Water is, perhaps, the most important material known to humankind—fascinating even in its pure state for the range of anomalous properties it displays. There has been an increasing realization that understanding the behavior of water at interfaces—from those of small solutes to biomolecules and polymers to inorganic materials and metals—holds the key to understanding disparate phenomena, from self-assembly, biofouling, and catalysis to corrosion. In this issue of MRS Bulletin, we highlight recent advances in understanding the molecular behavior of water near a range of interfaces of interest to the broader materials community.
Reference
Garde S and Schlossman ML (). "Water at Functional Interfaces
," MRS Bulletin, 39 (12), 1051-1053
Bibtex
@article{garde2014water, title = {Water at functional interfaces}, author = {Garde, Shekhar and Schlossman, Mark L}, journal = {MRS Bulletin}, volume = {39}, number = {12}, pages = {1051--1053}, year = {2014}, doi = {10.1557/mrs.2014.280} }