Results 261 to 270 of about 1,069,829 (300)

Non-Floodplain Wetlands Are Carbon-Storage Powerhouses Across the United States. [PDF]

Earths Future
Lane CR, Nahlik AM, Christensen J, Golden H, Dumelle M, D'Amico E, Olsen AR.   +6 more
europepmc   +1 more source

Mycorrhiza increases plant diversity and soil carbon storage in grasslands. [PDF]

Proc Natl Acad Sci U S A
Zhang E, Wang Y, Crowther TW, Sun W, Chen S, Zhou D, Shangguan Z, Huang J, He JS, Wang Y, Sheng J, Tang L, Li X, Dong M, Wu Y, Hu S, Bai Y, Yu G.   +17 more
europepmc   +1 more source

Influence of landscape structure on carbon storage in agroforestry systems with cacao and silvopastoral systems in the Colombian Amazon. [PDF]

PLoS One
Díaz-Cháux JT, Velasquez-Valencia A, Casanoves F.   +2 more
europepmc   +1 more source

Carbon data storage

III-Vs Review, 2004
openaire   +1 more source

Carbon storage in trees

, 2014
openaire   +1 more source

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Lithium Storage in Carbon Nanostructures

Advanced Materials, 2009
AbstractIn this review article we discuss the progress of lithium storage in different carbon forms starting from intercalation in graphite to the lithium storage in fullerenes, nanotubes, diamond and most recently, graphene. The recent advances in lithium storage in various novel morphological variants of carbons prepared by a variety of techniques ...
Joachim Maier
exaly   +4 more sources

Removable carbon and storage carbon of golden tides

Marine Pollution Bulletin, 2023
Due to ever-increasing global warming, ocean acidification, and inshore eutrophication, the outbreak of golden tides with Sargassum horneri has increased in the Yellow sea, where the biomass carbon enters three main carbon pathways: a. Removal of carbon from seawater by salvage, known as removable carbon; b.
Chunyan, Zhao, Jingyi, Sun, Yifei, Shen, Zhangyi, Xia, Meijuan, Hu, Tingjian, Wu, Minmin, Zhuang, Yaru, Li, Yupei, Tong, Jia, Yang, Jianheng, Zhang, Peimin, He   +11 more
openaire   +2 more sources

Hydrogen Storage in Carbon Nanotubes

Journal of Nanoscience and Nanotechnology, 2003
The article gives a comprehensive overview of hydrogen storage in carbon nanostructures, including experimental results and theoretical calculations. Soon after the discovery of carbon nanotubes in 1991, different research groups succeeded in filling carbon nanotubes with some elements, and, therefore, the question arose of filling carbon nanotubes ...
Hirscher, M., Becher, M.
openaire   +3 more sources

Carbon Capture and Storage

2016
Carbon dioxide capture and storage (CCS) involves separating CO2 from an emission source gas, transporting it to a storage location, and securing it in long-term isolation from the atmosphere. The three main capture technologies are (1) postcombustion capture, (2) integrated gasification combined cycle, and (3) oxyfuel.
Underschultz, Jim, Dodds, Kevin, Michael, Karsten, Sharma, Sandeep, Wall, Terry, Whittaker, Steve   +5 more
openaire   +4 more sources

Japanese Carbon Storage in Materials

AMBIO: A Journal of the Human Environment, 2002
The NEAT model (Nonenergy-use Emission Accounting Tables) has been developed in order to estimate CO2 emissions caused by so-called nonenergy use of fossil fuels. The model is based on material flow accounting. The model has been applied to a number of countries in order to validate and improve its use.
Dolf, Gielen, Hiroshi, Yagita
openaire   +2 more sources