98 citations as recorded by crossref.

1. The link between atmospheric radicals and newly formed particles at a spruce forest site in Germany B. Bonn et al.
2. Nucleation mechanisms of iodic acid in clean and polluted coastal regions H. Rong et al.
3. A mechanism for biologically induced iodine emissions from sea ice A. Saiz-Lopez et al.
4. Laser induced fluorescence studies of iodine oxide chemistry : Part II. The reactions of IO with CH3O2, CF3O2 and O3 T. Dillon et al.
5. Rate Coefficients for the Reaction of Iodine Oxide with Methyl Peroxy Radicals T. Dillon et al.
6. Intercomparison of dimethylsulfide oxidation mechanisms for the marine boundary layer: Gaseous and particulate sulfur constituents M. Karl et al.
7. Impact of Enhanced Ozone Deposition and Halogen Chemistry on Tropospheric Ozone over the Northern Hemisphere G. Sarwar et al.
8. Measurements of iodine monoxide at a semi polluted coastal location K. Furneaux et al.
9. Iodine-mediated coastal particle formation: an overview of the Reactive Halogens in the Marine Boundary Layer (RHaMBLe) Roscoff coastal study G. McFiggans et al.
10. Spectroscopic studies of molecular iodine emitted into the gas phase by seaweed S. Ball et al.
11. Iodine dioxide nucleation simulations in coastal and remote marine environments H. Vuollekoski et al.
12. Photochemistry of OIO: Laboratory study and atmospheric implications J. Gómez Martín et al.
13. Atmospheric amines are a crucial yet missing link in Earth’s climate via airborne aerosol production V. Kanawade & T. Jokinen
14. The quantitative infrared and NIR spectrum of CH2I2 vapor: vibrational assignments and potential for atmospheric monitoring T. Johnson et al.
15. A theoretical study on the formation of iodine oxide aggregates and monohydrates O. Gálvez et al.
16. Frequency Comb Based Spectrometer for in Situ and Real Time Measurements of IO, BrO, NO2, and H2CO at pptv and ppqv Levels R. Grilli et al.
17. Introductory Lecture : Chemistry–climate coupling: the importance of chemistry in climate issues A. Ravishankara
18. A description of the first open-source community release of MISTRA-v9.0: a 0D/1D atmospheric boundary layer chemistry model J. Bock et al.
19. Direct Observation of Adduct Formation of Alkyl and Aromatic Iodides with Cl Atoms Using Cavity Ring-Down Spectroscopy S. Enami et al.
20. Coastal Iodine Emissions: Part 2. Chamber Experiments of Particle Formation fromLaminaria digitata-Derived and Laboratory-Generated I2 C. Monahan et al.
21. Uncertainties in gas-phase atmospheric iodine chemistry R. Sommariva et al.
22. Modelling iodide – iodate speciation in atmospheric aerosol: Contributions of inorganic and organic iodine chemistry S. Pechtl et al.
23. Extensive Evaluation of a Diffusion Denuder Technique for the Quantification of Atmospheric Stable and Radioactive Molecular Iodine R. Huang et al.
24. Temperature Dependence Kinetic Studies of the Reaction of O(3P) with CHI3 and C2H5I and the 298 K Reaction of OH(X2Π) with CHI3 S. ZHANG et al.
25. Theoretical treatment of IO–X (X = N2, CO, CO2, H2O) complexes S. Marzouk et al.
26. Rates and Mechanisms for the Reactions of Chlorine Atoms with Iodoethane and 2-Iodopropane J. Orlando et al.
27. Simultaneous satellite observations of IO and BrO over Antarctica A. Schönhardt et al.
28. Investigation of coastal sea-fog formation using the WIBS (wideband integrated bioaerosol sensor) technique S. Daly et al.
29. Chemical characterization of organic compounds involved in iodine-initiated new particle formation from coastal macroalgal emission Y. Wan et al.
30. The composition of nucleation and Aitken modes particles during coastal nucleation events: evidence for marine secondary organic contribution P. Vaattovaara et al.
31. Measurements and modelling of molecular iodine emissions, transport and photodestruction in the coastal region around Roscoff R. Leigh et al.
32. Weak Acids Enhance Halogen Activation on Atmospheric Water’s Surfaces S. Hayase et al.
33. COMPASS – COMparative Particle formation in the Atmosphere using portable Simulation chamber Study techniques B. Bonn et al.
34. Iodine monoxide at a clean marine coastal site: observations of high frequency variations and inhomogeneous distributions R. Commane et al.
35. Thresholds of secondary organic aerosol formation by ozonolysis of monoterpenes measured in a laminar flow aerosol reactor F. Bernard et al.
36. Active Site, Catalytic Cycle, and Iodination Reactions of Vanadium Iodoperoxidase: A Computational Study L. Pacios & O. Gálvez
37. Iodine oxides in large-scale THAI tests F. Funke et al.
38. Absorption cross section and photolysis of OIO M. Tucceri et al.
39. Quantum chemical calculations on a selection of iodine-containing species (IO, OIO, INO3, (IO)2, I2O3, I2O4 and I2O5) of importance in the atmosphere N. Kaltsoyannis & J. Plane
40. On the vertical distribution of boundary layer halogens over coastal Antarctica: implications for O3, HOx, NOx and the Hg lifetime A. Saiz-Lopez et al.
41. Nucleation and Growth of Nanoparticles in the Atmosphere R. Zhang et al.
42. Iodine Clusters in the Atmosphere II: Cluster Formation Potential of Iodine Oxyacids and Iodine Oxides M. Engsvang & J. Elm
43. Formation Mechanisms of Iodine–Ammonia Clusters in Polluted Coastal Areas Unveiled by Thermodynamics and Kinetic Simulations D. Xia et al.
44. New parameterization of sulfuric acid‐ammonia‐water ternary nucleation rates at tropospheric conditions J. Merikanto et al.
45. Iodine chemistry in the chemistry–climate model SOCOL-AERv2-I A. Karagodin-Doyennel et al.
46. Fractal growth modelling of nanoparticles R. Saunders & J. Plane
47. Model for the Formation of Iodine Oxide Nanoparticles within the Reactor Containment D. Sinitsyn et al.
48. Biogenic halocarbons from the Peruvian upwelling region as tropospheric halogen source H. Hepach et al.
49. VUV photoionization aerosol mass spectrometric study on the iodine oxide particles formed from O3-initiated photooxidation of diiodomethane (CH2I2) N. Wei et al.
50. Space-based observation of volcanic iodine monoxide A. Schönhardt et al.
51. Direct Emission of I2 Molecule and IO Radical from the Heterogeneous Reactions of Gaseous Ozone with Aqueous Potassium Iodide Solution Y. Sakamoto et al.
52. Marine aerosol production: a review of the current knowledge C. O'Dowd & G. de Leeuw
53. Measurement and modelling of tropospheric reactive halogen species over the tropical Atlantic Ocean A. Mahajan et al.
54. Significance of halogen bonding in the synergistic nucleation of iodine oxoacids and iodine oxides R. Zhang et al.
55. Studies of the Formation and Growth of Aerosol from Molecular Iodine Precursor R. Saunders et al.
56. The Competition between Hydrogen, Halogen, and Covalent Bonding in Atmospherically Relevant Ammonium Iodate Clusters N. Frederiks et al.
57. Current state of aerosol nucleation parameterizations for air-quality and climate modeling K. Semeniuk & A. Dastoor
58. Spectroscopic and Kinetic Study of the Gas-Phase CH3I−Cl and C2H5I−Cl Adducts V. Dookwah-Roberts et al.
59. Mixing state and distribution of iodine-containing particles in Arctic Ocean during summertime L. Wang et al.
60. Mechanism development and modelling of tropospheric multiphase halogen chemistry: The CAPRAM Halogen Module 2.0 (HM2) P. Bräuer et al.
61. Kinetic Study of IO Radical with RO2 (R = CH3, C2H5, and CF3) Using Cavity Ring-Down Spectroscopy S. Enami et al.
62. Optical Properties and Chemical Compositions of Iodine-Containing Aerosols Produced from the Atmospheric Photolysis of Methylene Iodide in the Presence of Ozone Y. Sakamoto et al.
63. Coupling of HOx, NOx and halogen chemistry in the antarctic boundary layer W. Bloss et al.
64. Formation of the iodine monoxide radical from gas-phase reactions of iodoalkyl radicals with molecular oxygen S. Enami et al.
65. On the mechanism of iodine oxide particle formation J. Gómez Martín et al.
66. Statistical characteristics and predictability of particle formation events at Mace Head Y. Yoon et al.
67. Experimental and modelling studies of iodine oxide formation and aerosol behaviour relevant to nuclear reactor accidents S. Dickinson et al.
68. Probing key organic substances driving new particle growth initiated by iodine nucleation in coastal atmosphere Y. Wan et al.
69. LIF studies of iodine oxide chemistry : Part 3. Reactions IO + NO3 → OIO + NO2, I + NO3 → IO + NO2, and CH2I + O2 → (products): implications for the chemistry of the marine atmosphere at night T. Dillon et al.
70. Particle nucleation following the O3 and OH initiated oxidation of α‐pinene and β‐pinene between 278 and 320 K J. Burkholder et al.
71. Switching on molecular iodine elimination through isomerization: The F2C–I–I isomer of difluorodiiodomethane P. El-Khoury et al.
72. The reaction of IO with CH3SCH3: products and temperature dependent rate coefficients by laser induced fluorescence T. Dillon et al.
73. A Multidimensional Study of the Reaction CH2I+O2: Products and Atmospheric Implications T. Gravestock et al.
74. Iodine speciation and size distribution in ambient aerosols at a coastal new particle formation hotspot in China H. Yu et al.
75. Performance of dry electrostatic precipitator for the removal of CsI aerosol particles under simulated severe nuclear accident conditions S. Basnet et al.
76. Iodine monoxide in the Western Pacific marine boundary layer K. Großmann et al.
77. Kinetics of the reactions of CH2Br and CH2I radicals with molecular oxygen at atmospheric temperatures A. Eskola et al.
78. Enhancement of Gaseous Iodine Emission by Aqueous Ferrous Ions during the Heterogeneous Reaction of Gaseous Ozone with Aqueous Iodide Y. Sakamoto et al.
79. Atmospheric Chemistry of Iodine A. Saiz-Lopez et al.
80. Observations of high concentrations of I2 and IO in coastal air supporting iodine‐oxide driven coastal new particle formation R. Huang et al.
81. Physical properties of iodate solutions and the deliquescence of crystalline I2O5 and HIO3 R. Kumar et al.
82. A gas-to-particle conversion mechanism helps to explain atmospheric particle formation through clustering of iodine oxides J. Gómez Martín et al.
83. Nucleation of atmospheric aerosol particles J. Curtius
84. The spatial distribution of the reactive iodine species IO from simultaneous active and passive DOAS observations K. Seitz et al.
85. Aerosol nucleation and its role for clouds and Earth's radiative forcing in the aerosol-climate model ECHAM5-HAM J. Kazil et al.
86. New particle formation in coastal New Zealand with a focus on open-ocean air masses M. Peltola et al.
87. Kinetic and Mechanistic Studies of the I2/O3 Photochemistry J. Gómez Martín et al.
88. The development and deployment of a ground-based, laser-induced fluorescence instrument for the in situ detection of iodine monoxide radicals M. Thurlow et al.
89. Computational chemistry of cluster: Understanding the mechanism of atmospheric new particle formation at the molecular level X. Zhang et al.
90. Temperature, humidity, and ionisation effect of iodine oxoacid nucleation B. Rörup et al.
91. First-principles calculations of the structural and dynamic properties, and the equation of state of crystalline iodine oxides I2O4, I2O5, and I2O6 Z. Wu et al.
92. A kinetic study of the gas‐phase reactions of OIO with NO, NO2, and Cl2 S. Enami et al.
93. Determination of the O–IO bond dissociation energy by photofragment excitation spectroscopy J. Gómez Martín & J. Plane
94. Halogen Radical Chemistry at Aqueous Interfaces S. Enami et al.
95. Modeling chemical and aerosol processes in the transition from closed to open cells during VOCALS-REx J. Kazil et al.
96. Reaction Mechanisms of IO Radical Formation from the Reaction of CH3I with Cl Atom in the Presence of O2 S. Enami et al.
97. Concurrent observations of atomic iodine, molecular iodine and ultrafine particles in a coastal environment A. Mahajan et al.
98. Measurement of IO radical concentrations in the marine boundary layer using a cavity ring-down spectrometer R. Wada et al.