Add to ORKGCross sections for charge transfer reactions of organic ions containing oxygen have been obtained using time-of-flight techniques. Charge transfer cross sections have been determined for reactions of 2.0 to 3.4 keV ions produced by electron impact ionization of oxygen containing molecules such as methanol, ethanal and ethanol. Experimental cross section magnitudes have been correlated with reaction energy defects computed from ion recombination energies and target ionization energies. Large cross sections are observed for reacting systems with small energy defects
The relative collision cross sections σc of selected precursor ions that collide with helium at high...
Charge-transfer cross sections for H- on O, O2, and NO2; O- on H, O, H2, O2, and NO2; and C- on H an...
Charge-transfer cross sections for H- on O, O2, and NO2; O- on H, O, H2, O2, and NO2; and C- on H an...
Cross sections for charge transfer reactions of organic ions containing oxygen have been obtained us...
Cross sections for charge transfer reactions of organic ions containing oxygen have been obtained us...
Charge-transfer cross sections have been obtained by using time-of-flight techniques, and results co...
Charge-transfer cross sections have been obtained by using time-of-flight techniques, and results co...
Charge transfer reactivities of hydrocarbon ions have been measured with time-of-flight techniques, ...
Charge transfer reactivities of hydrocarbon ions have been measured with time-of-flight techniques, ...
We report the measured total charge-transfer (electron-capture) cross sectionsfor the ground state O...
We report the measured total charge-transfer (electron-capture) cross sectionsfor the ground state O...
Absolute differential cross sections for neutral-neutral and charge—transfer collisions involving fa...
Utilizing a crossed electron beam and a molecular beam collision geometry and the single particle co...
Using the unique triple-quadrupole double-octopole (TQDO) photoionization and electron-impact appara...
Using the unique triple-quadrupole double-octopole (TQDO) photoionization and electron-impact appara...
The relative collision cross sections σc of selected precursor ions that collide with helium at high...
Charge-transfer cross sections for H- on O, O2, and NO2; O- on H, O, H2, O2, and NO2; and C- on H an...
Charge-transfer cross sections for H- on O, O2, and NO2; O- on H, O, H2, O2, and NO2; and C- on H an...
Cross sections for charge transfer reactions of organic ions containing oxygen have been obtained us...
Cross sections for charge transfer reactions of organic ions containing oxygen have been obtained us...
Charge-transfer cross sections have been obtained by using time-of-flight techniques, and results co...
Charge-transfer cross sections have been obtained by using time-of-flight techniques, and results co...
Charge transfer reactivities of hydrocarbon ions have been measured with time-of-flight techniques, ...
Charge transfer reactivities of hydrocarbon ions have been measured with time-of-flight techniques, ...
We report the measured total charge-transfer (electron-capture) cross sectionsfor the ground state O...
We report the measured total charge-transfer (electron-capture) cross sectionsfor the ground state O...
Absolute differential cross sections for neutral-neutral and charge—transfer collisions involving fa...
Utilizing a crossed electron beam and a molecular beam collision geometry and the single particle co...
Using the unique triple-quadrupole double-octopole (TQDO) photoionization and electron-impact appara...
Using the unique triple-quadrupole double-octopole (TQDO) photoionization and electron-impact appara...
The relative collision cross sections σc of selected precursor ions that collide with helium at high...
Charge-transfer cross sections for H- on O, O2, and NO2; O- on H, O, H2, O2, and NO2; and C- on H an...
Charge-transfer cross sections for H- on O, O2, and NO2; O- on H, O, H2, O2, and NO2; and C- on H an...