Advertisement
Chemistry
Subscribe to Chemistry

The Lead

Relieving electric vehicle range anxiety with improved batteries

April 15, 2014 3:29 pm | News | Comments

The chemistry of lithium-ion batteries limits how much energy they can store, and one promising solution is the lithium-sulfur battery, which can hold as much as four times more energy per mass. However, problematic polysulfides usually cause lithium-sulfur batteries to fail after a few charges. Researchers at Pacific Northwest National Laboratory, however, have developed a new powdery nanomaterial that could solve the issue.

Nano shake-up: Nanocarriers fluctuate in size and shape

April 15, 2014 9:26 am | by Diane Kukich, Univ. of Delaware | News | Comments

Nanotechnology has unlocked new pathways for targeted drug delivery, including the use of...

Life Sciences Chrome

April 15, 2014 9:04 am | by Lindsay Hock, Managing Editor | Articles | Comments

Driven by rapid growth in forensics, biotechnology, disease diagnostics and environmental...

New finding on the dual role of carbon dioxide in photosynthesis

April 14, 2014 10:03 am | News | Comments

It is well known that inorganic carbon in the form...

View Sample

FREE Email Newsletter

Scientists discover way to make ethanol without corn, other plants

April 10, 2014 9:00 am | by Mark Shwartz, Stanford Univ. | News | Comments

Stanford Univ. scientists have found a new, highly efficient way to produce liquid ethanol from carbon monoxide gas. This promising discovery could provide an eco-friendly alternative to conventional ethanol production from corn and other crops, say the scientists. Their results are published online in Nature.

Recycling astronaut urine for energy and drinking water

April 9, 2014 3:09 pm | News | Comments

On the less glamorous side of space exploration, there’s the more practical problem of waste: in particular, what to do with astronaut pee. But rather than ejecting it into space, scientists are developing a new technique that can turn this waste burden into a boon by converting it into fuel and much-needed drinking water.

A new “hope” for preservation of tissue samples for analysis

April 8, 2014 12:12 pm | News | Comments

Researchers have discovered that the so-called HOPE method allows tissue samples to be treated such that they do not only meet the requirements of clinical histology, but can still be characterized later on by modern methods of proteomics, a technique that analyzes all proteins at once. This differs from the traditional formalin-based approach that cross-links protein molecules.

Advertisement

Scale model World War II craft takes flight with fuel from the sea

April 7, 2014 6:06 pm | News | Comments

Navy researchers have recently demonstrated sustained flight of a radio-controlled P-51 fighter replica fueled by a new gas-to-liquid process that uses seawater as carbon feedstock. The fuel is made using an innovative and proprietary electrolytic cation exchange module that separates gases from water at 92% efficiency. Catalysis converts the gases to liquid hydrocarbons.

New findings to help extend high efficiency solar cells’ lifetime

April 7, 2014 1:27 pm | by Kathleen Estes, Okinawa Institute of Science and Technology | News | Comments

Solid-state dye-sensitized solar cells have shown their potential in achieving high efficiency with a low cost of fabrication. Degradation of these cells shortens lifespan dramatically, however, and the causes of this are not well understood. After a detailed analysis, researchers in Okinawa have determined which material in the cells was degrading, and why.

Trees go high-tech: Process turns cellulose into energy storage devices

April 7, 2014 1:19 pm | News | Comments

Chemists have found that cellulose, the most abundant organic polymer on Earth, can be heated in a furnace in the presence of ammonia and turned into the building blocks for supercapacitors. The new process produces nitrogen-doped, nanoporous carbon membranes, which act as the electrodes of a supercapacitor. The only byproduct is methane, which could be used immediately as a fuel or for other purposes.

Rebar technique strengthens case for graphene

April 7, 2014 7:57 am | News | Comments

Carbon nanotubes are reinforcing bars that make 2-D graphene much easier to handle in a new hybrid material grown by researchers at Rice Univ. The Rice laboratory of chemist James Tour set nanotubes into graphene in a way that not only mimics how steel rebar is used in concrete but also preserves and even improves the electrical and mechanical qualities of both.

Chemists settle debate about conversion of light

April 3, 2014 1:54 pm | News | Comments

Chemists have settled the debate about a fundamental question that is relevant to the conversion of one color into another and demonstrated how to influence the efficiency of this process by changing the refractive index around the material.  

Advertisement

Researchers make clothes from sugar

April 3, 2014 1:25 pm | News | Comments

In the future, the clothes you wear could be made from sugar. Researchers have discovered a new chemical process that can convert adipic acid directly from sugar.                         

Researchers open path to finding rare, polarized metals

April 2, 2014 12:31 pm | Videos | Comments

Researchers are turning some of the basic tenets of chemistry and physics upside down to cut a trail toward the discovery of a new set of materials. They’re called “polar metals” and, according to many scientific principles, they probably shouldn’t exist.

Shape helps catalyst extract energy from biomass

April 2, 2014 6:06 am | News | Comments

Biomass is a good alternative for fossil fuels, but converting biomass into useful chemicals and fuels is difficult in practice. The metal oxide CeO2 can help the process by activating water, but until recent research in the Netherlands, it was not clear in which form the reactivity of this catalyst was highest.

Stem cell controversy sets back Japanese science

April 2, 2014 3:21 am | by Elaine Kurtenbach - Associated Press - Associated Press | News | Comments

The finding that a lead researcher falsified data in a widely heralded stem-cell research paper is a setback for Japan's efforts to promote its advanced research, but also a symptom of the pressure for breakthroughs in the field, experts say. The government-funded Riken Center for Development...

Carbon nanotubes grow in combustion flames

April 1, 2014 4:34 pm | News | Comments

Recent research in Japan, China and U.S. has revealed through theoretical simulations that the molecular mechanism of carbon nanotube growth and hydrocarbon combustion actually share many similarities. In studies using acetylene molecules as feedstock, a highly reactive molecular intermediate was found to play an important role in both processes forming CNTs and soot, which are two distinctively different structures.

Advertisement

Periodic puns: Chemistry jokes in time for April Fools’ Day

April 1, 2014 10:38 am | Videos | Comments

It’s April Fools’ Day, and the American Chemical Society’s Reactions video series is celebrating with an episode featuring their favorite chemistry jokes. Which two elements look cute together? Why is father water concerned about his “iced out” son? What do you get when you combine sulfur, tungsten and silver?

Ancient whodunit may be solved: The microbes did it!

April 1, 2014 8:41 am | by David L. Chandler, MIT | News | Comments

Fossil remains show that sometime around 252 million years ago, about 90% of all species on Earth were suddenly wiped out in what was the largest of this planet’s five known mass extinctions. But pinpointing the culprit has been difficult, and controversial. Now, a team of Massachusetts Institute of Technology researchers may have found enough evidence to convict the guilty parties, but you’ll need a microscope to see the killers.

Robotic arm probes chemistry of 3-D objects by mass spectrometry

March 27, 2014 11:49 am | by John Toon, Georgia Institute of Technology | News | Comments

When life on Earth was first getting started, simple molecules bonded together into the precursors of modern genetic material. A catalyst would’ve been needed, but enzymes had not yet evolved. One theory is that the catalytic minerals on a meteorite’s surface could have jump-started life’s first chemical reactions. But scientists need a way to directly analyze these rough, irregularly shaped surfaces.

Engineered bacteria produce biofuel alternative for high-energy rocket fuel

March 27, 2014 8:17 am | by John Toon, Georgia Institute of Technology | News | Comments

Researchers have engineered a bacterium to synthesize pinene, a hydrocarbon produced by trees that could potentially replace high-energy fuels, such as JP-10, in missiles and other aerospace applications. With improvements in process efficiency, the biofuel could supplement limited supplies of petroleum-based JP-10, and might also facilitate development of a new generation of more powerful engines.

Researchers engineer resistance to ionic liquids in biofuel microbes

March 26, 2014 2:24 pm | News | Comments

Joint BioEnergy Institute scientists have identified the genetic origins of a microbial resistance to ionic liquids and successfully introduced this resistance into a strain of E. coli bacteria for the production of advanced biofuels. The ionic liquid resistance is based on a pair of genes discovered in a bacterium native to a tropical rainforest in Puerto Rico.

Real-life CSI: What can investigators really tell from gunshot residue?

March 26, 2014 1:02 pm | News | Comments

The popular TV series “CSI” is fiction, but everyday, real-life investigators and forensic scientists collect and analyze evidence to determine what happened at crime scenes. In a recent study, scientists say they have developed a more rapid and accurate method based on infrared spectroscopy that could allow crime scene investigators to tell what kind of ammunition was shot from a gun based on the residue it left behind.

New battery technology employs sticky composites

March 26, 2014 9:20 am | by Diane Kukich, Univ. of Delaware | News | Comments

Lithium-ion batteries power a vast array of modern devices, from cell phones, laptops, and laser pointers to thermometers, hearing aids, and pacemakers. The electrodes in these batteries typically comprise three components: active materials, conductive additives, and binders. Now, a team of researchers at the Univ. of Delaware has discovered a “sticky” conductive material that may eliminate the need for binders.

Nanotube coating helps shrink mass spectrometers

March 25, 2014 11:52 am | by Elizabeth K. Gardner, Purdue Univ. | News | Comments

Nanotechnology is advancing tools likened to Star Trek's "tricorder" that perform on-the-spot chemical analysis for a range of applications including medical testing, explosives detection and food safety. Researchers found that when paper used to collect a sample was coated with carbon nanotubes, the voltage required was 1,000 times reduced, the signal was sharpened and the equipment was able to capture far more delicate molecules.

Scientists discover material that can be solar cell by day, light panel by night

March 25, 2014 7:49 am | News | Comments

In what was almost a chance discovery, researchers in Singapore have developed a solar cell material which can emit light in addition to converting light to electricity. This solar cell is developed from perovskite, a promising material that could hold the key to creating high-efficiency, inexpensive solar cells. The new cells not only glow when electricity passes through them, they can also be customized to emit different colours.

NSF creates industry electrochemical research center at Ohio Univ.

March 24, 2014 1:57 pm | News | Comments

The Center for Electrochemical Engineering at Ohio Univ. has received a National Science Foundation (NSF) award to establish a new industry university cooperative research center in Athens, Ohio, with partner site Washington Univ.-St. Louis. The new center will focus on electrochemical alternatives to conventional chemical and biological processes, with the goal of enhancing advanced production capabilities.

Recovering valuable substances from wastewater

March 24, 2014 9:54 am | News | Comments

Phosphorus can be found in fertilizers, drinks and detergents, and it accumulates in waterways, polluting them. For this reason, researchers in Germany have developed a new platform for recovering this valuable but harmful element from water. They have attached bonding sites for phosphorus to particles so that they fish the phosphate anions out of the water and carry them “piggyback”. The particles can be applied using a magnet.

Researcher: Study on element could change ballgame on radioactive waste

March 24, 2014 9:48 am | News | Comments

Groundbreaking work by a team of chemists on a fringe element of the periodic table could change how the world stores radioactive waste and recycles fuel. In carefully choreographed experiments, researchers in Florida have found that californium (Cf) had amazing abilities to bond and separate other materials. They also found it was extremely resistant to radiation damage.

X
You may login with either your assigned username or your e-mail address.
The password field is case sensitive.
Loading