Tag Archives: Awards

Nobel Prize in Physiology or Medicine 2008

photos of Harald zur Hausen, FranÃ§oise BarrÃ©-Sinoussi and Luc Montagnier

The Nobel Prize in Physiology or Medicine for 2008 with one half to Harald zur Hausen for his discovery of “human papilloma viruses causing cervical cancer” and the other half jointly to FranÃ§oise BarrÃ©-Sinoussi and Luc Montagnier for their discovery of “human immunodeficiency virus.”

Harald zur Hausen went against current dogma and postulated that oncogenic human papilloma virus (HPV) caused cervical cancer, the second most common cancer among women. He realized that HPV-DNA could exist in a non-productive state in the tumours, and should be detectable by specific searches for viral DNA. He found HPV to be a heterogeneous family of viruses. Only some HPV types cause cancer. His discovery has led to characterization of the natural history of HPV infection, an understanding of mechanisms of HPV-induced carcinogenesis and the development of prophylactic vaccines against HPV acquisition.

FranÃ§oise BarrÃ©-Sinoussi and Luc Montagnier discovered human immunodeficiency virus (HIV). Virus production was identified in lymphocytes from patients with enlarged lymph nodes in early stages of acquired immunodeficiency, and in blood from patients with late stage disease. They characterized this retrovirus as the first known human lentivirus based on its morphological, biochemical and immunological properties. HIV impaired the immune system because of massive virus replication and cell damage to lymphocytes. The discovery was one prerequisite for the current understanding of the biology of the disease and its antiretroviral treatment.

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2008 MacArthur Fellows

photos of Kirsten Bomblies, Marin Soljacic, Rachel Wilson and Andrea Ghez

MacArthur Fellows receive $500,000 is support over 5 years with no strings attached. Unfortunately for me, I was passed over again. However, 25 people have been selected including

Kirsten Bomblies, Max Planck Institute for Developmental Biology, Tubingen, Germany. Plant Evolutionary Geneticist opening avenues into the mysteries of how new species originate through her explorations of incompatible hybrids as a mechanism for speciation in shared ecological niches.

Marin Soljacic, Massachusetts Institute of Technology, Cambridge, Massachusetts. Optical Physicist demonstrating both theoretically and experimentally that power can be transmitted wirelessly, potentially leading to a range of electrical devices that can operate without batteries or wall connections.

Rachel Wilson, Harvard Medical School, Boston, Massachusetts. Experimental Neurobiologist integrating electrophysiology, neuropharmacology, molecular genetics, and anatomy to measure the activity of neurons in the diminutive brain of the fruit fly.

Andrea Ghez, University of California Los Angeles, Los Angeles, California. Astrophysicist using novel, ground-based telescopic techniques to identify thousands of new star systems and illuminate the role of super-massive black holes in the evolution of galaxies.

Photos, from the MacArthur Foundation web site left to right Kirsten Bomblies, Marin Soljacic, Rachel Wilson and Andrea Ghez.

Seventh-grader’s Solar Cell Research

photo of William Yuan

Seventh-grader shines with solar cell research

Yuan worked on his project for the past two years with the encouragement of his science teacher Susan Duncan; support of his parents Gang Yuan and Zhiming Mei; and counsel of professional mentors Professor Chunfei Li of Portland State University’s Center for Nanofabrication and Electron Microscopy, Fred Li of Applied Materials Inc. and Professor Shaofan Li of the Department of Civil Engineering at the University of California – Berkeley.

“He is our youngest fellow in science that we’ve ever had,” Moessner said. “He is really spectacular. “His project will really make a difference in advancing the technology of solar cells. You would never know he’s 12 looking at the quality of his work.”

Beaverton boy lauded for solar cell invention

there have been many questions about the research by William Yuan. Some have even questioned whether he copied the research of others and claimed it as his own. That is far from the case. Yuan fully documented all of his sources and never tried to imply that he invented the 3D solar cell. He did create a new type of 3D solar cell that works for visible and UV light

William Yuan was awarded a 2008 Davidson Fellow award

In his project, “High Efficient 3-Dimensional Nanotube Solar Cell for Visible and UV Light,” William invented a novel solar panel that enables light absorption from visible to ultraviolet light. He designed carbon nanotubes to overcome the barriers of electron movement, doubling the light-electricity conversion efficiency. William also developed a model for solar towers and a computer program to simulate and optimize the tower parameters. His optimized design provides 500 times more light absorption than commercially-available solar cells and nine times more than the cutting-edge, three-dimensional solar cell.

Goldbergian Flash Fits Rube Goldberg Web Site

Intentionally, I hope, the Rube Goldberg Machine Contest web site illustrates how to use needlessly complex engineering to design a tool that fails to follow sensible engineering guidelines. Rather than aiming for well designed usable products, the desire is to produce a machine that sort-of complies with the requirements but in a extremely foolish, convoluted way. Obviously it would be much more sensible to design that web site with html and it would just work simply, easily and quickly for everyone. But flash is the perfect tool to use if you want to promote Goldbergian thinking.

The web site, for example, does display content to a web browser. If that web browser has a flash plugin installed and it is the proper type. And sure the conventions of the web don’t work in this crippled environment but who cares about that when designing Goldbergian web sites. Of course if you actually want to design a good web site such choices would be – lets see, oh yeah, lame. I could link to the contest information – but in good Flash Goldbergian fashion that is not possible with the non-website website they have.

High School Student Isolates Microbe that Eats Plastic

WCI student isolates microbe that lunches on plastic bags

Daniel Burd’s project won the top prize at the Canada-Wide Science Fair in Ottawa. He came back with a long list of awards, including a $10,000 prize, a $20,000 scholarship, and recognition that he has found a practical way to help the environment.
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First, he ground plastic bags into a powder. Next, he used ordinary household chemicals, yeast and tap water to create a solution that would encourage microbe growth. To that, he added the plastic powder and dirt. Then the solution sat in a shaker at 30 degrees.

After three months of upping the concentration of plastic-eating microbes, Burd filtered out the remaining plastic powder and put his bacterial culture into three flasks with strips of plastic cut from grocery bags. As a control, he also added plastic to flasks containing boiled and therefore dead bacterial culture.

Six weeks later, he weighed the strips of plastic. The control strips were the same. But the ones that had been in the live bacterial culture weighed an average of 17 per cent less.
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The inputs are cheap, maintaining the required temperature takes little energy because microbes produce heat as they work, and the only outputs are water and tiny levels of carbon dioxide — each microbe produces only 0.01 per cent of its own infinitesimal weight in carbon dioxide, said Burd.

“This is a huge, huge step forward . . . We’re using nature to solve a man-made problem.” Burd would like to take his project further and see it be used. He plans to study science at university, but in the meantime he’s busy with things such as student council, sports and music.

Thompson and Tits share 2008 Abel Prize (Math)

Thompson and Tits share the Abel Prize for 2008

John Griggs Thompson, Graduate Research Professor, University of Florida, and Jacques Tits, Professor Emeritus, CollÃ¨ge de France, have been awarded the 2008 Abel Prize “for their profound achievements in algebra and in particular for shaping modern group theory.” In the prize citation, the Abel Committee writes that “Thompson revolutionized the theory of finite groups by proving extraordinarily deep theorems that laid the foundation for the complete classification of finite simple groups, one of the greatest achievements of twentieth century mathematics.”

In 1963, Thompson and Walter Feit proved that all nonabelian finite simple groups were of even order, work for which they both won the Frank Nelson Cole Prize in Algebra from the AMS in 1965. Thompson also won a Fields Medal in 1970. In the Abel citation for Tits, the committee writes that “Tits created a new and highly influential vision of groups as geometric objects. He introduced what is now known as a Tits building, which encodes in geometric terms the algebraic structure of linear groups.” The committee noted the link between the two winners’ work: “Tits’s geometric approach was essential in the study and realization of the sporadic groups, including the Monster.” Tits received the Grand Prix of the French Academy of Sciences in 1976, and the Wolf Prize in Mathematics in 1993.

The Abel Prize is awarded by the Norwegian Academy of Science and Letters for outstanding scientific work in the field of mathematics. The prize amount is 6,000,000 Norwegian kroner (over US$1,000,000).

2008 Draper Prize for Engineering

Draper Prize for Engineering Medal

2008 Charles Stark Draper Prize will be awarded to Rudolf Kalman for the development and dissemination of the optimal digital technique known as the Kalman Filter. The award recipient receives a $500,000 cash award. 2007 Draper Prize to Berners-Lee – 2006 Draper Prize for Engineering

The Kalman Filter uses a mathematical technique that removes “noise” from series of data. From incomplete information, it can optimally estimate and control the state of a changing, complex system over time. The Kalman filter revolutionized the field of control theory and has become pervasive in engineering systems. It has been applied to systems and devices in nearly all engineering fields and continues to find new uses today. Applications include target tracking by radar, global positioning systems, hydrological modeling, atmospheric observations, time-series analyses in econometrics, and automated drug delivery.

Collegiate Inventors Competition

A novel way to treat cancer has won the top honor at the 2007 Collegiate Inventors Competition, an annual program of the National Inventors Hall of Fame Foundation. Ian Cheong of Johns Hopkins University was announced as the grand prize winner, receiving a $25,000 prize, during a ceremony last night on the campus of the California Institute of Technology.

This year’s winners also include John Dolan of the University of California, San Francisco in the graduate category for his work on the Dolognawmeter, a device to measure the effectiveness of painkillers, and Corey Centen and Nilesh Patel of McMaster University in the undergraduate category for their work on creating a CPR assist device. The McMaster team and Dolan each received a $15,000 prize from the competition, which is sponsored by the United States Patent and Trademark Office (USPTO) and the Abbott Fund.

The Collegiate Inventors Competition has recognized and encouraged undergraduate and graduate students on their quest to change the world around them for 17 years. Entries for 2008 are due by 16 May 2008 and must be the original idea and work product of the student/advisor team, and must not have been (1) made available to the public as a commercial product or process or (2) patented or published more than 1 year prior to the date of submission to the competition. The entry submitted must be written in English.

The invention, a reduced-to-practice idea or workable model, must be the work of a student or team of students with his or her university advisor. If it is a machine, it must be operable. If it is a chemical, it must be complete with evidence of successful application of the idea. If it is a new plant, color photographs or slides must be included in the submission. If a new or original ornamental design for an article of manufacture is submitted, the entire design must be included in the application. In addition, the invention should be reproducible.

Ian Cheong, 33, arrived at Johns Hopkins University from his native Singapore prepared to focus on cancer therapy. Drugs used in cancer treatment routinely kill the healthy cells as well as the cancer cells because they are potent but nonspecific. Cheong took on the task of finding a way to make the cancer drugs more specific. He injected bacterial spores into the subject which made their way to oxygen-poor areas within cancerous tumors. Then, Cheong put a cancerfighting drug in lipid particles and injected those liposomes into a subject. The germinated bacterial spores also secrete a protein that makes liposomes fall apart when the drug-containing liposomes are in the proximity of the tumors, and the drug is released only in those specific areas. Cheong, originally educated as a lawyer, received his Ph.D. in cell and molecular medicine from Johns Hopkins and is currently working on postdoctoral research. His advisor, Bert Vogelstein, receives a $15,000 prize.

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Concentrating Solar Collector wins UW-Madison Engineering Innovation Award

Solar Collector

An inexpensive, modular solar-energy technology that could be used to heat water and generate electricity (see photo) won $12,500 and took first place in both the Schoofs Prize for Creativity and Tong Prototype Prize competitions, held Feb. 9 and 10 during Innovation Days on the UW-Madison College of Engineering campus.

In a package about the size of a small computer desk, the winning system uses a flat Fresnel lens to collect the sun’s energy and focus it onto a copper block. Then a unique spray system removes the energy from the copper block and converts it into steam, says inventor Angie Franzke, an engineering mechanics and astronautics senior from Omro, Wisconsin. The steam either heats water for household use or powers a turbine to generate electricity.

Other 2006 Schoofs Prize for Creativity winners include:

* Second place and $7,000 — William Gregory Knowles, for the OmniPresent Community-Based Response Network, a personal, business or industrial security system that draws on networked users and devices to more efficiently verify burglar alarms, fire alarms or medical emergencies.
* Third place and $4,000 — Garret Fitzpatrick, Jon Oiler, Angie Franzke, Peter Kohlhepp and Greg Hoell for the Self-Leveling Wheelchair Tray, a stowable working surface for wheelchairs that self-levels, even when the wheelchair is tilted or reclined up to a 45-degree angle.

2006 Draper Prize for Engineering

Draper Prize for Engineering Medal

2006 Charles Stark Draper Prize Won by Inventors of Charge-coupled Devices

The 2006 Charles Stark Draper Prize will be presented by the National Academy of Engineering to the inventors of charge-coupled devices (CCDs), Willard S. Boyle and George E. Smith, on Feb. 21 in Washington , D.C. Boyle and Smith will share the $500,000 prize for inventing CCDs, which are imaging sensors or optical elements that convert light to digital data. CCDs are widely used in consumer products, such as camcorders and cell phone cameras, as well as in advanced electronic imaging tools, such as telescopes and imaging satellites.

CCDs are the first practical solid-state imaging devices. They were invented in 1969 by Boyle and Smith while working at Bell Laboratories. Because CCDs are silicon-based devices, they are fairly inexpensive to produce, compact, and fairly rugged, making them suitable for commercial product use. Their high sensitivity, excellent stability, and lack of distortion make CCDs attractive for use in scientific research imaging systems. CCDs are capable of imaging a variety of sources, including optical, x-ray, ultraviolet, and infrared emissions.

Administered by the National Academy of Engineering, the Draper Prize is endowed by The Charles Stark Draper Laboratory, Inc., and was established in 1988. The Prize is awarded for outstanding achievement, particularly innovation and reduction to practice, in engineering and technology contributing to the advancement of the welfare and freedom of humanity. The Prize honors the memory of Draper Laboratory’s founder, Dr. Charles Stark Draper, who pioneered inertial navigation. It is intended to increase public understanding of the contributions of engineering and technology. Originally biennial, the Prize is now awarded annually.

Previous years awards include:
2002: Dr. Robert S. Langer for extraordinary contributions to the bioengineering of revolutionary medical drug delivery systems
2001: Drs. Vinton Cerf, Robert Kahn, Leonard Kleinrock, and Lawrence Roberts for the invention of the Internet