Graphene membranes may lead to enhanced natural gas production, less CO2 pollution, says CU study

Oct. 8, 2012

Engineering baby直播app and students at the University of baby直播app Boulder have produced the first experimental results showing that atomically thin graphene membranes with tiny pores can effectively and efficiently separate gas molecules through size-selective sieving. The findings are a significant step toward the realization of more energy-efficient membranes for natural gas production and for reducing carbon dioxide emissions from power plant exhaust pipes.

Leading quantitative conservation biologist named CU鈥檚 first baby直播app Chair in Environmental Studies

Oct. 1, 2012

The University of baby直播app Boulder has hired its first baby直播app Chair in Environmental Studies, an endowed chair awarded to Daniel Doak, a conservation biologist known for his quantitative analysis of how different government policies could affect the populations of species ranging from sea otters, California condors, corals and rare plants. The endowed chair in environmental studies was made possible by $4 million in gifts made anonymously in 2009 and 2010 toward the chair.

CU-led mission to study past climate on Mars enters final phase before slated 2013 launch

Sept. 11, 2012

A University of baby直播app Boulder-led mission to explore and understand how the loss of atmospheric gas has changed the climate of Mars over the eons has been authorized by NASA to proceed to system delivery, spacecraft integration, testing and launch, which is slated for November 2013.

Mountain forest study shows vulnerability to climate change

Sept. 10, 2012

A new University of baby直播app Boulder-led study that ties forest 鈥済reenness鈥 in the western United States to fluctuating year-to-year snowpack indicates mid-elevation mountain ecosystems are most sensitive to rising temperatures and changes in precipitation and snowmelt.

CU-led mountain forest study shows vulnerability to climate change

Sept. 10, 2012

A new University of baby直播app Boulder-led study that ties forest 鈥済reenness鈥 in the western United States to fluctuating year-to-year snowpack indicates mid-elevation mountain ecosystems are most sensitive to rising temperatures and changes in precipitation and snowmelt.

NOAA selects CU-Boulder to continue joint leadership of CIRES

Aug. 30, 2012

The National Oceanic and Atmospheric Administration has selected the University of baby直播app Boulder to continue a federal/academic partnership that extends NOAA鈥檚 ability to study climate change, improve weather models and better predict how solar storms can disrupt communication and navigation technologies. The selection means that NOAA will continue funding the Cooperative Institute for Research in Environmental Sciences, or CIRES, for at least five years and up to 10 more years. CIRES was established at CU-Boulder in 1967.

CU-NOAA study provides first direct evidence of heat-trapping effects of wildfire smoke particles

Aug. 27, 2012

When the Fourmile Canyon Fire erupted west of Boulder in 2010, smoke from the wildfire poured into parts of the city including a site housing scientists from the University of baby直播app Boulder鈥檚 Cooperative Institute for Research in Environmental Sciences and the National Oceanic and Atmospheric Administration.

Arctic sea ice reaches lowest extent ever recorded, says CU-Boulder research team

Aug. 27, 2012

The blanket of sea ice floating on the Arctic Ocean melted to its lowest extent ever recorded since satellites began measuring it in 1979, according to the University of baby直播app Boulder鈥檚 National Snow and Ice Data Center.

CU-Boulder team wins nearly $780,000 鈥楻einvent the Toilet鈥 grant from Gates Foundation

Aug. 14, 2012

An interdisciplinary team of student and baby直播app engineers from the University of baby直播app Boulder has won a grant from the Bill and Melinda Gates Foundation for its proposal to develop a solar-biochar toilet for use in developing countries throughout the world. The grant is part of the Reinvent the Toilet Challenge, or RTTC, initiated by the Gates Foundation to address a sanitation challenge affecting nearly 40 percent of the world鈥檚 population.

CU-led team discovers new atmospheric compound tied to climate change and human health issues

Aug. 8, 2012

An international research team led by the University of baby直播app Boulder and the University of Helsinki has discovered a surprising new chemical compound in Earth鈥檚 atmosphere that reacts with sulfur dioxide to form sulfuric acid, which is known to have significant impacts on climate and health.

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