Response to “Comment on ‘Isotope effects in liquid water by infrared spectroscopy. IV. No free OH groups in liquid water’” [J. Chem. Phys. 135, 117101 (2011)]

2011 ◽  
Vol 135 (11) ◽  
pp. 117102 ◽  
Author(s):  
Jean-Joseph Max ◽  
Camille Chapados
Keyword(s):  
Infrared Spectroscopy ◽  
Liquid Water ◽  
Isotope Effects ◽  
Chem Phys ◽  
Oh Groups

Isotope effects in liquid water by infrared spectroscopy

2002 ◽  
Vol 116 (11) ◽  
pp. 4626-4642 ◽  
Author(s):  
Jean-Joseph Max ◽  
Camille Chapados
Keyword(s):  
Infrared Spectroscopy ◽  
Liquid Water ◽  
Isotope Effects

Temperature, pressure, and isotope effects on the structure and properties of liquid water: A lattice approach

2007 ◽  
Vol 127 (22) ◽  
pp. 224106 ◽  
Author(s):  
Ilhem F. Hakem ◽  
Abdelhak Boussaid ◽  
Hafida Benchouk-Taleb ◽  
Michael R. Bockstaller
Keyword(s):  
Liquid Water ◽  
Isotope Effects ◽  
Structure And Properties ◽  
Lattice Approach

scholarly journals Measurements of the Vapor Pressure of Supercooled Water Using Infrared Spectroscopy

2008 ◽  
Vol 25 (9) ◽  
pp. 1724-1729 ◽  
Author(s):  
Will Cantrell ◽  
Eli Ochshorn ◽  
Alexander Kostinski ◽  
Keith Bozin
Keyword(s):  
Infrared Spectroscopy ◽  
Vapor Pressure ◽  
Liquid Water ◽  
Water Film ◽  
Supercooled Water ◽  
Supercooled Liquid ◽  
Quantitative Change ◽  
Wetting Transition ◽  
Higher Temperature

Abstract Measurements are presented of the vapor pressure of supercooled water utilizing infrared spectroscopy, which enables unambiguous verification that the authors’ data correspond to the vapor pressure of liquid water, not a mixture of liquid water and ice. Values of the vapor pressure are in agreement with previous work. Below −13°C, the water film that is monitored to determine coexistence of liquid water (at one temperature) and ice (at another, higher, temperature) de-wets from the hydrophilic silicon prism employed in the authors’ apparatus. The de-wetting transition indicates a quantitative change in the structure of the supercooled liquid.

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