, education, and determination would defeat the racial prejudice facing Black students in segregated Florida.

Harry Moore investigated the 1943 lynching of Cellos Harrison, African-American. According to the organization Civil Rights and Restorative Justice, the lifeless body of Cellos Harrison was found near Floridas State Road 84. He had been lynched in retaliation for the unsolved murder of a white service station owner killed three years earlier.

Then, in 1944, there was the lynching of 15-year-old Willie James Howard, African-American. He had been taken to the Suwannee River by Phil Goff, a White Florida legislator, who was the father of a girl to whom Howard had given a Christmas card. The boys' body was found the following day. Harry Moore took affidavits, wrote letters, and called for a federal investigation.

Although no one was arrested for these crimes Harry and Harriette Moore continued their fight for lynching victims in Florida long after others gave up. In spite of intimidation, the Moores pushed for voting rights. Harry Moore formed the Florida Progressive Voter's League.

Registering Black voters and challenging White political power resulted in the loss of both of their teaching jobs. However, Harry gained a position leading the Florida branches of the NAACP, as Executive Secretary.

Here is the original post:

The Skanner Newspaper - Remember the Moores at Christmastime

PhD Student Showcase: Chung Ching Chu, Division of Genetics and Molecular Medicine – Video

Posted on December 20, 2013 by Danzig

PhD Student Showcase: Chung Ching Chu, Division of Genetics and Molecular Medicine

By: kingsmedicine

The Molecular Medicine Tri Conference 2014

Posted on December 20, 2013 by Danzig

Plenary Keynote Presenters

Event-at-a-Glance

Submit Your Poster Today!

About the Tri-Conference

The 21st International Molecular Medicine Tri-Conference is the industrys Preeminent Event on Molecular Medicine, focusing on Drug Discovery, Genomics, Diagnostics and Information Technology. Spanning six days this year, the Tri-Conference includes an expanded program that includes 6 symposia, 20 short courses, and 15 conference programs. For the first time in over 10 years were bringing back a dedicated conference on sequencing. As many will recall this events infancy was heavily devoted to the Human Genome Project and we are excited to reintroduce sequencing to this event.

For over 20 years, Tri-Conference attendees gained insight and knowledge by attending, knowledge that they were able to take with them, and have an immediate impact on their research. Plan to attend this years Tri-Conference where you can be part of driving change and working towards shaping the future of medicine.

Why attend the Tri-Conference?

2013 Attendee Testimonials

Read the rest here:

The Molecular Medicine Tri Conference 2014

Molecular medicine – Wikipedia, the free encyclopedia

Posted on December 20, 2013 by Danzig

Molecular medicine is a broad field, where physical, chemical, biological and medical techniques are used to describe molecular structures and mechanisms, identify fundamental molecular and genetic errors of disease, and to develop molecular interventions to correct them. The molecular medicine perspective emphasizes cellular and molecular phenomena and interventions rather than the previous conceptual and observational focus on patients and their organs.[1]

In November 1949, with the seminal paper, "Sickle Cell Anemia, a Molecular Disease",[2] in Science magazine, Linus Pauling, Harvey Itano and their collaborators laid the groundwork for establishing the field of molecular medicine.[3] In 1956, Roger J. Williams wrote Biochemical Individuality,[4] a prescient book about genetics, prevention and treatment of disease on a molecular basis, and nutrition which is now variously referred to as individualized medicine[5] and orthomolecular medicine.[6] Another paper in Science by Pauling in 1968,[7] introduced and defined this view of molecular medicine that focuses on natural and nutritional substances used for treatment and prevention.

Published research and progress was slow until the 1970s' "biological revolution" that introduced many new techniques and commercial applications.[8]

Molecular medicine is a new scientific discipline in European universities. Combining contemporary medical studies with the field of biochemistry, it offers a bridge between the two subjects. At present only a handful of universities offer the course to undergraduates. With a degree in this discipline the graduate is able to pursue a career in medical sciences, scientific research, laboratory work and postgraduate medical degrees.

Core subjects are similar to biochemistry courses and typically include gene expression, research methods, proteins, cancer research, immunology, biotechnology and many more besides. In some universities molecular medicine is combined with another discipline such as chemistry, functioning as an additional study to enrich the undergraduate program.

See original here:

Molecular medicine - Wikipedia, the free encyclopedia

EP Dec. 15, 2013: Challenges and Practical Benefits of Big Data and Cloud Computing – Video

Posted on December 20, 2013 by Danzig

EP Dec. 15, 2013: Challenges and Practical Benefits of Big Data and Cloud Computing
[The EmeraldPlanet TV] 12.15.13 Channel 10 TV "Challenges and Practical Benefits of Big Data and Cloud Computing in Foster Global Sustainable Development" Ou...

By: The EmeraldPlanet International Organization

See more here:

EP Dec. 15, 2013: Challenges and Practical Benefits of Big Data and Cloud Computing - Video

Molecular Medicine – Graduate School of Biomedical Sciences …

Posted on December 20, 2013 by Danzig

The Department of Molecular Medicine in the Institute of Biotechnology (IBT) was established in 1994 to administer a program to train graduate students at the interface of basic and clinical sciences with an emphasis on biomedical research focused on discovering the molecular mechanisms underlying human disease and to serve as a platform for the development of novel treatment or prevention approaches. To date, our program has awarded over 80 doctoral degrees. Our graduates are placed in top-tier research universities and pharmaceutical companies across the United States and Europe. Our faculty have been successful in securing tens of millions of dollars from private and federal agencies including the National Institutes of Health, the National Science Foundation, and the Department of Defense.

Now also located in the South Texas Research Facility (STRF), we offer a research-oriented, interdisciplinary program of study in the areas of cancer and aging and their prevention. Specific areas of study include: cell (and hormone) signaling, gene expression, epigenetics, cell cycle and checkpoint controls, DNA damage repair and associated stress responses, and regulated protein turnover. Under new leadership, Dr. Tim Huang is expanding our research to include a Systems approach to molecular medicine that offers students an integrated training program spanning molecular and cellular biology, quantitative biology, computational biology, and genomics.

Our goal is to educate and train the next generation of graduate students who will change the face of biomedical research and invent new ways to treat and prevent human diseases. [More info...]

Read the original post:

Molecular Medicine - Graduate School of Biomedical Sciences ...

Molecular Diagnostics Prospects in Genetic Testing Area Discussed in Discounted Report by TriMark Published at …

Posted on December 20, 2013 by Danzig

London, UK (PRWEB) December 20, 2013

Nowadays, molecular diagnostics in generic testing introduces advanced analytical techniques to the treatment and diagnosis of various generic disorders. The burgeoning growth in the market is propelled by considerable breakthroughs in proteomics and genomics, as well as by the ongoing development of microarray devices to measure different analytes within body tissues and blood. The range of the major recent developments includes but is not limited to the introduction and rapid uptake of cell-free fetal DNA prenatal testing, advancements in the development of personalised medicine, the integration of gene expression profiling and specialty labs into clinical practice, expansion of the installed base of automated instruments used for molecular testing and also the considerable progress of companion diagnostics for drug development.

At present, generic testing forms one of the most profitable segments of the overall molecular diagnostics space. The generic testing area has a huge growth potential, which is poised to be the major area of interest in the upcoming years.

Discounted research report Molecular Diagnostics in Genetic Testing drawn up by TriMark Publications (TriMark) has been recently published by Market Publishers Ltd.

Report Details:

Title: Molecular Diagnostics in Genetic Testing Published: November, 2013 Pages: 185 Price:US$ 3,060.00 http://marketpublishers.com/report/in_vitro_diagnostics/molecular_diagnostics/molecular-diagnostics-in-genetic-testing.html

The in-demand report presents a comprehensive guide to the emerging market for molecular diagnostics in generic testing globally and in the USA. It provides an in-depth assessment of this emerging field, offers a detailed analysis of its performance, estimates the size and growth potential of the molecular diagnostics in the genetic testing area. The research study contains a detailed examination of the major factors influencing the development of different market sectors, delves into the competitive environment and uncovers vital information on the performance of the leading companies engaged in the industry. The report characterises the regulative framework, describes the current market landscape and then thoroughly discusses the future growth prospects of molecular diagnostics in the generic testing universe.

Report Features & Benefits:

Other Discounted Research Studies by TriMark Include:

More insightful research reports by the publisher can be found at TriMark page.

Here is the original post:

Molecular Diagnostics Prospects in Genetic Testing Area Discussed in Discounted Report by TriMark Published at ...

Home (World Scientific)

Posted on December 20, 2013 by Danzig

This site uses cookies to improve performance. If your browser does not accept cookies, you cannot view this site.

There are many reasons why a cookie could not be set correctly. Below are the most common reasons:

This site stores nothing other than an automatically generated session ID in the cookie; no other information is captured.

The rest is here:

Home (World Scientific)

Select Page ::

Futurist Transhuman News Blog

Ninth Annual "Livingston Nanotechnology Conference" December 11-13 in Midtown ManhattanNew York ‘s largest and longest …

Chinese government officials tour SBCCD Center at EDCT

Sponsored post: A nanosolution eliminates the danger of tiny tin whiskers

Future medicine

"nano tech 2014" to Be Held in Tokyo

Nanotechnology – Wikipedia, the free encyclopedia

Nanotechnology – Foresight Institute

Conference on nanotechnology held in Kozhikode

NanoMech Unveils Its ‘Oscar of Innovation’

Nanofilm Announces Krish Rao as New President, Scott Rickert to Remain CEO

Four University of Houston researchers named to National Academy of Inventors

HowStuffWorks "How Moore’s Law Works" – Computer

The Skanner Newspaper – Remember the Moores at Christmastime

PhD Student Showcase: Chung Ching Chu, Division of Genetics and Molecular Medicine – Video

The Molecular Medicine Tri Conference 2014

Molecular medicine – Wikipedia, the free encyclopedia

EP Dec. 15, 2013: Challenges and Practical Benefits of Big Data and Cloud Computing – Video

Molecular Medicine – Graduate School of Biomedical Sciences …

Molecular Diagnostics Prospects in Genetic Testing Area Discussed in Discounted Report by TriMark Published at …

Home (World Scientific)