UV/Vis+ Photochemistry Database
Literature Service: Nitrogen Acids
Substance: Nitric Acid (HNO3)
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| Authors | Journal/Source | Title/Paper | Data Sheet |
|---|---|---|---|
| HNO3; nitric acid; CAS-No.: 7697-37-2; PubChem: CID 944 | |||
| H. v. Halban, J. Eisenbrand | Zeitschrift Phys. Chemie, 132 (1), 401, 433, (1928) | Zur Kenntnis des Zustandes starker Elektrolyte in konzentrierter Loesung: I. Die Nitrate |
|
| N.C. Deno, H.J. Peterson, E. Sacher | J. Phys. Chem., 65 (2), 199-201, (1961) | Nitric acid equilibria in water - sulfuric acid |
|
| A.P. Genich, L.T. Eremenko, L.A. Nikitina | Russian Chem. Bulletin, 16 (4), 733-735, (1967) | Spectra and molecular structure of nitric acid in solutions |
|
| S.C. Schmidt, R.C. Amme , D.G. Murcray, A. Goldman, F.S. Bonomo | Nature, 238, 109, (1972) | Ultraviolet Absorption by Nitric Acid Vapour |
|
| F. Biaume | J. Photochem., 2, 139-149, (1973) | Nitric acid vapor absorption cross section spectrum and its photodissociation in the stratosphere |
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| H.S. Johnston, R. Graham | J. Phys. Chem., 77, 62-63, (1973) | Gas-phase ultraviolet absorption spectrum of nitric acid vapor |
|
| S.C. Schmidt, A. Goldman, F.S. Bonomo, D.G. Murcray, R.C. Amme | Applied Optics, 13 (5), 1202-1208, (1974) | Quantitative Studies of HNO3 Vapor Absorption in the 1700–2636 Å Wavelength Region |
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| H.S. Johnston, S.G. Chang, G. Whitten | J. Phys. Chem., 78, 1-7, (1974) | Photolysis of nitric acid vapor |
|
| H.S. Johnston, R. Graham | Can. J. Chem., 52, 1415-1423, (1974) | Photochemistry of NOx and HNOx compounds |
|
| H. Okabe | J. Chem. Phys., 72, 6642-6650, (1980) | Photodissociation of nitric acid and water in the vacuum ultraviolet; vibrational and rotational distributions of OH2 SIGMA+ |
|
| L.T. Molina, M.J. Molina | J. Photochem., 15, 97-108, (1981) | UV absorption cross sections of HO2NO2 vapor |
|
| M. Suto, L.C. Lee | J. Chem. Phys., 81, 1294-1297, (1984) | Photoabsorption and photodissociation of HONO2 in the 105-220 nm region |
|
| O. Rattigan, E.R. Lutman, R.L. Jones, R.A. Cox | Ber. Bunsenges., 96, 399-404, (1992) | Temperature dependent absorption cross sections and atmospheric photolysis |
|
| M.H. Harwood, O. Rattigan, R.L. Jones, R.A. Cox | Proc. SPIE Int. Soc. Opt. Eng., 1715, 113-124, (1993) | Temperature dependent absorption cross-sections for HNO3 and N2O5 |
|
| J.B. Burkholder, R.K. Talukdar, A.R. Ravishankara, S. Solomon | Geophys. Res. Let., 98, 22937-22948, (1993) | Temperature dependence of the HNO3 uv absorption cross sections |
|
| S.S. Brown, R.W. Wilson, A.R. Ravishankara | J. Phys. Chem. A, 104 (21), 4976 -4983, (2000) | Absolute Intensities for Third and Fourth Overtone Absorptions in HNO3 and H2O2 Measured by Cavity Ring Down Spectroscopy |
|
| S.A. Carl, T. Ingham, G.K. Moortgat, J.N. Crowley | Chem. Phys. Lett., 341, 93-98, (2001) | OH kinetics and photochemistry of HNO3 in the presence of water vapor |
|
| K.J. Feierabend, D.K. Havey, V. Vaida | Spectrochimica Acta Part A, 60, 12, 2775-2781, (2004) | Gas phase spectroscopy of HNO3 in the region 2000-8500 cm-1 |
|
| C. Zhu, B. Xiang, L. Zhu, R. Cole | Chem. Phys. Lett., 458, 373-377, (2008) | Determination of absorption cross sections of surface-adsorbed HNO3 in the 290–330 nm region by Brewster angle cavity ring-down spectroscopy |
|
| Chengzhu Zhu, Bin Xiang, Liang T. Chu, Lei Zhu | J. Phys. Chem. A, 114 (7), 2561-2568, (2010) | 308 nm Photolysis of Nitric Acid in the Gas Phase, on Aluminum Surfaces, and on Ice Films |
|
| J. Du, L. Zhu | Chem. Phys. Lett., 511, 213-218, (2011) | Quantification of the absorption cross sections of surface-adsorbed nitric acid in the 335–365 nm region by Brewster angle cavity ring-down spectroscopy |
|
| M. Sangwan, W.R. Stockton, D. Stewart, L. Zhu | J. Phys. Chem. A, 120 (18), 2877-2884, (2016) | Absorption of Near UV Light by HNO3/NO3- on Sapphire Surfaces |
|
| related data (quantum yield studies; photolysis studies, etc.) | |||
| T. Bérces, S. Förgeteg | Trans. Faraday Soc., 66, 633-639, (1970) | Kinetics of photolysis of nitric acid vapour. Part 1.-Direct photolysis at low conversion |
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| T. Bérces, S. Förgeteg | Trans. Faraday Soc., 66, 640-647, (1970) | Kinetics of photolysis of nitric acid vapour. Part 2.-Decomposition of nitric acid photosensitized by nitrogen dioxide |
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| T. Bérces, S. Förgeteg, F. Márta | Trans. Faraday Soc., 66, 648-655, (1970) | Kinetics of photolysis of nitric acid vapour. Part 3.-Photolysis of nitric acid in the presence of H2, CO and hydrocarbons |
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| J.J. Margitan, R.T. Watson | J. Phys. Chem., 86, 3819-3824, (1982) | Kinetics of the reaction of hydroxyl radicals with nitric acid |
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| G.S. Jolly, D.L. Singleton, D.J. McKenney, G. Paraskevopoulos | J. Chem. Phys., 84, 6662-6667, (1986) | Laser photolysis of HNO3 at 222 nm: Direct determination of the primary quantum yield of OH |
|
| B.M. Cheng, J.W. Lee, Y.-P. Lee | J. Phys. Chem., 95(7) 2814-2817, (1991) | Photolysis of nitric acid in solid argon: the infrared absorption of peroxynitrous acid (HOONO) |
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| W.-J. Chen, W.-J. Lo, B.-M. Cheng, Y.-P. Lee | J. Chem. Phys. 97, 7167, (1992) | Photolysis of nitric acid in solid nitrogen |
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| A.A. Turnipseed, G.L. Vaghjiani, J.E. Thompson, A.R. Ravishankara | J. Chem. Phys., 96, 5887-5895, (1992) | Photodissociation of HNO3 at 193, 222, and 248 nm - Products and quantum yields |
|
| Sun Jong Baek, Chan Ryang Park, Hong Lae Kim | J. Photochem. Photobiol. A: Chemistry, 104, 13-18, (1997) | Photodissociation dynamics of HNO3 at 266 nm |
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| Q. Li, R.T. Carter, J.R. Huber | Chem. Phys. Lett., 334, 39-46, (2001) | The photodissociation dynamics of nitric acid studied at 193 nm by LIF and REMPI-TOF methods |
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| J.R. Huber | Chem Phys Chem, 5 (11), 1663-1669, (2004) | Photochemistry of Molecules Relevant to the Atmosphere: Photodissociation of Nitric Acid in the Gas Phase |
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| V. Riffault, T. Gierczak, J.B. Burkholder, A.R. Ravishankara | Phys. Chem. Chem. Phys., 8, 1079 - 1085, (2006) | Quantum yields for OH production in the photodissociation of HNO3 at 248 and 308 nm and H2O2 at 308 and 320 nm |
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| O. Abida, J. Du, L. Zhu | Chem. Phys. Lett., 534, 77-82, (2012) | Investigation of the Photolysis of the Surface-Adsorbed HNO3 by Combining Laser Photolysis with Brewster Angle Cavity Ring-Down Spectroscopy |
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