Direct measurement of desorption and diffusion energies of O and N atoms physisorbed on amorphous surfaces
出版年份 2016 全文链接
标题
Direct measurement of desorption and diffusion energies of O and N atoms physisorbed on amorphous surfaces
作者
关键词
-
出版物
ASTRONOMY & ASTROPHYSICS
Volume 585, Issue -, Pages A146
出版商
EDP Sciences
发表日期
2015-12-01
DOI
10.1051/0004-6361/201526702
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- Solid-state formation of CO2via the H2CO + O reaction
- (2015) M. Minissale et al. ASTRONOMY & ASTROPHYSICS
- Dust as interstellar catalyst
- (2015) M. Minissale et al. ASTRONOMY & ASTROPHYSICS
- Solid-state formation of CO2via the H2CO + O reaction
- (2015) M. Minissale et al. ASTRONOMY & ASTROPHYSICS
- Dust as interstellar catalyst
- (2015) M. Minissale et al. ASTRONOMY & ASTROPHYSICS
- Diffusion-desorption ratio of adsorbed CO and CO2on water ice
- (2014) L. J. Karssemeijer et al. ASTRONOMY & ASTROPHYSICS
- Diffusion of atomic oxygen relevant to water formation in amorphous interstellar ices
- (2014) Myung Won Lee et al. FARADAY DISCUSSIONS
- Efficient diffusive mechanisms of O atoms at very low temperatures on surfaces of astrophysical interest
- (2014) Emanuele Congiu et al. FARADAY DISCUSSIONS
- Single and double addition of oxygen atoms to propyne on surfaces at low temperatures
- (2014) Helen J. Kimber et al. FARADAY DISCUSSIONS
- Grain-surface reactions in molecular clouds: the effect of cosmic rays and quantum tunnelling
- (2014) L. Reboussin et al. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
- Low-temperature surface formation of NH3 and HNCO: hydrogenation of nitrogen atoms in CO-rich interstellar ice analogues
- (2014) G. Fedoseev et al. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
- Atomic oxygen diffusion on and desorption from amorphous silicate surfaces
- (2014) Jiao He et al. PHYSICAL CHEMISTRY CHEMICAL PHYSICS
- Diffusion measurements of CO, HNCO, H2CO, and NH3in amorphous water ice
- (2013) F. Mispelaer et al. ASTRONOMY & ASTROPHYSICS
- REACTIVE DESORPTION AND RADIATIVE ASSOCIATION AS POSSIBLE DRIVERS OF COMPLEX MOLECULE FORMATION IN THE COLD INTERSTELLAR MEDIUM
- (2013) A. I. Vasyunin et al. ASTROPHYSICAL JOURNAL
- Hydrogenation of PAH molecules through interaction with hydrogenated carbonaceous grains
- (2013) John D. Thrower et al. PHYSICAL CHEMISTRY CHEMICAL PHYSICS
- Quantum Tunneling of Oxygen Atoms on Very Cold Surfaces
- (2013) M. Minissale et al. PHYSICAL REVIEW LETTERS
- How micron-sized dust particles determine the chemistry of our Universe
- (2013) François Dulieu et al. Scientific Reports
- THE MECHANISM OF SURFACE DIFFUSION OF H AND D ATOMS ON AMORPHOUS SOLID WATER: EXISTENCE OF VARIOUS POTENTIAL SITES
- (2012) Tetsuya Hama et al. ASTROPHYSICAL JOURNAL
- Long-timescale simulations of diffusion in molecular solids
- (2012) L. J. Karssemeijer et al. PHYSICAL CHEMISTRY CHEMICAL PHYSICS
- THERMAL REACTIONS OF OXYGEN ATOMS WITH ALKENES AT LOW TEMPERATURES ON INTERSTELLAR DUST
- (2011) Michael D. Ward et al. ASTROPHYSICAL JOURNAL
- Water formation on bare grains: When the chemistry on dust impacts interstellar gas
- (2010) S. Cazaux et al. ASTRONOMY & ASTROPHYSICS
- DIRECT MEASUREMENTS OF HYDROGEN ATOM DIFFUSION AND THE SPIN TEMPERATURE OF NASCENT H2MOLECULE ON AMORPHOUS SOLID WATER
- (2010) Naoki Watanabe et al. Astrophysical Journal Letters
- Tunnelling in the O + CO reaction
- (2010) T. P. M. Goumans et al. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
- D2 desorption kinetics on amorphous solid water: from compact to porous ice films
- (2009) Jean-Hugues Fillion et al. PHYSICAL CHEMISTRY CHEMICAL PHYSICS
- Laboratory Evidence for Efficient Water Formation in Interstellar Ices
- (2008) S. Ioppolo et al. ASTROPHYSICAL JOURNAL
- OH Formation from O and H Atoms Physisorbed on a Graphitic Surface through the Langmuir−Hinshelwood Mechanism: A Quasi-Classical Approach
- (2008) H. Bergeron et al. JOURNAL OF PHYSICAL CHEMISTRY A
Discover Peeref hubs
Discuss science. Find collaborators. Network.
Join a conversationPublish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn More