Claudiu Roman, Cecilia Arsene, Iustinian Gabriel Bejan & Romeo Iulian Olariu. (2022) Investigations into the gas-phase photolysis and OH radical kinetics of nitrocatechols: implications of intramolecular interactions on their atmospheric behaviour. Atmospheric Chemistry and Physics 22:4, pages 2203-2219.
Crossref
Min Li, Xinfeng Wang, Chunying Lu, Rui Li, Jun Zhang, Shuwei Dong, Lingxiao Yang, Likun Xue, Jianmin Chen & Wenxing Wang. (2020) Nitrated phenols and the phenolic precursors in the atmosphere in urban Jinan, China. Science of The Total Environment 714, pages 136760.
Crossref
Pourya Shahpoury, Zoran Kitanovski & Gerhard Lammel. (2018) Snow scavenging and phase partitioning of nitrated and oxygenated aromatic hydrocarbons in polluted and remote environments in central Europe and the European Arctic. Atmospheric Chemistry and Physics 18:18, pages 13495-13510.
Crossref
Bin Yuan, John Liggio, Jeremy Wentzell, Shao-Meng Li, Harald Stark, James M. Roberts, Jessica Gilman, Brian Lerner, Carsten Warneke, Rui Li, Amy Leithead, Hans D. Osthoff, Robert Wild, Steven S. Brown & Joost A. de Gouw. (2016) Secondary formation of nitrated phenols: insights from observations during the Uintah Basin Winter Ozone Study (UBWOS) 2014. Atmospheric Chemistry and Physics 16:4, pages 2139-2153.
Crossref
Umesh Kulshrestha & Pallavi Saxena. 2016. Plant Responses to Air Pollution. Plant Responses to Air Pollution
1
4
.
B. Yuan, J. Liggio, J. Wentzell, S.-M. Li, H. Stark, J. M. Roberts, J. Gilman, B. Lerner, C. Warneke, R. Li, A. Leithead, H. D. Osthoff, R. Wild, S. S. Brown & J. A. de Gouw. (2015) Secondary formation of nitrated phenols: insights from observations during the Uintah Basin Winter Ozone Study (UBWOS) 2014. Atmospheric Chemistry and Physics Discussions 15:20, pages 28659-28697.
Crossref
Chao Xu, Le Yu, Chaoyuan Zhu & Jianguo Yu. (2015)
Photoisomerization Reaction Mechanisms of
o
-Nitrophenol Revealed by Analyzing Intersystem Crossing Network at the MRCI Level
. The Journal of Physical Chemistry A 119:42, pages 10441-10450.
Crossref
S. Moukhtar, M. Saccon, A. Kornilova, S. Irei, L. Huang & J. Rudolph. (2011) Method for determination of stable carbon isotope ratio of methylnitrophenols in atmospheric particulate matter. Atmospheric Measurement Techniques 4:11, pages 2453-2464.
Crossref
Karl Auerswald, Norbert Litz, Robert Mayer, Alexander Stoy, Kassem Alef & Helmut Kerndorff. 2003. Ullmann's Encyclopedia of Industrial Chemistry. Ullmann's Encyclopedia of Industrial Chemistry.
Olivier Delhomme, Stephane Morville & Maurice Millet. (2010) Seasonal and diurnal variations of atmospheric concentrations of phenols and nitrophenols measured in the Strasbourg area, France. Atmospheric Pollution Research 1:1, pages 16-22.
Crossref
Diana Hofmann, Franziska Hartmann & Hartmut Herrmann. (2008) Analysis of nitrophenols in cloud water with a miniaturized light-phase rotary perforator and HPLC-MS. Analytical and Bioanalytical Chemistry 391:1, pages 161-169.
Crossref
X.X. Guo & P. Brimblecombe. (2007) Henry’s law constants of phenol and mononitrophenols in water and aqueous sulfuric acid. Chemosphere 68:3, pages 436-444.
Crossref
Stephen Nortcliff, Herwig Hulpke, Claus G. Bannick, Konstantin Terytze, Gerhard Knoop, Michael Bredemeier, Hubert Schulte-Bisping, Karl Auerswald, Norbert Litz, Robert Mayer, Alexander Stoy, Kassem Alef, Helmut Kerndorff, Gerd Crössmann, Thomas Eikmann, Volker Franzius, Detlef Grimsky, Norbert Möhlenbruch, Peter-Christoph Storm & Ulf Dworshak. 2000. Ullmann's Encyclopedia of Industrial Chemistry. Ullmann's Encyclopedia of Industrial Chemistry.
Angelo Cecinato, Vincenzo Di Palo, Donatella Pomata, Maria Concetta Tomasi Scianò & Massimiliano Possanzini. (2005) Measurement of phase-distributed nitrophenols in Rome ambient air. Chemosphere 59:5, pages 679-683.
Crossref
Gontrand Leyssens, Florent Louis & Jean-Pierre Sawerysyn. (2005) Temperature Dependence of the Mass Accommodation Coefficients of 2-Nitrophenol, 2-Methylphenol, 3-Methylphenol, and 4-Methylphenol on Aqueous Surfaces. The Journal of Physical Chemistry A 109:9, pages 1864-1872.
Crossref
Mark A.J. Harrison, Silvia Barra, Daniele Borghesi, Davide Vione, Cecilia Arsene & Romeo Iulian Olariu. (2005) Nitrated phenols in the atmosphere: a review. Atmospheric Environment 39:2, pages 231-248.
Crossref
B. MüllerM. R. Heal. (2002) Mass Accommodation Coefficients of Phenol, 2-Nitrophenol, and 3-Methylphenol over the Temperature Range 278−298 K. The Journal of Physical Chemistry A 106:20, pages 5120-5127.
Crossref
B. Müller & M.R. Heal. (2001) The Henry's law coefficient of 2-nitrophenol over the temperature range 278–303 K. Chemosphere 45:3, pages 309-314.
Crossref
D. HOFMANN & H. HERRMANN. (2001) CLOUD WATER ANALYSIS BY HPLC-MS. Journal of Aerosol Science 32, pages 511-512.
Crossref
Stephen Nortcliff, Herwig Hulpke, Claus G. Bannick, Konstantin Terytze, Gerhard Knoop, Michael Bredemeier, Hubert Schulte-Bisping, Karl Auerswald, Norbert Litz, Robert Mayer, Alexander Stoy, Kassem Alef, Helmut Kerndorff, Gerd Crössmann, Thomas Eikmann, Volker Franzius, Detlef Grimsky, Norbert Möhlenbruch, Peter-Christoph Storm & Ulf Dworshak. 2000. Ullmann's Encyclopedia of Industrial Chemistry. Ullmann's Encyclopedia of Industrial Chemistry.
Yael Dubowski & Michael R. Hoffmann. (2000) Photochemical transformations in ice: Implications for the fate of chemical species. Geophysical Research Letters 27:20, pages 3321-3324.
Crossref
Marco Natangelo, Silvia Mangiapan, Renzo Bagnati, Emilio Benfenati & Roberto Fanelli. (1999) Increased concentrations of nitrophenols in leaves from a damaged forestal site. Chemosphere 38:7, pages 1495-1503.
Crossref
Roger Atkinson, Rob Guicherit, Ronald A. Hites, Wolf-Ulrich Palm, James N. Seiber & Pim De Voogt. 1999. Fate of Pesticides in the Atmosphere: Implications for Environmental Risk Assessment. Fate of Pesticides in the Atmosphere: Implications for Environmental Risk Assessment
219
243
.
Jens Lüttke, Volker Scheer, Karsten Levsen, Gerold Wünsch, J. Neil Cape, Ken J. Hargreaves, Robert L. Storeton-West, Karin Acker, Wolfgang Wieprecht & Brian Jones. (1997) Occurrence and formation of nitrated phenols in and out of cloud. Atmospheric Environment 31:16, pages 2637-2648.
Crossref
Cort Anastasio, Bruce C. Faust & C. Janakiram Rao. (1996) Aromatic Carbonyl Compounds as Aqueous-Phase Photochemical Sources of Hydrogen Peroxide in Acidic Sulfate Aerosols, Fogs, and Clouds. 1. Non-Phenolic Methoxybenzaldehydes and Methoxyacetophenones with Reductants (Phenols). Environmental Science & Technology 31:1, pages 218-232.
Crossref
H. H. Dieter, J. Heidemeier, B. Mehlhorn, D. Wunderlich, V. Mohaupt, W. Muschack, D. Veltwisch, K. G. Steinäuser, D. Mühlhausen, S. Kühn, H. Kerndorff, R. Schleyer, U. Müller-Wegener & B. Rechenberg. 1997. Handbuch des Umweltschutzes und der Umweltschutztechnik. Handbuch des Umweltschutzes und der Umweltschutztechnik
190
412
.
Wolfgang Wüst, Ulrich Kern & Reimer Herrmann. (1994) Street wash-off behaviour of heavy metals, polyaromatic hydrocarbons and nitrophenols. Science of The Total Environment 146-147, pages 457-463.
Crossref
Ruprecht Schleyer, Jürgen Fillibeck, Jürgen Hammer & Barbara Raffius. 1994. Geowissenschaften und Umwelt. Geowissenschaften und Umwelt
105
113
.
J. Tremp, P. Mattrel, S. Fingler & W. Giger. (1993) Phenols and nitrophenols as tropospheric pollutants: Emissions from automobile exhausts and phase transfer in the atmosphere. Water, Air, & Soil Pollution 68:1-2, pages 113-123.
Crossref
R. Herterich. (1991) AtrazinAtrazine. Umweltwissenschaften und Schadstoff-Forschung 3:4, pages 196-200.
Crossref
Roland Herterich. (1991) Gas chromatographic determination of nitrophenols in atmospheric liquid water and airborne particulates. Journal of Chromatography A 549, pages 313-324.
Crossref