Add to ORKGDifferences in the extent of protonation of functional groups lying on either side of water–hydrophobe interfaces are deemed essential to enzymatic catalysis, molecular recognition, bioenergetic transduction, and atmospheric aerosol–gas exchanges. The sign and range of such differences, however, remain conjectural. Herein we report experiments showing that gaseous carboxylic acids RCOOH(g) begin to deprotonate on the surface of water significantly more acidic than that supporting the dissociation of dissolved acids RCOOH(aq). Thermodynamic analysis indicates that > 6 H_(2)O molecules must participate in the deprotonation of RCOOH(g) on water, but quantum mechanical calculations on a model air–water interface predict that such event is hinde...
The recent application of electrosprays to characterize the air–water interface, along with the repo...
Atmospheric cloud, fog and aerosol microdroplets are more acidic than previously assumed. The fact t...
AbstractHypothesisSilanol groups at the silica–water interface determine not only the surface charge...
Differences in the extent of protonation of functional groups lying on either side of water–hydropho...
The acidity of the water surface sensed by a colliding gas is determined in experiments in which the...
Deprotonation of organic acids at aqueous surfaces has important implications in atmospheric chemist...
Deprotonation of organic acids at aqueous surfaces has important implications in atmospheric chemist...
Proton transfer (PT) through and across aqueous interfaces is a fundamental process in chemistry and...
International audienceWhether the air-water interface weakens or strengthens the acidity of simple o...
Significant effort has been undertaken to better understand the molecular details governing the prop...
Understanding the acid–base behavior of carboxylic acids on aqueous interfaces is a fundamental issu...
Understanding the acid–base behavior of carboxylic acids on aqueous interfaces is a fundamental issu...
Understanding the acid–base behavior of carboxylic acids on aqueous interfaces is a fundamental issu...
Understanding the acid–base behavior of carboxylic acids on aqueous interfaces is a fundamental issu...
Hypothesis: Silanol groups at the silica–water interface determine not only the surface charge, but ...
The recent application of electrosprays to characterize the air–water interface, along with the repo...
Atmospheric cloud, fog and aerosol microdroplets are more acidic than previously assumed. The fact t...
AbstractHypothesisSilanol groups at the silica–water interface determine not only the surface charge...
Differences in the extent of protonation of functional groups lying on either side of water–hydropho...
The acidity of the water surface sensed by a colliding gas is determined in experiments in which the...
Deprotonation of organic acids at aqueous surfaces has important implications in atmospheric chemist...
Deprotonation of organic acids at aqueous surfaces has important implications in atmospheric chemist...
Proton transfer (PT) through and across aqueous interfaces is a fundamental process in chemistry and...
International audienceWhether the air-water interface weakens or strengthens the acidity of simple o...
Significant effort has been undertaken to better understand the molecular details governing the prop...
Understanding the acid–base behavior of carboxylic acids on aqueous interfaces is a fundamental issu...
Understanding the acid–base behavior of carboxylic acids on aqueous interfaces is a fundamental issu...
Understanding the acid–base behavior of carboxylic acids on aqueous interfaces is a fundamental issu...
Understanding the acid–base behavior of carboxylic acids on aqueous interfaces is a fundamental issu...
Hypothesis: Silanol groups at the silica–water interface determine not only the surface charge, but ...
The recent application of electrosprays to characterize the air–water interface, along with the repo...
Atmospheric cloud, fog and aerosol microdroplets are more acidic than previously assumed. The fact t...
AbstractHypothesisSilanol groups at the silica–water interface determine not only the surface charge...