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Thornton, Aaron W., Simon, Cory M., Kim, Jihan, Kwon, Ohmin, Deeg, Kathryn S., Konstas, Kristina, Pas, Steven J., Hill, Matthew R., Winkler, David A., Haranczyk, Maciej, and Smit, Berend. Materials Genome in Action: Identifying the Performance Limits of Physical Hydrogen Storage. Chemistry of Materials 29.7 Web. doi:10.1021/acs.chemmater.6b04933.
Thornton, Aaron W., Simon, Cory M., Kim, Jihan, Kwon, Ohmin, Deeg, Kathryn S., Konstas, Kristina, Pas, Steven J., Hill, Matthew R., Winkler, David A., Haranczyk, Maciej, & Smit, Berend. Materials Genome in Action: Identifying the Performance Limits of Physical Hydrogen Storage. Chemistry of Materials, 29 (7). https://doi.org/10.1021/acs.chemmater.6b04933
Thornton, Aaron W., Simon, Cory M., Kim, Jihan, Kwon, Ohmin, Deeg, Kathryn S., Konstas, Kristina, Pas, Steven J., Hill, Matthew R., Winkler, David A., Haranczyk, Maciej, and Smit, Berend.
"Materials Genome in Action: Identifying the Performance Limits of Physical Hydrogen Storage". Chemistry of Materials 29 (7). United States: American Chemical Society. https://doi.org/10.1021/acs.chemmater.6b04933.https://par.nsf.gov/biblio/10023839.
@article{osti_10023839,
place = {United States},
title = {Materials Genome in Action: Identifying the Performance Limits of Physical Hydrogen Storage},
url = {https://par.nsf.gov/biblio/10023839},
DOI = {10.1021/acs.chemmater.6b04933},
abstractNote = {Not Available},
journal = {Chemistry of Materials},
volume = {29},
number = {7},
publisher = {American Chemical Society},
author = {Thornton, Aaron W. and Simon, Cory M. and Kim, Jihan and Kwon, Ohmin and Deeg, Kathryn S. and Konstas, Kristina and Pas, Steven J. and Hill, Matthew R. and Winkler, David A. and Haranczyk, Maciej and Smit, Berend},
}
