Add to ORKGThe great effort put in the last decades in the study of the chemistry of air pollution and its effect on the depletion of ozone and on the greenhouse effect caused by combustion processes has shown the great importance of simple, but very reactive, species, as ions, radicals and “exotic” molecules. Being these species in the gas phase, it is particularly appropriate for their study the joint use of theoretical methods with experimental techniques, mass spectrometry specifically. Both these investigations methods are particularly suitable for applications involving the study of the atmosphere. The combined use of accurate theoretical methods and mass spectrometry techniques allowed us to discover recently several new species, both cationic ...
The first polyatomic molecule was discovered in interstellar space in 1968, catalyzing the growth of...
An overview is presented of gas-phase studies on the structure and reactivity of protonated species ...
Chemical ionization mass spectrometry (CI-MS) is a powerful analytical technique, capable to detect ...
The great effort put in the last decades in the study of the chemistry of air pollution and its effe...
The great effort put in the last decades in the study of the natural cycles of ozone and carbon diox...
Recent mass spectrometric studies of simple inorganic species (both charged and neutral) of main-gro...
Recent mass spectrometric studies of species and processes relevant to the chemistry of atmospheres ...
The importance of ionic processes that occur in terrestrial, planetary, and stellar atmospheres is r...
Novel methods, based on advanced mass spectrometry, were developed to characterise the gas-phase rea...
The ionosphere offers an excellent laboratory for the study of atomic and molecular processes. Densi...
Ambient particles and droplets have a significant effect on climate, visibility, and human health. O...
383-399The important elements of atmospheric chemistry – neutral and ionic- including those that hav...
This article discusses the application of gas-phase ion/molecule reactions for fine structural eluci...
Abstract: The chemistry of the atmosphere results from a complex series of reactions that involve ma...
This article discusses the application of gas-phase ion/molecule reactions for fine structural eluci...
The first polyatomic molecule was discovered in interstellar space in 1968, catalyzing the growth of...
An overview is presented of gas-phase studies on the structure and reactivity of protonated species ...
Chemical ionization mass spectrometry (CI-MS) is a powerful analytical technique, capable to detect ...
The great effort put in the last decades in the study of the chemistry of air pollution and its effe...
The great effort put in the last decades in the study of the natural cycles of ozone and carbon diox...
Recent mass spectrometric studies of simple inorganic species (both charged and neutral) of main-gro...
Recent mass spectrometric studies of species and processes relevant to the chemistry of atmospheres ...
The importance of ionic processes that occur in terrestrial, planetary, and stellar atmospheres is r...
Novel methods, based on advanced mass spectrometry, were developed to characterise the gas-phase rea...
The ionosphere offers an excellent laboratory for the study of atomic and molecular processes. Densi...
Ambient particles and droplets have a significant effect on climate, visibility, and human health. O...
383-399The important elements of atmospheric chemistry – neutral and ionic- including those that hav...
This article discusses the application of gas-phase ion/molecule reactions for fine structural eluci...
Abstract: The chemistry of the atmosphere results from a complex series of reactions that involve ma...
This article discusses the application of gas-phase ion/molecule reactions for fine structural eluci...
The first polyatomic molecule was discovered in interstellar space in 1968, catalyzing the growth of...
An overview is presented of gas-phase studies on the structure and reactivity of protonated species ...
Chemical ionization mass spectrometry (CI-MS) is a powerful analytical technique, capable to detect ...