Hydrolytic stability in hemilabile metal–organic frameworks
Hydrolytic stability in hemilabile metal–organic frameworks
About this item
Full title
Author / Creator
Energy Frontier Research Centers (EFRC) (United States). Center for Gas Separations Relevant to Clean Energy Technologies (CGS) , Univ. of California, Oakland, CA (United States) , McHugh, Lauren N. , McPherson, Matthew J. , McCormick, Laura J. , Morris, Samuel A. , Wheatley, Paul S. , Teat, Simon J. , McKay, David , Dawson, Daniel M. , Sansome, Charlotte E. F. , Ashbrook, Sharon E. , Stone, Corinne A. , Smith, Martin W. and Morris, Russell E.
Publisher
London: Nature Publishing Group UK
Journal title
Language
English
Formats
Publication information
Publisher
London: Nature Publishing Group UK
Subjects
More information
Scope and Contents
Contents
Highly porous metal–organic frameworks (MOFs), which have undergone exciting developments over the past few decades, show promise for a wide range of applications. However, many studies indicate that they suffer from significant stability issues, especially with respect to their interactions with water, which severely limits their practical potenti...
Alternative Titles
Full title
Hydrolytic stability in hemilabile metal–organic frameworks
Authors, Artists and Contributors
Author / Creator
Univ. of California, Oakland, CA (United States)
McHugh, Lauren N.
McPherson, Matthew J.
McCormick, Laura J.
Morris, Samuel A.
Wheatley, Paul S.
Teat, Simon J.
McKay, David
Dawson, Daniel M.
Sansome, Charlotte E. F.
Ashbrook, Sharon E.
Stone, Corinne A.
Smith, Martin W.
Morris, Russell E.
Identifiers
Primary Identifiers
Record Identifier
TN_cdi_osti_scitechconnect_1566614
Permalink
https://devfeature-collection.sl.nsw.gov.au/record/TN_cdi_osti_scitechconnect_1566614
Other Identifiers
ISSN
1755-4330
E-ISSN
1755-4349
DOI
10.1038/s41557-018-0104-x
