 |
|
From Europa to the lab, a new recipe for oxygen on icy moons
March 28, 2006A new Pacific Northwest National Laboratory study offers the most detailed picture to date on how oxygen can be made in frigid reaches far from Earth.
ATLANTA- Some may be surprised to learn that bleach-blondes and the enabler of life elsewhere in our solar system have something in common. And, no, it's not intelligence. It is, in fact, hydrogen peroxide.
But how that hydrogen peroxide emerges from ice to become life-sustaining oxygen has been unclear. Now, a new study at the Department of Energy's Pacific Northwest National Laboratory in Richland, Wash., offers the most detailed picture to date on how oxygen can be made in frigid reaches far from Earth.
Since its discovery on Jupiter's Europa and other icy moons orbiting large gaseous worlds, extraterrestrial ice as a source for oxygen has presented the tantalizing possibility of complex life around other planets. Yet planetary scientists have struggled to explain how, in the absence of sufficient heat, oxygen could be produced from the permafrost surfaces for use, in Europa's case, by whatever life forms that might inhabit oceans trapped beneath.
The standard explanation is that abundant high-energy particles from space-protons, ultraviolet photons, electrons-break the molecular bonds that chain oxygen to hydrogen. (The geophysics - how the oxygen gets into the ocean as ice is - is another story, one involving a conveyor-belt-like recycling of surface ice into the ocean.)
Those previous oxygen-production models, however, don't jibe with what staff scientist Greg Kimmel and his colleagues at the PNNL-based W.R. Wiley Environmental Molecular Sciences Laboratory have been seeing in experiments, Kimmel reported Monday at the annual meeting of the American Chemical Society.
"The previous model was a two-step process," Kimmel said. "First, an energetic particle produces a stable precursor"-say, two hydrogen atoms coupled with two oxygen atoms (hydrogen peroxide) or a hydrogen atom paired with two oxygen atoms. "In step two, another energetic particle produces O2, or molecular oxygen, from the stable precursor."
Kimmel and colleagues grew a microscopically thin ice film on a platinum surface, under a vacuum, and bombarded the film with high-energy electrons. The bursts lasted 30 to 60 seconds at 30 to 130 degrees Kelvin, approximating the minus-hundreds-of-degrees-Fahrenheit temperatures on the icy moons. Afterward, they measured the amount and location, determined by the oxygen isotopes used to construct layers of the ice film, and discovered that intermediate species of hydrogen-oxygen permeated the films.
"We found that a simpler two-step could not account for our results," Kimmel said. "Our model is a four-step process." First, the energetic particle produces what is known as a common "reactive oxygen species" called a hydroxyl radical, or OH. Next, two OH molecules react to produce hydrogen peroxide. Third, another OH reacts with the hydrogen peroxide to form HO2 (hydrogen coupled to two oxygen atoms), plus a water molecule. And, finally, an energetic particle splits an oxygen molecule from the HO2.
The experiment introduced another new twist. "One might have expected O2 to be produced throughout the region where the electrons penetrate in the film," Kimmel noted. "But this is not the case. It appears that the OH's can be made deeper in the film, but that they subsequently diffuse to and collect at the ice surface with the rest of the reactions (steps 2-4 above) preferentially occurring there."
DOE/Pacific Northwest National Laboratory
Since its discovery on Jupiter's Europa and other icy moons orbiting large gaseous worlds, extraterrestrial ice as a source for oxygen has presented the tantalizing possibility of complex life around other planets. Yet planetary scientists have struggled to explain how, in the absence of sufficient heat, oxygen could be produced from the permafrost surfaces for use, in Europa's case, by whatever life forms that might inhabit oceans trapped beneath.
The standard explanation is that abundant high-energy particles from space-protons, ultraviolet photons, electrons-break the molecular bonds that chain oxygen to hydrogen. (The geophysics - how the oxygen gets into the ocean as ice is - is another story, one involving a conveyor-belt-like recycling of surface ice into the ocean.)
Those previous oxygen-production models, however, don't jibe with what staff scientist Greg Kimmel and his colleagues at the PNNL-based W.R. Wiley Environmental Molecular Sciences Laboratory have been seeing in experiments, Kimmel reported Monday at the annual meeting of the American Chemical Society.
"The previous model was a two-step process," Kimmel said. "First, an energetic particle produces a stable precursor"-say, two hydrogen atoms coupled with two oxygen atoms (hydrogen peroxide) or a hydrogen atom paired with two oxygen atoms. "In step two, another energetic particle produces O2, or molecular oxygen, from the stable precursor."
Kimmel and colleagues grew a microscopically thin ice film on a platinum surface, under a vacuum, and bombarded the film with high-energy electrons. The bursts lasted 30 to 60 seconds at 30 to 130 degrees Kelvin, approximating the minus-hundreds-of-degrees-Fahrenheit temperatures on the icy moons. Afterward, they measured the amount and location, determined by the oxygen isotopes used to construct layers of the ice film, and discovered that intermediate species of hydrogen-oxygen permeated the films.
"We found that a simpler two-step could not account for our results," Kimmel said. "Our model is a four-step process." First, the energetic particle produces what is known as a common "reactive oxygen species" called a hydroxyl radical, or OH. Next, two OH molecules react to produce hydrogen peroxide. Third, another OH reacts with the hydrogen peroxide to form HO2 (hydrogen coupled to two oxygen atoms), plus a water molecule. And, finally, an energetic particle splits an oxygen molecule from the HO2.
The experiment introduced another new twist. "One might have expected O2 to be produced throughout the region where the electrons penetrate in the film," Kimmel noted. "But this is not the case. It appears that the OH's can be made deeper in the film, but that they subsequently diffuse to and collect at the ice surface with the rest of the reactions (steps 2-4 above) preferentially occurring there."
DOE/Pacific Northwest National Laboratory
Oxygen Current Events and Oxygen News RSSUmbilical cord blood stem cell transplant may help lung, heart disorders
Two separate studies published in the current issue of Cell Transplantation (18:8), - now freely available on-line have shown that transplanted human-derived umbilical cord blood (UCB) stem cells transplanted in an animal model had positive therapeutic effects on specific lung and heart disorders the animal models.
New tool for helping pediatric heart surgery
A team of researchers at the University of California, San Diego and Stanford University has developed a way to simulate blood flow on the computer to optimize surgical designs.
Biologists discover bacterial defense mechanism against aggressive oxygen
Bacteria possess an ingenious mechanism for preventing oxygen from harming the building blocks of the cell.
Effect of real-time CPR feedback reported at resuscitation science symposium
Emergency medical service (EMS) providers in the United States assess an estimated 350,000 cardiac arrests each year. Only 5 to 10 percent of people who have sudden cardiac arrest survive. Better quality cardiopulmonary resuscitation (CPR) provided by prehospital EMS providers may be associated with better patient outcome.
WPI Researchers Take Aim at Hard-to-Treat Fungal Infections
A team of researchers at the Worcester Polytechnic Institute (WPI) Life Sciences and Bioengineering Center at Gateway Park has developed a new model system to study fungal infections.
Scripps research scientists find new link between insulin and core body temperature
A team led by scientists at The Scripps Research Institute have discovered a direct link between insulin-a hormone long associated with metabolism and metabolic disorders such as diabetes-and core body temperature.
New research into the mechanisms of gene regulation
A team led by Penn State's Ross Hardison, T. Ming Chu Professor of Biochemistry and Molecular Biology, has taken a large step toward unraveling how regulatory proteins control the production of gene products during development and growth.
Cancers' Sweet Tooth May Be Weakness
The pedal-to-the-metal signals driving the growth of several types of cancer cells lead to a common switch governing the use of glucose, researchers at Winship Cancer Institute of Emory University have discovered.
Need for emergency airway surgery for hard-to-intubate patients reduced
Be prepared, that old Boy Scout motto, is being applied with great success to operating room patients whose anatomy may make it difficult for physicians to help them breathe during surgery, Johns Hopkins researchers report in a new study.
Berkeley Researchers Take the Lead Out of Piezoelectrics
There is good news for the global effort to reduce the amount of lead in the environment and for the growing array of technologies that rely upon the piezoelectric effect.
More Oxygen Current Events and Oxygen News Articles
 |
Oxygen Plus O+Stick Canister 3-pk. - Natural by Oxygen Plus |
 |
Oxygen: A Novel by Carol Cassella (Author) With the compassion of Jodi Picoult and the medical realism of Atul Gawande, Oxygen is a riveting new novel by a real-life anesthesiologist, an intimate story of relationships and family that collides with a high-stakes medical drama. Dr. Marie Heaton is an anesthesiologist at the height of her profession. She has worked, lived and breathed her career since medical school, and she now practices at a top Seattle hospital. Marie has carefully constructed and constricted her life according to empirical truths, to the science and art of medicine. But when her tried-and-true formula suddenly deserts her during a routine surgery, she must explain the nightmarish operating room disaster and face the resulting malpractice suit. Marie's best friend, colleague and former lover, Dr. Joe Hillary,... |
 |
GHT Oxygen Elements Max Dietary Supplement, 1-Ounce Bottle by GHT Global Health Trax Inc. Oxygen Elements Max is designed to distribute oxygen to the cells, increase blood flow, and neutralize free radicals. This allows the body to flush lactic acid and more efficiently enhance physical performance as a direct result of sufficient blood and oxygen circulation. With the inclusion of fulvic acid, Oxygen Elements Max is now stronger than the original. |
 |
Tranquil Sounds Personal Oxygen Bar by Zadro - Zadro Tranquil Sounds Personal Oxygen Bar by Zadro Tranquil Sounds Personal Oxygen Bar by Zadro The Tranquil Sounds Personal Oxygen Bar is a non-medical oxygen therapy device designed as a natural remedy for headaches, migraines and hangovers. With a comfortable headset that dispenses oxygen, the Tranquil Sounds Oxygen Bar also helps relieve altitude discomfort, improve muscle stiffness, and support pre-athletic performance. The easy to use headset on the Tranquil Sounds Oxygen Bar can be worn on your head or neck, whichever position is more comfortable for you. The Tranquil Sounds Oxygen Bar features an integrated steam system that eliminates the need for filter replacement and an extractor fan that ride the oxygen bar of waste gas. Soothing, built-in music also enables to Tranquil Sounds Oxygen Bar to relax you even further. Use the... |
 |
Oxygen: The Molecule that Made the World (Popular Science) by Nick Lane (Author) In Oxygen, Nick Lane takes the reader on an enthralling journey as he unravels the unexpected ways in which oxygen spurred the evolution of life and death. He shows how oxygen underpins the origin of biological complexity, the birth of photosynthesis, the sudden evolution of animals, the need for two sexes, the accelerated aging of cloned animals like Dolly the sheep, and the surprisingly long lives of bats and birds. Drawing on this grand evolutionary canvas, Oxygen offers fresh perspectives on our own lives and deaths, explaining modern killer diseases, why we age, and what we can do about it. Advancing revelatory new ideas, following chains of evidence, the book ranges through many disciplines, from environmental sciences to molecular medicine. The result is a captivating vision of... |
 |
Oxygen Plus Elevate Pack by Oxygen Plus |
 |
OXYGEN D SIZE CYLINDER TANK W/ TOGGLE VALVE by EVER |
 |
Flood Your Body with Oxygen by Ed Mccabe (Author) Flood Your Body With Oxygen is "Mr. Oxygen" Ed McCabe's follow-up to his best-seller Oxygen Therapies, and is the seminal work on the subject and encompasses its' entirety. DISEASES CAN'T LIVE IN ACTIVE OXYGEN. Proven safe solutions for all the major problems facing our health, our animals, our food supply, and our environment are explained simply and backed up with testimonials and industry and medical cites. Complete explanations and usage of all known Oxygen Therapies. Referrals. |
 |
Cellfood Liquid Concentrate, 1-Ounce Bottle by Nu Science Cellfood is a proprietary formulation of a super energized colloidal mineral concentrate. The amazing and unique formula naturally provides the highest level of nascent oxygen and hydrogen in supplement form improving energy, endurance and natural health. (These statements have not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure or prevent any disease.) Made in the USA. |
|
O2 Innovations Personal Oxygen Bar (Includes Headset, Storage Cover, Extra Filters and Manual) by O2 Innovations The O2-B Personal Oxygen Bar delivers 40% (+/- 2%) oxygen enriched air at 3 LPM (liters per minute) with quiet operation, sleek design and is user-friendly. The O2-B Unit provides the highest oxygen output of any non-medical personal oxygen concentrator. The O2-B Personal Oxygen Bar comes complete with a state-of-the-art headset, 30 day money back guarantee, 1 year limited warranty, free additional air intake filter, protective cover and 12 mouthpiece filters. Ideal for home, office or commercial use. |
| © 2009 BrightSurf.com |