Add to ORKGSolid-state astrochemical reaction pathways have the potential to link the formation of small nitrogen-bearing species, like NH_3 and HNCO, and prebiotic molecules, specifically amino acids. To date, the chemical origin of such small nitrogen-containing species is still not well understood, despite the fact that ammonia is an abundant constituent of interstellar ices towards young stellar objects and quiescent molecular clouds. This is mainly because of the lack of dedicated laboratory studies. The aim of this work is to experimentally investigate the formation routes of NH_3 and HNCO through non-energetic surface reactions in interstellar ice analogues under fully controlled laboratory conditions and at astrochemically relevant temperature...
The interstellar ices are mainly composed of CO, H2O, NH3, .... Under a luminous flow coming from st...
International audienceContext. Hydrogenation reactions dominate grain surface chemistry in dense mol...
Abstract. The 4.62 µm absorption band, observed along the line-of-sight towards various young stella...
The chemical evolution of nitrogen during star and planet formation is still not fully understood. A...
In the last few years, ambitious programs were launched to probe the interstellar medium always more...
The surface formation of NH3 and its deuterated isotopologues – NH_2D, NHD_2, and ND_3 – is investig...
The astronomical detection of formamide (NH$_2$CHO) toward various star-forming regions and in comet...
The dominant reservoirs of elemental nitrogen in protoplanetary disks have not yet been observationa...
Partitioning of elemental nitrogen in star-forming regions is not well constrained. Most nitrogen is...
Nitrogen is the fifth most abundant element in the Universe, yet the gas-phase chemistry of N-bearin...
Nitrogen oxides are considered to be important astrochemical precursors of complex species and prebi...
The role of nitrogen and oxygen chemistry in the interstellar medium is still rather poorly understo...
International audienceContext. Beyond NH3, only one primary alkylamine, CH3NH2, has been identified ...
Context. Many C-, O-, and H-containing complex organic molecules (COMs) have been observed in the in...
The interstellar ices are mainly composed of CO, H2O, NH3, .... Under a luminous flow coming from st...
International audienceContext. Hydrogenation reactions dominate grain surface chemistry in dense mol...
Abstract. The 4.62 µm absorption band, observed along the line-of-sight towards various young stella...
The chemical evolution of nitrogen during star and planet formation is still not fully understood. A...
In the last few years, ambitious programs were launched to probe the interstellar medium always more...
The surface formation of NH3 and its deuterated isotopologues – NH_2D, NHD_2, and ND_3 – is investig...
The astronomical detection of formamide (NH$_2$CHO) toward various star-forming regions and in comet...
The dominant reservoirs of elemental nitrogen in protoplanetary disks have not yet been observationa...
Partitioning of elemental nitrogen in star-forming regions is not well constrained. Most nitrogen is...
Nitrogen is the fifth most abundant element in the Universe, yet the gas-phase chemistry of N-bearin...
Nitrogen oxides are considered to be important astrochemical precursors of complex species and prebi...
The role of nitrogen and oxygen chemistry in the interstellar medium is still rather poorly understo...
International audienceContext. Beyond NH3, only one primary alkylamine, CH3NH2, has been identified ...
Context. Many C-, O-, and H-containing complex organic molecules (COMs) have been observed in the in...
The interstellar ices are mainly composed of CO, H2O, NH3, .... Under a luminous flow coming from st...
International audienceContext. Hydrogenation reactions dominate grain surface chemistry in dense mol...
Abstract. The 4.62 µm absorption band, observed along the line-of-sight towards various young stella...