Pink floyd cofounder Roger Waters told his Facebook followers that he ould never turn on a cell phone at any musical event.
These insect-Inspired robots can jump on water Swarms of robots inspired by water-hopping insects could one day be used for surveillance,
More than 1, 200 species of animals have evolved the ability to walk on water. These include tiny creatures such as insects and spiders,
such as the so-called"Jesus lizard,"must slap water with enough force and speed to keep their heavy bodies from going under,
insects called water striders are small enough for their weight to be supported almost entirely by the surface tension of water the same phenomenon that makes water droplets bead up.
and skating across, the surface of water. The 6 Strangest Robots Ever Created But until now,
or copy was how the insects can jump from the surface of water, leaping just as high off water as they can off solid ground.
For instance, water striders collected from streams and ponds in Seoul, South korea, with bodies a half-inch long can jump more than 3 inches high on average,
"We have revealed the secret of jumping on water using robotics technology,"co-senior study author Kyu-Jin Cho,
"Using high-speed cameras, the researchers analyzed water striders jumping on water. They noticed that the insects'long,
so that the surface of the water did not retreat too quickly and lose contact with the legs.
the scientists found that the maximum force the water striders'legs exerted was always just below the maximum force that water's surface tension could withstand.
The scientists also found that water striders swept their legs inward to maximize the amount of time they could push against the surface of the water
Moreover, the shape of the tips of their legs were curved to adapt to the dimples that formed on the water's surface
the robot could leap about 5. 5 inches off the surface of the water about the length of its body and 10 times its body's height."
"Our small robot can jump on water without breaking the water surface, and can jump on water as high as jumping on land,
"Cho said. The researchers cautioned that, so far, the robot can jump only once, and it lands randomly.
since the weight of the body has to be really lightweight for it to jump on water,
#Solar device shatters records for splitting water A new rtificial leafsystem that uses solar energy to split water can safely
The photoanode uses sunlight to oxidize water molecules, generating protons and electrons as well as oxygen gas.
when exposed to water, so cannot be used to directly generate fuel. Previous work in Lewis laboratory led to a major advance in the design.
The photoanode requires a catalyst to drive the essential water-splitting reaction. Rare and expensive metals such as platinum can serve as effective catalysts,
This catalyst is among the most active known catalysts for splitting water molecules into oxygen, protons,
to create a fully integrated single material that serves as a complete solar-driven, water-splitting system.
#quid teethplastic self-heals with water Scientists derived the genetic code of squid ring teeth to develop a polymer that self-heals with a single drop of water.
researchers say. hat unique about this plastic is the ability to stick itself back together with a drop of water,
but not with water. Demirel and colleagues looked at the ring teeth of squid collected around the worldn the Mediterranean
and water contaminants Sensors that identify infectious disease and food contaminants may soon be printed on paper using ordinary office inkjet printers.
and scientists in the field quickly detect certain types of cancer or bacterial and respiratory infections or monitor toxin levels in water.
and/or proliferate) to ensure there is no more than one organism per 100 ml of water.
and other recreational water facilities. The strips are unlikely to be commercially available for at least another three years, Brennan estimates.
#Unpowered ankle exoskeleton takes a load off calf muscles to improve walking efficiency We might have started off in the water,
The seeds themselves are embedded in rooting"pillows"that take the place of soil for root growth and retaining water.
It isn't possible to carry enough food, water, and air to make manned voyages lasting months or years feasible with current rocket technology.
However, a carefully selected crop of plants can cut the supply list by recycling air and waste to produce fresh air, water,
and immersed it in a water bath. When the water temperature was varied, it slowly"walked"forward.
Polymers like hydrogels carry large amounts of water within their structure which gives them the capacity to respond to variations in environmental factors such as acidity,
or absorb water to correspondingly shrink or expand. The Japanese scientists altered the new hydrogel to enable it to contract only in one dimension
or excreting any water. To test the hydrogel's properties, the team created an L-shaped polymer
"In principle, this hydrogel can walk not only in water, but also in various non-aqueous media including an open-air environment,"Yasuhiro Ishida,
"Such water-rich, soft actuators would also find applications as components of artificial internal organs and artificial muscles,"says Ishida.
#The Drinkable Book has water-purifying pages For people in developing nations or rural locations,
that kill 99.9 percent of microbes in tainted water that filtered through it. Dankovich began work on the technology
of which in turn being capable of cleaning up to 26 US gallons (100 liters) of water one book should reportedly be able to handle one person water needs for four years.
The dirty water is poured then through. In field tests conducted in South africa Ghana, Haiti and Kenya, the paper achieved 99.9 percent purity
when filtering water containing high amounts of bacteria from recently-dumped raw sewage. While some of the silver and copper particles do leach into the clean water,
and pour water through it. Each page contains silver or copper nanoparticles that kill bacteria found in contaminated water.
Sisters collecting untreated water from a dam. Wateraid/Nyani Quarmyne. started off with proof of concept experiments in the lab where it the Drinkable Book showed a lot of promise.
where people are drinking dirty water on a regular basis and getting sick from it, Dr Theresa Dankovich,
people everywhere would use large buckets for water collection. But, that not true. The water vessels used in Bangladesh are shaped a gourd aluminum container called a kolshi,
so we had to tailor our designs to what people would use, Dankovich explained. n the best-case scenario,
but also contains instructions in each page to educate people about safe water habits. According to researchers, it only costs pennies to produce and one filter can purify up to 100 liters of water.
Dankovich has presented her research at 250th national meeting of the American Chemical Society. Dankovich and her colleagues hope to undertake more trials to narrow down the different designs for the Drinkable Book and increase production.
Dankovich pours contaminated pond water into a funnel containing paper from the Drinkable Book. Ali Wilson.
#New Material Made From 1 Billion Tiny Magnets Changes States Like Water Researchers at the Paul Scherrer Institute (PSI) announced they have created a synthetic material with magnetic properties
just as water changes from solid ice to liquid or steam with temperature change. Constructed from 1 billion tiny magnets,
A similar process can be observed in water molecules as water freezes into ice. Laura Heyderman
researchers shoot a mix of methanol and water at a fingerprint sample. It looks for two chemicals benzoylecgonine and methylecgonine
country director for the Pakistan Water Partnership. ocal researchers should be encouraged to develop innovative solutions to help people in distress,
#New Material Could Turn Water into Fuel Scientists have designed theoretically a new material that could help supply the world with clean energy by turning water into fuel,
could make the energy-sapping job of splitting water into hydrogen and oxygen relatively easy.
"Splitting water into hydrogen and oxygen is an energy-intensive process, which currently requires much more energy in from electricity than comes out in usable fuel.
are then capable of driving forward the two half-reactions required to split water into oxygen and hydrogen.
Subcritical fluid technology uses water above its boiling point and below its critical temperature, under pressure. In subcritical water medium, starch can be modified to influence the film properties, such as its tensile strength
elongation, and antioxidant and antimicrobial activity. Saldaña team has obtained already an international Patent Cooperation Treaty application for the processing method
also uses sub/supercritical water processing technology to obtain other value-added compounds and to gasify what left of the biomass residue to obtain hydrogen.
#Researchers Control Boiling Water Process Boiling water, with its commotion of bubbles that rise from a surface as water comes to a boil,
but these have required special fluids rather than water, and a thousandfold higher voltages, making them economically impractical for most uses.
The new feat was accomplished by adding surfactants to water essentially creating a soapy liquid. The surfactant molecules,
the bubbles formed by boiling water also require nucleation. Tiny irregularities on a metal surface can provide those nucleation points
The rehydration salts are added to water and provide electrolytes to help people hydrate, Tidey said.
The zinc supplements help with immune function and the transport of water in the body, according to the World health organization.
or water contaminated with its cysts. The ameba passes into the environment via feces and can survive outside the human body for several weeks in this protective cyst form.
or water contaminated with its cysts. The ameba passes into the environment via feces and can survive outside the human body for several weeks in this protective cyst form.
and tardigrades (sometimes known as"water bears"or"moss piglets")know a thing or two about glass.
These water-dwelling critters, which look like tiny blimps with pudgy bodies and eight stubby legs, are capable of shedding almost all of the water in their cells
when exposed to extreme conditions, such as heat, cold or even the vacuum of space.""When you remove the water,
they quickly coat themselves in large amounts of glassy molecules,"Juan de Pablo, professor of molecular engineering at the University of Chicago and one of the authors of a recent study on the tardigrade-inspired glass, said in a statement.
#Salty Water Flows on Mars Today, Boosting Odds for Life Liquid water flows on Mars today,
relatively warm Martian slopes are caused likely by salty liquid water, researchers said.""Liquid water is a key requirement for life On earth,
"study lead author Lujendra Ojha, of the Georgia Institute of technology in Atlanta, told Space. com via email."
"The presence of liquid water on Mars'present-day surface therefore points to environment s that are more habitable than previously thought."
and are inferred to have been formed by contemporary flowing water. Recently, planetary scientists detected hydrated salts on these slopes at Hale crater,
corroborating their original hypothesis that the streaks are formed indeed by liquid water. The blue color seen upslope of the dark streaks are thought not to be related to their formation,
leading many researchers to speculate that liquid water is involved in their formation. The new study,
"Hydrated salts precipitate from liquid water, so detecting them is a big deal especially since circumstances make it unlikely that CRISM could spot RSL water directly.
CRISM observes the Red planet at the driest time of the Martian day, about 3 p m,
a class of chlorine-containing substances that are widespread on Mars. These salts lower the freezing point of water from 32 degrees Fahrenheit (0 degrees Celsius) to minus 94 F (minus 70 C),
"This property vastly increases the stability of brine salty water on Mars, "he said. Perchlorates can absorb atmospheric water,
Ojha said. But it's unclear if Mars'air is the source of the brine flows.
meaning that the water within them is not easily available for potential use by organisms."
"The flying vehicles could be used to deliver materials such as food, water and vaccines to people living in remote parts of the world,
drink a cup of water, and not have any problems taking it down
#3d Printed Brain regions Help Neurosurgeons Prepare for Difficult Procedures While neurosurgeons have been able to virtually navigate volumetric images of patientsbrain structures gathered from CT and MRI scans,
#Each page from this'Drinkable Book'can clean 25 gallons of water While the pages of any book offer the potential to entertain,
Dankovich estimates that each page is capable of cleaning 100 liters (roughly 26.4 gallons) of water,
Working with the charities Water is Life and ide, the next step is to take the production process,
and cools itself by pumping water through its veins like a plant. Aside from its aesthetically-pleasing design, the Solar Sunflower also makes use of some innovative technology.
It uses something called HCPVT (Highly Efficient Concentrated Photovoltaic/Thermal) to generate electricity and hot water from solar power.
To counteract this, the Sunflower makes use of a hot water cooling system invented by the project's IBM collaborators.
rather than piping all that scorching-hot water through a radiator to dissipate the heat
(and thus waste it), the team instead uses that hot water as a power source itself,
#There's water on Mars, NASA confirms There's water on Mars, and it flows there today.
In an eagerly anticipated news event, NASA revealed this morning the evidence of liquid, flowing seasonal water on the Red planet.
Water often signals life, so this new discovery gives hope to the search for life in our solar system.
Data from various probes and rovers like Curiosity and the Mars Reconnaissance Orbiter have provided researchers with evidence concluding that there is flowing water on present-day Mars. Scientists understand that Mars was once Earthlike with large
amounts of water on the surface. Something unknown happened in the planet's history causing it to change.
However today's revelation confirms that Mars has harbored water in the past, and that water exists there today.
Now, scientists can pursue the implications of what flowing water means in relation to the planet's history
and what it could also mean for the potential for life. Michael Meyer of the Mars Exploration Program at NASA explained,
"We found the active process on Mars today that shows that water was a likelihood."
"He continued with a description of the geological features that caused scientists to suspect water prior to the confirmation of its presence.
To show how researchers came to their conclusions, Meyer explained the significance of"recurring slope linea."
"These RSLS point to the existence of water due to the way they behave. He said,
"There has been no evidence for water until for now.""The news was published based on research today in Nature Geoscience,
Scientists also have an understanding of the composition of the water. Findings show that hydrated salts are present on the surface of Mars. Hydrated salts would mean that the water on Mars is briny.
According to Popular Science, the salt in the water allows it to remain liquid at lower temperatures.
Mary Beth Wilhelm of NASA's Ames Research center explained that the evidence of water means many things,
not the least of which is that microbial life is possible. Also, water on Mars could aid in the human exploration of the planet.
Water on Mars would be a crucial resource for astronauts visiting the planet or for long-term colonists.
Of course scientists will need to study the nature of the water to know the full implications.
Researchers have many exciting challenges ahead of them, and one is to determine where the water comes from.
Could there be an underground Martian aquifer? Researchers note that there is potential for the Curiosity rover to travel to an RSL
The discovery of liquid water on Mars leads to more intriguing questions and mysteries. If there has been did life on mars,
These new findings about liquid water on Mars make scientists and space exploration enthusiasts thirsty for more information n
Water from the blood is the catalysis that sets it fizzing. f you can get the particles in the general area of the wound,
excess water is released which reacts with titanium oxysulfate to form a solid shell of titanium hydroxide with a thickness of 3 to 4 nanometers.
"While lotus leaves repel water and self-clean when it rains, a moth's eyes are antireflective because of naturally covered tapered nanostructures where the refractive index gradually increases as light travels to the moth's cornea,
a surface must achieve a water droplet contact angle exceeding 150 degrees. ORNL's coating has a contact angle of between 155 and 165 degrees,
so water literally bounces off, carrying away dust and dirt. This property combined with the suppression of light reflection from a glass surface is improved critical for performance in numerous optical applications,
New, stable photocathode with great potential Many of us are familiar with electrolytic splitting of water from their school days:
researchers from North carolina State university and the University of North carolina-Chapel hill show that magnetic nanoparticles encased in oily liquid shells can bind together in water,
much like sand particles mixed with the right amount of water can form sandcastles.""Because oil and water don't mix,
the oil wets the particles and creates capillary bridges between them so that the particles stick together on contact,
Hydrogels are polymers that can maintain large quantities of water within their networks. Because of this, they can swell
which are able to change shape as the amount of water within them changes in response to environmental conditions.
and excrete water to either expand or shrink in volume. The unique property of the hydrogel developed by the RIKEN team is that it acts like an artificial muscle,
or excreting water. The secret to the new hydrogel's property is electrostatic charge. Using a method that they published earlier this year
and in a liquid environment, showing that it doesn't require the uptake of water.
the group designed an L-shaped piece of polymer that can actually walk, in a water environment,
a cost-effective method of producing fuels using only sunlight, water, and carbon dioxide, mimicking the natural process of photosynthesis in plants
safe, integrated solar-driven system for splitting water to create hydrogen fuels.""This result was a stretch project milestone for the entire five years of JCAP as a whole,
The photoanode uses sunlight to oxidize water molecules, generating protons and electrons as well as oxygen gas.
when exposed to water, so cannot be used to directly generate fuel. A major advance that allowed the integrated system to be developed was previous work in Lewis's laboratory,
The photoanode requires a catalyst to drive the essential water-splitting reaction. Rare and expensive metals such as platinum can serve as effective catalysts,
This catalyst is among the most active known catalysts for splitting water molecules into oxygen
to create a fully integrated single material that serves as a complete solar-driven water-splitting system.
or water and therapeutic drug monitoring at home, a feature which could drastically improve the efficient of various class of drugs and treatments a
while water has a refractive index of 1. 33 -which is why a straw appears to bend
when you put it in a glass of water. Photonic devices require a high contrast between its component materials,
or being washed by water. Its physical resistance against the diffusion of body liquids and prevention of inconsistency in the structure are among the other advantages of the paste.
#Magnetic Nanosorbents Eliminate Fluoride from Water Researchers from Tehran University of Medical sciences used low-cost and available raw materials for the laboratorial production of nanosorbents with high efficiency in elimination of fluoride from contaminated water.
Presence of high concentration of fluoride in water reservoirs, specially in drinking water, results in serious hygiene concerns.
Adsorption is one of the effective and economic methods to eliminate high concentrations of fluoride from water.
Results showed that the synthesized composite can be used as an effective sorbent to purify water contaminated by fluoride due to its simple and quick separation, high efficiency and the lack of the creation of secondary pollution in the solution.
whereby flue gases are bubbled through organic amines in water, where the carbon dioxide binds to amines.
the process also saves the huge energy costs of heating the water in which amines are dissolved.
because they are one of the best compounds for selectively binding CO2 in the presence of water,
When the humidity drops, the spore shrinks as water is pushed out. As it shrinks, the quantum dots come closer together,
than a sensor made with the most advanced man-made water-absorbing polymers. There was also better sensitivity in extreme low-pressure, low-humidity situations."
#Desalination with nanoporous graphene membrane Less than 1 percent of Earth's water is drinkable. Removing salt and other minerals from our biggest available source of water--seawater--may help satisfy a growing global population thirsty for fresh water for drinking, farming, transportation, heating, cooling and industry.
But desalination is an energy-intensive process, which concerns those wanting to expand its application.
The results are published in the March 23 advance online issue of Nature Nanotechnology("Water Desalination Using Nanoporous Single-layer graphene"."
"Current methods for purifying water include distillation and reverse osmosis. Distillation, or heating a mixture to extract volatile components that condense,
Without these holes, water cannot travel from one side of the membrane to the other.
The water molecules are simply too big to fit through graphene's fine mesh. But poke holes in the mesh that are just the right size
and water molecules can penetrate. Salt ions, in contrast, are larger than water molecules and cannot cross the membrane.
The porous membrane allows osmosis, or passage of a fluid through a semipermeable membrane into a solution in which the solvent is concentrated more."
and you push the water from the saltwater side to the freshwater side--that's the reverse osmosis process,
It takes significant pressure to push water from the saltwater side to the freshwater side."
so separated water would drive faster through the membrane under the same conditions, the scientists reasoned."
The prepared membrane separated two water solutions--salty water on one side, fresh on the other.
while water flowed through it from one chamber to the other. The membrane allowed rapid transport of water through the membrane and rejected nearly 100 percent of the salt ions, e g.,
, positively charged sodium atoms and negatively charged chloride atoms. To figure out the best pore size for desalination,
and water dwelling purple bacteria Rhodopseudomonas palustris with magnetite and controlled the amount of light the cultures were exposed to.
Water is replaced by nanotubes It has been known for decades that plants have the extraordinary ability to register extremely fine temperature differences
when moved from water to an electrolyte solution, such as salt water("Dual hydrophilic and salt responsive schizophrenic block copolymers synthesis and study of self-assembly behavior").
which mixes well with water, and the halophilic polysulfabetaine (PSB), which has a preference for salt solution. e created salt-responsive block copolymers that self-assemble in water to form either onventionalor nversemicelles, states Vasantha.
The conventional micelles form in deionized water and have a core of halophilic PSB with a hydrophilic PEG shell.
However, the team showed that the micelles reassemble themselves when immersed in salt solution; PEG formed the core,
#Membrane transport-A molecular'straw'Getting water across lipid membranes is not easy. In nature, molecules called aquaporins, discovered in the 1990s, move water from one side of a biological membrane to another,
but the molecules are fragile and bulky. Now, researchers from the A*STAR Institute of Bioengineering and Nanotechnology have synthesized a much smaller molecule,
For some years, Huaqiang Zeng of the Institute of Bioengineering and Nanotechnology has led a team aiming to produce tubular molecules that could pipe water across membranes.
unfortunately, this tube was not particularly good at holding water in its central tunnel. Undeterred, Zeng team set out to modify that molecule.
but this time it comfortably held a tringof water molecules. he continuous one-dimensional ater chaintrapped by the molecules is indispensable for mediating water transport across a lipid membrane,
But early experiments attempting to use osmotic pressure to drive water through the trawinto a membrane-bound compartment (vesicle) drew a blank. e repeatedly failed to demonstrate the water-transporting ability of the molecule
whether a proton gradient could induce water transport. We were surprised very to find that it could.
He says that osmotic agents often have to be at concentrations exceeding 100 millimolar to drive water movement in forward osmosis nanofiltration. f a proton gradient is used as the driving force instead,
which can zip through water 10 times its body length within one second, in an ultra-efficient manner.
Inspired by the speed at which cephalopods like the octopus, flee from danger by inflating its mantle cavity with water to a bluff-body shape
The 27-cm long robot is inflated with water and once released, rapidly deflates by shooting the water out through an aperture at its base to power its propulsion.
As the rocket contracts, it can achieve more than 2. 6 times the thrust of a rigid rocket doing the same manoeuvre,
When a fish escapes by swimming fast, it bends its body and zooms through the water, losing some energy to the surrounding water
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