Scientists create synthetic DNA-like crystals for CO2 capture
February 12th, 2010 - 4:13 pm ICT by ANIWashington, Feb 12 (ANI): Chemists at University of California Los Angeles (UCLA) have created a synthetic DNA-like crystals that could capture heat-trapping carbon dioxide (CO2) emissions, which contribute to global warming, rising sea levels and the increased acidity of oceans.
“We created three-dimensional, synthetic DNA-like crystals,” said UCLA chemistry and biochemistry professor Omar M. Yaghi, who is a member of the California NanoSystems Institute (CNSI) at UCLA and the UCLA-Department of Energy Institute of Genomics and Proteomics.
“We have taken organic and inorganic units and combined them into a synthetic crystal which codes information in a DNA-like manner. It is by no means as sophisticated as DNA, but it is certainly new in chemistry and materials science,” he added.
The discovery could lead to cleaner energy, including technology that factories and cars can use to capture carbon dioxide before it reaches the atmosphere.
“What we think this will be important for is potentially getting to a viable carbon dioxide-capture material with ultra-high selectivity,” said Yaghi.
“I am optimistic that is within our reach. Potentially, we could create a material that can convert carbon dioxide into a fuel, or a material that can separate carbon dioxide with greater efficiency,” he added.
The lead author of the research is Hexiang “DJ” Deng, a UCLA graduate student of chemistry and biochemistry who works in Yaghi’s laboratory.
“DNA is a beautiful molecule that has a way to code for information,” Yaghi said.
“How do you code information in a crystal in the same way that DNA does? DJ and I figured out a way to do this. The sequence of organic functionalities that decorates the pores of the crystals is most certainly a unique code,” he said.
“DJ has illustrated that one member of a series of materials he has made has 400 percent better performance in carbon dioxide capture than one that does not have the same code,” he added.
“We have created crystals of metal-organic frameworks in which the sequence of multiple functionalities of varying kind and ratios acts as a synthetic ‘gene’,” Yaghi said.
“With these multivariate MOFs, we have figured out a way to incorporate controlled complexity, which biology operates on, in a synthetic crystal - taking synthetic crystals to a new level of performance,” he said.
“This can be a boon for energy-related and other industrial applications, such as conversion of gases and liquids like carbon dioxide to fuel, or water to hydrogen, among many others,” he added. (ANI)
- Synthetic 'gene' may trap carbon dioxide emissions - Feb 12, 2010
- Scientists create nano-materials to trap record amounts of CO2 - Jul 16, 2010
- Scientists create jewel-toned organic phosphorescent crystals - Feb 15, 2011
- Sensor 'could protect first responders against chemical hazards' - May 02, 2011
- Now, Green Carbon Centre that could recycle CO2 to lower eco footprint - Oct 23, 2010
- Nature inspires scientists to create new materials - Oct 14, 2011
- Man-made photosynthesis to boost food output - Feb 19, 2012
- 'Multiferroic' crystals could pave way for high-powered computer memories - Feb 13, 2010
- New technique sweeps smokestacks clean of CO2 - Jan 09, 2012
- Scientists develop new materials to selectively capture carbon dioxide - Feb 15, 2008
- Soon, houses built out of manmade 'green' coral! - Nov 10, 2010
- New solar fuel device that 'mimics plant life' - Dec 24, 2010
- Vitamin B12 imaged in action for first time - Mar 27, 2012
- NASA images reveal cosmic snowstorm post comet encounter - Nov 19, 2010
- Mexico City closes world's largest trash dump - Dec 20, 2011
Tags: acidity, biochemistry professor, california nanosystems institute, carbon dioxide, cnsi, deng, energy institute, functionalities, including technology, materials science, nanosystems, pores, rising sea levels, selectivity, synthetic dna, ucla chemistry, ucla department, ucla graduate student, university of california los angeles, yaghi
