UV/Vis⁺ Photochemistry Database

Literature Service: Organic Carbonyl Compounds/Aldehydes/Ketones/Amides and related radicals

Substances (unsorted):  

CHO, CH₂O, HCDO, CD₂O, CH₃CO, CH₃CHO, CH₃CDO, CD₃CHO, CD₃CDO, HOCH₂CHO, C₃H₂O, C₄H₄O, C₂H₅CHO, C₃H₇CHO, C₄H₉CHO, C₅H₁₁CHO, C₆H₆O₂, C₆H₆O₃, C₆H₁₀O, C₆H₁₂O, C₈H₁₆O, C₆H₁₃CHO, CH₂CHCHO, CH₃CH₂CCHO, CH₃CH=CHCHO, (CH₃)₂CHCHO, (CH₃)₂CHCH₂CHO, CH₃CH=C(CH₃)CHO, C₃H₈O, (CH₃)₃CCHO, CH₃COCH₃, CD₃C(O)CD₃, CH₃C(O)CH₂Cl, CH₃COCHO, CH₃COC₂H₅, C₄H₈O₂, C₅H₁₀O₂, n-C₃H₇COCH₃; C₂H₅COC₂H₅, C₅H₁₀O, CH₃C(O)C(O)C₂H₅, C₇H₁₄O, ((CH₃)₂CH)₂C(O), CH₃C(O)CH₂CH(CH₃)₂, CH₃C(O)(CH)₂CH(CH₃)₂, CHOCHO, CH₂C(CH₃)CHO, CH₃C(O)CH₂OH, CH₃COCHCH₂, C₅H₈O, (CH₃)₂NC(O)CH₃, C₄H₄N₂O, C₆H₈O, C₆H₁₀O, C₆H₁₂O, C₈H₈O, C₉H₈O, C₉H₁₀O, C₁₀H₁₀O, C₁₀H₁₂O, C₁₀H₁₄O, C₁₀H₁₆O, C₃H₄O₂, C₃H₄O₂, C₃H₆O₃, C₄H₄O₂, C₄H₆O, C₄H₆O₂, C₄H₈O₂, C₅H₆O, C₅H₆O₂, C₅H₈O₂, C₆H₁₂O₂, C₆H₁₂O₃, CH₂CO, C₅H₄O₂, C₆H₆O₂, C₇H₆O₂, C₈H₁₆O₄, C₉H₆O₂, C₉H₆O₃, C₉H₆O₄, C₁₀H₈O₄, C₁₁H₁₄O₄, C₇H₈O₂, C₈H₁₀O₂, C₁₀H₁₆O₂, C₃H₄O, C₆H₁₂O, C₇H₁₄O, C₉H₁₄O, C₉H₁₈O₆, C₁₂H₁₀O, C₁₅H₁₀O

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Authors	Journal/Source	Title/Paper	Data Sheet
CHO; formyl radical; CAS-No.: 2597-44-6; PubChem: CID 123370
G. Herzberg, D.A. Ramsey	Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences, Volume 233, Issue 1192, pp. 34-54	The 7500 to 4500 Angstrom Absorption System of the Free HCO Radical
C.J. Hochanadel, T.J. Sworski, P.J. Ogren	J. Phys. Chem., 84(3), 231-235, (1980)	Ultraviolet Spectrum and Reaction Kinetics of the Formyl Radical
J.E. Baggott, H.M. Frey, P.D. Lightfoot, R. Walsh	Chem. Phys. Lett., 132, 225-230, (1986)	The absorption cross section of the HCO radical at 614.59 nm and the rate constant for HCO + HCO --> H2CO + CO
D.B. Oh, A.C. Stanton, J.A. Silver	J. Phys. Chem., 97 (10), 2246-2250, (1993)	Measurement of formyl radical line strength in the A2A" <-- X2A' band system using visible/near-infrared diode laser absorption
Y. Tang, L. Zhu	J. Phys. Chem. A, 108 (40), 8307-8316, (2004)	Wavelength-Dependent Photolysis of n-Hexanal and n-Heptanal in the 280-330-nm Region
L.N. Krasnoperov, E.N. Chesnokov, H. Stark, A.R. Ravishankara	Proceedings of the Combustion Institute, 30, 935-943, (2005)	Elementary reactions of formyl (HCO) radical studied by laser photolysis-transient absorption spectroscopy
J.E. Flad, S.S. Brown, J.B. Burkholder, H. Stark, A.R. Ravishankara	Phys. Chem. Chem. Phys., 8, 3636 - 3642, (2006)	Absorption cross sections for the A2A" (0,90,0) <-- X2A' (0,01,0) band of the HCO radical
V.A. Shubert, S.T. Pratt	J. Phys. Chem. A, 114 (42), 11238-11243, (2010)	Photodissociation of Acetaldehyde and the Absolute Photoionization Cross Section of HCO
J.D. Savee, B. Sztaray, O. Welz, C.A. Taatjes, D.L. Osborn	J. Phys. Chem. A, 125 (18), 3874-3884, (2021)	Valence Photoionization and Autoionization of the Formyl Radical
CH2O; formaldehyde; methanal; CAS-No.: 50-00-0; PubChem: 712
G. Fleming, M.M. Anderson, A.J. Harrison, L.W. Pickett	J. Chem. Phys., 30, 351-354, (1959)	Effect of Ring Size on the Far Ultraviolet Absorption and Photolysis of Cyclic Ethers
R.D. McQuigg, J.G. Calvert	J. Am. Chem. Soc., 91, 1590- 1599, (1969)	The Photodecomposition of CH2O, CD2O, CHDO, and CH2O-CD2O mixtures at xenon flash lamp intensities
J.E. Mentall, E.P. Gentieu, M. Krauss, D. Neumann	J. Chem. Phys., 55, 5471, (1971)	Photoionization and Absorption Spectrum of Formaldehyde in the Vacuum Ultraviolet
S. Glicker, L.J. Stief	J. Chem. Phys., 54, 2852-2857, (1971)	Photolysis of Formaldehyde at 1470 and 1236 A
J.G. Calvert, J.A. Kerr, K.L. Demerjan, R.D. McQuigg	Science, 175, 751-752, (1972)	Photolysis of Formaldehyd as a Hydrogen Atom Source in the Lower Stratosphere
H.P. Sperling, S. Toby	Can. J. Chem./Rev. can. chim. 51(4): 471-475, (1973)	The Photochemical Decomposition of Gaseous Formaldehyde
G.K. Moortgat	priv. comm., (1980)	MPI Mainz, 1980
A.M. Bass	priv. comm., (1980)	(295 K)
A.M. Bass, L.C. Glasgow, C. Miller, J.P. Jesson, D.L. Filkin	Planet. Space Sci., 28, 675-679, (1980)	Temperature Dependent Absortion Cross Sections for Formaldehyde (CH2O): The Effect of Formaldehyde on Stratospheric Chlorine Chemistry
P. Brint, J.-P. Connerade, C. Mayhew, K. Sommer	J. Chem. Soc., Faraday Trans., 2, 81, 1643-1652, (1985)	The vacuum ultraviolet absorption spectrum of formaldehyde
G.K. Moortgat, W. Schneider	J. Phys. Chem. Ref. Data, 18, 1014, (1989)	(285 K)
C.A. Cantrell, J.A. Davidson, A.H. McDaniel, R.E. Shetter, J.G. Calvert	J. Phys. Chem., 94, 3902-3908, (1990)	Temperature-Dependent Formaldehyde Cross Sections in the Near-Ultraviolet Spectral Region
C.A. Cantrell, J.A. Davidson, A.H. McDaniel, R.E. Shetter, J.G. Calvert	J. Phys. Chem., 94, 3902-3908, (1990)	Temperature-Dependent Formaldehyde Cross Sections in the Near-Ultraviolet Spectral Region
J.D. Rogers	J. Phys. Chem., 94, 4011-4015, (1990)	Ultraviolet Absorption Cross Sections and Atmospheric Photodissociation Rate Constants of Formaldehyde
R. Meller	priv. comm., MPI Mainz, Germany, (1992)	UV spectrum of formaldehyde at 297 K
G. Cooper, J.E. Anderson, C.E. Brion	Chem. Phys., 209, 61-77, (1996)	Absolute photoabsorption and photoionization of formaldehyde in the VUV and soft X-ray regions (3–200 eV)
M.W. Mackey, J.W. Daily, J.T. McKinnon, E.P. Riedel	J. Photochem. Photobiol. A: Chemistry, 105, 1-6, (1997)	High-temperature UV-visible absorption spectral measurements and estimated primary photodissociation rates of formaldehyde, chlorobenzene and 1-chloronaphthalene
H. Barry, L. Corner, G. Hancock, R. Peverall, G.A.D. Ritchie	Phys. Chem. Chem. Phys., 4, 445 - 450, (2002)	Cross sections in the ny5 band of formaldehyde studied by cavity enhanced absorption spectroscopy near 1.76 micrometer
G. Friedrichs, D.F. Davidson, R.K. Hanson	Int. J. Chem. Kinet., 34, 374-386, (2002)	Direct measurements of the reaction H + CH2O --> H2 + HCO behind shock waves by means of vis-uv detection of formaldehyde
Y. Chen, L. Zhu	J. Phys. Chem. A, 107, 4643-4651, (2003)	Wavelength-dependent photolysis of glyoxal in the 290-420 nm region; (298 K)
Bai X., T. Metz, F. Ossler, M. Alden	Spectrochimica Acta, Part A 60, 821-828, (2004)	Absorption of formaldehyde (H2CO) in the A1A2<--X1A1 band system at elevated temperatures and pressures
M. Staak, E.W. Gash, D.S. Venables, A.A. Ruth	J. Molecular Spectroscopy, 229, 115-121, (2005)	The rotationally-resolved absorption spectrum of formaldehyde from 6547 to 6804 cm-1
F.D. Pope, C.A. Smith, P.R. Davis, D.E. Shallcross, M.N.R. Ashfold, A.J. Orr-Ewing	Faraday Discuss., 130, 59-72, (2005)	Photochemistry of formaldehyde under tropospheric conditions
F.D. Pope, C.A. Smith, M.N.R. Ashfold, A.J. Orr-Ewing	Phys. Chem. Chem. Phys., 7, 79 - 84, (2005)	High-resolution absorption cross sections of formaldehyde at wavelengths from 313 to 320 nm
D.T. Co, T.F. Hanisco, J.G. Anderson, F.N. Keutsch	J. Phys. Chem. A, 109 (47), 10675 -10682, (2005)	Rotationally Resolved Absorption Cross Sections of Formaldehyde in the 28100-28500 cm-1 (351-356 nm) Spectral Region: Implications for in Situ LIF Measurements
C.A. Smith, F.D. Pope, B. Cronin, C.B. Parkes, A.J. Orr-Ewing	J. Phys. Chem. A, 110 (41), 11645 -11653, (2006)	Absorption Cross Sections of Formaldehyde at Wavelengths from 300 to 340 nm at 294 and 245 K
Weixiong Zhao, Xiaoming Gao, Lunhua Deng, Teng Huang, Tao Wu, Weijun Zhang	J. Quant. Spectr. Rad. Transfer, 107, 331-339, (2007)	Absorption spectroscopy of formaldehyde at 1.573. micrometer
A. Gratien, B. Picquet-Varrault, J. Orphal, E. Perraudin, J.-F. Doussin, J.-M. Flaud	J. Geophys. Res., 112, D05305, (2007)	Laboratory intercomparison of the formaldehyde absorption cross sections in the infrared (1660–1820 cm-1) and ultraviolet (300–360 nm) spectral regions
A. Gratien, E. Nilsson, J.-F. Doussin, M.S. Johnson, C.J. Nielsen, Y. Stenstrom, B. Picquet-Varrault	J. Phys. Chem. A, 111 (45), 11506 -11513, (2007)	UV and IR Absorption Cross-sections of HCHO, HCDO, and DCDO
T. Brauers, J. Bossmeyer, H.-P. Dorn, E. Schlosser, R. Tillmann, R. Wegener, A. Wahner	Atmos. Chem. Phys., 7, 3579-3586, (2007)	Investigation of the formaldehyde differential absorption cross section at high and low spectral resolution in the simulation chamber SAPHIR
P.G. Carbajo, S.C. Smith, A.-L. Holloway, C.A. Smith, F.D. Pope, D.E. Shallcross, A.J. Orr-Ewing	J. Phys. Chem. A, 112 (48), 12437-12448, (2008)	Ultraviolet Photolysis of HCHO: Absolute HCO Quantum Yields by Direct Detection of the HCO Radical Photoproduct
M.B. Crow, A. Gilchrist, G. Hancock, R. Peverall, G. Richmond, G.A.D. Ritchie, S.R. Taylor	J. Phys. Chem. A, 113 (24), 6689-6696, (2009)	High-Resolution Absorption Studies of the 1A2 - 1A1 202401 Band of Formaldehyde
K. Sunanda, B.N. Rajasekhar, P. Saraswathy, B.N. Jagatap	Spectroscopy Letters, 45 (1), 65-73, (2012)	Photo-Absorption Studies on Formaldehyde Using Synchrotron Radiation at Indus I
C.T. Ernest, D. Bauer, A.J. Hynes	J. Phys. Chem. A, 116 (24), 5910-5922, (2012)	High-Resolution Absorption Cross Sections of Formaldehyde in the 30285-32890 cm-1 (304-330 nm) Spectral Region
P. Morajkar, C. Schoemeacker, C. Fittschen	J. Mol. Spectroscopy, 281, 18-23, (2012)	Absolute absorption cross sections for two selected lines of formaldehyde around 6625 cm-1
related data (quantum yield studies; photolysis studies, etc.)
K.B. Harvey, J.F. Ogilvie	Can. J. Chem., 40, 85-91, (1962)	Infrared absorption of formaldehyde at low temperatures, evidence for multiple trapping sites in an argon matrix
M. Venugopalan, K.O. Kutschke	Can. J. Chem., 42, 2451-2455, (1964)	The photolysis of formaldehyde, formaldehyde-d2, and their mixtures
A. Horowitz, J.G. Calvert	Int. J. Chem. Kinetics, 10, 805-819, (1978)	Wavelength dependence of the quantum efficiencies of the primary processes in formaldehyde photolysis at 25°C
J.H. Clark, C.B. Moore, N.S. Nogar	J. Chem. Phys., 68, 1264-1272, (1978)	The photochemistry of formaldehyde: Absolute quantum yields, radical reactions, and NO reactions
G.K. Moortgat, F. Slemr, W. Seiler, P. Warneck	Chem. Phys. Lett., 54, 444-447, (1978)	Photolysis of formaldehyde: Relative quantum yields of H2 and CO in the wavelength range 270–360 nm
G.K. Moortgat, P. Warneck	J. Chem. Phys., 70, 3639-3651, (1979)	CO and H2 quantum yields in the photodecomposition of formaldehyde in air
K.Y. Tang, P.W. Fairchild, E.K.C. Lee	J. Phys. Chem., 83, 569-573, (1979)	Laser-induced photodecomposition of formaldehyde (~A1A2) from its single vibronic levels. Determination of the quantum yield of H-atom by HNO (~A1A'') chemiluminescence
G.K. Moortgat, W. Seiler, P. Warneck	J. Chem. Phys., 78, 1185-1190, (1983)	Photodissociation of HCHO in air: CO and H2 quantum yields at 220 and 300 K
N.I. Sorokin, G.I. Skubnevskaya, N.M. Bazhin	Theoretical and Experimental Chemistry, 18 (4), 410-416, (1983)	Gas-phase photolysis of formaldehyde in the region of molecular dissociation
J. Desai, J. Heicklen	J. Photochemistry, 40, 23-29, (1987)	The wavelength dependence of the photo-oxidation of CH2O
W.B. DeMore, S.P. Sander, D.M. Golden, R.F. Hampson, M.J. Kurylo, C.J. Howard, A.R. Ravishankara, C.E. Kolb, M.J. Molina	NASA, JPL publication 97-4, evaluation number 12, 166, (1997)	Chemical kinetics and photochemical data for use in stratospheric modeling
G.D. Smith, L.T. Molina, M.J. Molina	J. Phys. Chem. A, 106 (7), 1233-1240, (2002)	Measurement of Radical Quantum Yields from Formaldehyde Photolysis between 269 and 339 nm
C.T. Ernest, D. Bauer, A.J. Hynes	J. Phys. Chem. A, 116 (26), 6983-6995, (2012)	Radical Quantum Yields from Formaldehyde Photolysis in the 30400-32890 cm-1 (304-329 nm) Spectral Region: Detection of Radical Photoproducts Using Pulsed Laser Photolysis-Pulsed Laser Induced Fluorescence
HCDO; formaldehyde-d; CAS-No.: 1664-99-9
A. Gratien, E. Nilsson, J.-F. Doussin, M.S. Johnson, C.J. Nielsen, Y. Stenstrom, B. Picquet-Varrault	J. Phys. Chem. A, 111 (45), 11506 -11513, (2007)	UV and IR Absorption Cross-sections of HCHO, HCDO, and DCDO
CD2O; formaldehyde-2d; CAS-No.: 1664-98-8
S. Glicker, L.J. Stief	J. Chem. Phys., 54, 2852-2857 (1971)	Photolysis of formaldehyde at 1470 and 1236 Å
A. Gratien, E. Nilsson, J.-F. Doussin, M.S. Johnson, C.J. Nielsen, Y. Stenstrom, B. Picquet-Varrault	J. Phys. Chem. A, 111 (45), 11506 -11513, (2007)	UV and IR Absorption Cross-sections of HCHO, HCDO, and DCDO
related data (quantum yield studies; photolysis studies, etc.)
J.H. Clark, C.B. Moore, N.S. Nogar	J. Chem. Phys., 68, 1264-1272, (1978)	The photochemistry of formaldehyde: Absolute quantum yields, radical reactions, and NO reactions
C2H3O; CH3CO; acetyl radical; CAS-No.: 3170-69-2
D.A. Parkes	Chem. Phys. Lett., 77, 527-532, (1981)	The ultraviolet absorption spectra of the acetyl radical and the kinetics of the CH3 + CO reaction at room temperature
M.M. Maricq, J.J. Szente	Chem. Phys. Lett., 253, 333-339, (1996)	The UV spectrum of acetyl and the kinetics of the chain reaction between acetaldehyde and chlorine
M. Cameron, V. Sivakumaran, T.J. Dillon, J.N. Crowley	Phys. Chem. Chem. Phys., 4, 3628 - 3638, (2002)	Reaction between OH and CH3CHO Part 1. Primary product yields of CH3(296 K), CH3CO (296 K), and H (237-296 K)
B. Rajakumar, J.E. Flad, T. Gierczak, A.R. Ravishankara, J.B. Burkholder	J. Phys. Chem. A, 111 (37), 8950-8958, (2007)	Visible Absorption Spectrum of the CH3CO Radical
C2H4O; CH3CHO; acetaldehyde; ethanal; CAS-No.: 75-07-0; PubChem: CID 177
J.W. Ellis	J. Am. Chem. Soc., 51, 1384-1394, (1929)	The near infrared absorption spectra of some aldehydes, ketones, esters and ethers
A.D. Walsh	Proceedings of the Royal Society of London. A, Math. Phys. Sci.,185, 176-182, (1946)	The absorption spectrum of acetaldehyde in the vacuum ultra-violet
J.S. Lake, A.J. Harrison	J. Chem. Phys., 30, 361, (1959)	Absorption of acyclic oxygen compounds in the vacuum ultraviolet. III. Acetone and acetaldehyde
V. McMillan	John Wiley & Sons, London, p. 368, (1966)	Calvert and Pitts, Photochemistry
G. Lucazeau, C. Sandorfy	J. Mol. Spectroscopy, 35, 214-231, (1970)	On the far-ultraviolet spectra of some simple aldehydes
J. Weaver, J. Meagher, J. Heicklen	J. Photochemistry, 6, 111-126, (1976-1977)	Photo-oxidation of CH3CHO vapor at 3130 Å
H. Meyrahn	PhD-Thesis, (1984)	University of Mainz, Germany, (298 K)
M. Noble, K.C. Lee	J. Chem. Phys., 81, 1632-1642, (1984)	The jet-cooled electronic spectrum of acetaldehyde and deuterated derivatives at rotational resolution
J.S. Crighton, S. Bell	J. Mol. Spectroscopy, 112 (2), 304-314, (1985)	Electronic spectrum of acetaldehyde: Vibrational analysis of the 182-nm system
W. Schneider, G.K. Moortgat	priv. comm., (1989)	MPI Mainz, (294 K)
P. Brint, L. O'Toole, C.A. Mayhew, W. Dussa	J. Chem. Soc., Faraday Trans., 86, 3349 - 3354, (1990)	Vacuum-ultraviolet absorption spectrum of acetaldehyde, CH3CHO, and the related deuterides CH3CDO and CD3CDO
H.G. Libuda	Uni Wuppertal, Germany, (1992)	Spektroskopische und kinetische Untersuchungen an halogenierten Carbonylverbindungen von atmosphaerischem Interesse, Ph-D-Thesis
R.D. Martinez, A.A. Buitrago, N.W. Howell, C.H. Hearn, J.A. Joens	Atmos. Env. A, 26, 785-792, (1992)	The near U.V. absorption spectra of several aliphatic aldehydes and ketones at 300 K
N.N. Yakovlev, I.A. Godunov	Can. J. Chem., 70, 931-934, (1992)	The a3A" <-- X1A' electronic spectra of acetaldehyde-h4 and -d4
H. Xu, P.J. Wentworth, N.W. Howell, J.A. Joens	Spectrochimica Acta Part A: Molecular Spectroscopy, 49, 1171-1178, (1993)	Temperature dependent near-UV molar absorptivities of aliphatic aldehydes and ketones in aqueous solution
P. Limao-Vieira, S. Eden, N.J. Mason, S.V. Hoffmann	Chem. Phys. Lett., 376, 737-747, (2003)	Electronic state spectroscopy of acetaldehyde, CH3CHO, by high-resolution VUV photo-absorption
R. Locht	priv. comm., R. Locht, University of Liege, Belgium, (2020)	The Vacuum UV Photoabsorption Spectrum and HeI Photoelectron Spectrum of acetaldehyde
Y. Hashikawa, M. Kawasaki, R.L. Waterland, M.D. Hurley, J.C. Ball, T.J. Wallington, M.P. Sulbaek Andersen, O.J. Nielsen	J. Fluorine Chem., 125,1925–1932, (2004)	Gas phase UV and IR absorption spectra of CxF2x+1CHO (x = 1–4)
R. Locht	priv. comm., University Liege, Belgium, (2021)	The Photoabsorption, HeI Photoelectron and Photoionization Spectra of Acetaldehyde
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
H. Jiang, Y. Liu, C. Xiao, X. Yang, W. Dong	J. Phys. Chem. A, 128, 25, 4956–4965, (2024)	Reaction Kinetics of CH2OO and syn-CH3CHOO Criegee Intermediates with Acetaldehyde
related data (quantum yield studies; photolysis studies, etc.)
F. Daniels	Third Report of the Committee on Photochemistry: Reprint and Circular Series of the National Research Council,Committee on Photochemistry; ISBN: 0-309-55909-X, pp 15-34, (1938)	A table of quantum yields in experimental photochemistry
Y. Tang, L. Zhu, L.T. Chu, B. Xiang	Chem. Phys., 330, 155-165, (2006)	Cavity ring-down spectroscopic study of acetaldehyde photolysis in the gas phase, on aluminum surfaces, and on ice films
G.K. Moortgat, H. Meyrahn, P. Warneck	ChemPhysChem, 11 (18), 3896-3908, (2010)	Photolysis of Acetaldehyde in Air: CH4, CO and CO2 Quantum Yields
C2H3DO; CH3CDO; acetaldehyde-d1; 1-deuteroacetaldehyde; CAS-No.: 4122-13-8
G. Lucazeau, C. Sandorfy	J. Mol. Spectr., 35 (2), 214-231, (1970)	On the far-ultraviolet spectra of some simple aldehydes
C2HD3O; CD3CHO; acetaldehyde-2,2,2-d3; 2,2,2-trideuterioacetaldehyde; CAS-No.: 19901-15-6; PubChem: CID 140625
G. Lucazeau, C. Sandorfy	J. Mol. Spectr., 35 (2), 214-231, (1970)	On the far-ultraviolet spectra of some simple aldehydes
C2D4O; CD3CDO; acetaldehyde-d4; tetradeuteroacetaldehyde; CAS-No.: 1632-89-9
G. Lucazeau, C. Sandorfy	J. Mol. Spectr., 35 (2), 214-231, (1970)	On the far-ultraviolet spectra of some simple aldehydes
N.N. Yakovlev, I.A. Godunov	Can. J. Chem., 70, 931-934, (1992)	The a3A" <-- X1A' electronic spectra of acetaldehyde-h4 and -d4
C2H4O2; HOCH2CHO; glycolaldehyde; acetaldehyde, hydroxy-; CAS-No.: 141-46-8
A. Beeby, D. bin H Mohammed, J.R. Sodeau	J. Am. Chem. Soc., 109 (3), 857-861, (1987)	Photochemistry and photophysics of glycolaldehyde in solution
C. Bacher, G.S. Tyndall, J.J. Orlando	J. Atmos. Chem., 39, 171-189, (2001)	The atmosperic chemistry of glycolaldehyde
I. Magneron, A. Mellouki, G. Le Bras, G.K. Moortgat, A. Horowitz, K. Wirtz	J. Phys. Chem. A, 109 (20), 4552-4561, (2005)	Photolysis and OH-Initiated Oxidation of Glycolaldehyde under Atmospheric Conditions
R. Karunanandan, D. Hölscher, T.J. Dillon, A. Horowitz, J.N. Crowley, L. Vereecken, J. Peeters	J. Phys. Chem. A, 111 (5), 897-908, (2007)	Reaction of HO with Glycolaldehyde, HOCH2CHO: Rate Coefficients (240-362 K) and Mechanism
C. Zhu, L. Zhu	J. Phys. Chem. A, 114 (32), 8384-8390, (2010)	Photolysis of Glycolaldehyde in the 280-340 nm Region
C3H2O; propargyl aldehyde; 2-propynal; propiolaldehyde; CAS-No.: 624-67-9; PubChem: 12222
J.A. Howe, J.H. Goldstein	J. Am. Chem. Soc., 80 (18), 4846-4849, (1958)	The near ultraviolet absorption spectrum of propargyl aldehyde
C3H6O; C2H5CHO; propionaldehyde; propanal; CAS-No.: 123-38-6
J.W. Ellis	J. Am. Chem. Soc., 51, 1384-1394, (1929)	The near infrared absorption spectra of some aldehydes, ketones, esters and ethers
F.E. Blacet, R.A. Crane	J. Am. Chem. Soc., 76(21), 5337-5340, (1954)	The Photolysis of the Aliphatic Aldehydes. XVII. Propionaldehyde, n-Butyraldehyde and Isobutyraldehyde at 2380 and 1870 A
V. McMillan	John Wiley & Sons, London, p. 368, (1966)	Calvert and Pitts, Photochemistry
G. Lucazeau, C. Sandorfy	J. Mol. Spectr., 35 (2), 214-231, (1970)	On the far-ultraviolet spectra of some simple aldehydes
R.D. Martinez, A.A. Buitrago, N.W. Howell, C.H. Hearn, J.A. Joens	Atmos. Env. A, 26, 785-792, (1992)	The near U.V. absorption spectra of several aliphatic aldehydes and ketones at 300 K
H. Xu, P.J. Wentworth, N.W. Howell, J.A. Joens	Spectrochimica Acta Part A: Molecular Spectroscopy, 49, 1171-1178, (1993)	Temperature dependent near-UV molar absorptivities of aliphatic aldehydes and ketones in aqueous solution
N.C. Shand, C.-L. Ning, M.R.F. Siggel, I.C. Walker, J. Pfab	J. Chem. Soc., Faraday T rans., 93(16), 2883-2888, (1997)	One- and two-photon spectroscopy of the 3s <-- n Rydberg transition of propionaldehyde (propanal)
Y. Chen, L. Zhu	J. Phys. Chem. A, 105, 9689-9696, (2001)	The Wavelength dependence of the photodissociation of propionaldehyde in the 280-330 nm region
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C5H10O; C4H9CHO; n-pentanal; n-valeraldehyde; CAS-No.: 110-62-3
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related data (quantum yield studies; photolysis studies, etc.)
J. Tadic, I. Juranic, G.K. Moortgat	Molecules, 6, 287-299, (2001)	Photooxidation of n-Hexanal in Air
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R. Meller	priv. comm., (1990)	MPI Mainz, (294 K)
A.M.D. Lee, J.D. Coe, S. Ullrich, M.-L. Ho, S.-J. Lee, B.-M. Cheng, M.Z. Zgierski, I.-C. Chen, T.J. Martinez, A. Stolow	J. Phys. Chem. A, 111 (47), 11948 -11960, (2007)	Substituent Effects on Dynamics at Conical Intersections: alpha, beta-Enones
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C4H6O; CH3CH=CHCHO; crotonaldehyde; trans-2-butenal; CAS-No.: 123-73-9; PubChem: CID 643789
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C4H8O; (CH3)2CHCHO; 2-methylpropanal; isobutyraldehyde; isobutanal; CAS-No.: 78-84-2; PubChem: CID 6561
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C5H10O; (CH3)2CHCH2CHO; isopentanal; 3-methylbutanal; isovaleraldehyde; isovaleral; CAS-No.: 590-86-3; PubChem: CID 11552
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C5H7O; (CH3)3CCHO; t-pentanal; 2,2-dimethylpropanal; CAS-No.: 630-19-3
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C5H8O; 3-methyl-2-butenal; 3-methylbut-2-enal; CAS-No.: 107-86-8; PubChem: CID 61020
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C5H8O; trans-2-pentenal; 2-pentenal; 3-ethylacrolein; CAS-No.: 1576-87-0; PubChem: CID 5364752
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C6H6O2; HCOCH=CHCH=CHCHO(E,E); E,E-2,4-hexadienedial; (E,E)-muconaldehyde; CAS-No.: 18409-46-6
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C6H6O3; 5-hydroxymethylfurfural; 5-hydroxymethyl-2-furaldehyde; HMF; CAS-No.: 67-47-0; PubChem: CID 237332
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C3H4O2; CH3COCHO; methylglyoxal; pyruvaldehyde; CAS-No.: 78-98-8
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C3H6O; CH3C(O)CH3; acetone; dimethyl ketone; propanone; CAS-No.: 67-64-1; PubChem: CID 180
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H. Somnitz, T. Ufer, R. Zellner	Phys. Chem. Chem. Phys., 11, 8522-8531, (2009)	Acetone photolysis at 248 nm revisited: pressure dependence of the CO and CO2 quantum yields
C3D6O; CD3C(O)CD3; acetone-d6; CAS-No.: 666-52-4
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
P.J. Singh, A. Shastri, B.N. Raja Sekhar, R. D'Souza, B.N. Jagatap	J. Quant. Spectr. Rad. Transfer, 114, 20-28, (2012)	Effect of isotopicsubstitution in the electronicabsorptionspectrum of acetone: VUV photoabsorption studies of acetone-d6
related data (quantum yield studies; photolysis studies, etc.)
I. Szilágyi, G. Kovács, M. Farkas, G. L. Zügner, A. Gola, S. Dóbé, A. Demeter	Reaction Kinetics and Catalysis Letters, 96 (2), 437-446, (2009)	Photochemical and photophysical study on the kinetics of the atmospheric photodissociation of acetone
C3H5OCl; CH3C(O)CH2Cl; chloroacetone; CAS-No.: 78-95-5
J.B. Burkholder, M.K. Gilles, T. Gierczak, A.R. Ravishankara	Geophys. Res. Lett. Vol. 29, No. 17, 1822, (2002)	The atmospheric degradation of 1-bromopropane (CH3CH2CH2Br): The photochemistry of bromoacetone
C4H8O; CH3C(O)C2H5; 2-butanone; methyl ethyl ketone; butan-2-one; MEK; CAS-No.: 78-93-3; PubChem: CID 6569
V. McMillan	Calvert and Pitts, Photochemistry, John Wiley & Sons, London, p. 377, (1966)	(298 K)
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
W. Schneider, G.K. Moortgat	priv. comm., (1988)	MPI Mainz, 1988 (294 K)
R.D. Martinez, A.A. Buitrago, N.W. Howell, C.H. Hearn, J.A. Joens	Atmos. Environ. 26A, 785-792, (1992)	The near UV absorption spectra of several aliphatic aldehydes and ketones
M. Yujing, A. Mellouki	J. Photochem. Photobiol. A: Chem., 134, 31-36, (2000)	The near-UV absorption cross sections for several ketones
J.M. Hollas	Basic Atomic and Molecular Spectroscopy, 11, 146-170, (2002)	Electronic spectroscopy
R. Nádasdi, G.L. Zügner, M. Farkas, S. Dóbé, S. Maeda, K. Morokuma	ChemPhysChem, 11 (18), 3883-3895, (2010)	Photochemistry of Methyl Ethyl Ketone: Quantum Yields and S1/S0-Diradical Mechanism of Photodissociation
J. Chen, D.S. Venables	Atmos. Meas. Tech., 4, 425-436, (2011)	A broadband optical cavity spectrometer for measuring weak near-ultraviolet absorption spectra of gases
J.F. Brewer, D.K. Papanastasiou, J.B. Burkholder, E.V. Fischer, Y. Ren, A. Mellouki, A.R. Ravishankara	J. Geophys. Res. D, Atmospheres, 124 (11), 5906-5918, (2019)	Atmospheric Photolysis of Methyl Ethyl, Diethyl, and Propyl Ethyl Ketones: Temperature Dependent UV Absorption Cross Sections
A.C. Doner, A.R. Webb, N.S. Dewey, S.W. Hartness, M.G. Christianson, A.L. Koritzke, A. Larsson, K.M. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 292, 108346, (2022)	Vacuum-ultraviolet absorption cross-sections of functionalized four-carbon species
C. Mapelli, J.K. Donnelly, U.E. Hogan, A.R. Rickard, A.T. Robinson, F. Byrne, C.R. McElroy, B.F.E. Curchod, D. Hollas, T.J. Dillon	Atmos. Chem. Phys., 23 (13), 7767-7779, (2023)	Atmospheric oxidation of new “green” solvents – Part 2: methyl pivalate and pinacolone
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
related data (quantum yield studies; photolysis studies, etc.)
P. Ausloos, E.W.R. Steacie	Can. J. Chem., 33, 1062-1068, (1955)	The photolysis of methyl ethyl ketone
M.T.B. Romero, M.A. Blitz, D.E. Heard, M.J. Pilling, B. Price, P.W. Seakins, L. Wang	Faraday Discuss., 130, 73 - 88, (2005)	Photolysis of methylethyl, diethyl and methylvinyl ketones and their role in the atmospheric HOx budget
B. Rajakumar, T. Gierczak, J. Flad, A.R. Ravishankara, J.B. Burkholder	J. Photochem. Photobiol. A: Chem., 199, 336-344, (2008)	The CH3CO quantum yield in the 248 nm photolysis of acetone, methyl ethyl ketone, and biacetyl
C4H8O2; 3-hydroxy 2-butanone; acetoin; CAS-No.: 513-86-0
L. Messaadia, G. El Dib, A. Ferhati, E. Roth, A. Chakir	Chem. Phys. Lett., 529, 16-22, (2012)	Gas phase UV absorption cross-sections for a series of hydroxycarbonyls
C4H8O2; 4-hydroxy-2-butanone; 4-hydroxybutan-2-one; CAS-No.: 590-90-9; PubChem: CID 111509
L. Messaadia, G. El Dib, A. Ferhati, E. Roth, A. Chakir	Chem. Phys. Lett., 529, 16-22, (2012)	Gas phase UV absorption cross-sections for a series of hydroxycarbonyls
A.C. Doner, A.R. Webb, N.S. Dewey, S.W. Hartness, M.G. Christianson, A.L. Koritzke, A. Larsson, K.M. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 292, 108346, (2022)	Vacuum-ultraviolet absorption cross-sections of functionalized four-carbon species
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
C4H8O2; 4-hydroxybutanal; 4-hydroxybutyraldehyde; CAS-No.: 25714-71-0; PubChem: CID 93093
A.C. Doner, A.R. Webb, N.S. Dewey, S.W. Hartness, M.G. Christianson, A.L. Koritzke, A. Larsson, K.M. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 292, 108346, (2022)	Vacuum-ultraviolet absorption cross-sections of functionalized four-carbon species
C4H8O2; 3-hydroxybutanal; aldol; 3-hydroxybutyraldehyde; CAS-No.: 107-89-1; PubChem: CID 7897
A.M. Buswell, E.C. Dunlop, W.H. Rodebush, J.B. Swartz	J. Am. Chem. Soc., 62, 2, 325–328, (1940)	Change of the ultraviolet absorption spectrum of acrolein with time
C5H10O2; 3-hydroxy-3-methyl-2-butanone; methylacetoin; CAS-No.: 115-22-0
L. Messaadia, G. El Dib, A. Ferhati, E. Roth, A. Chakir	Chem. Phys. Lett., 529, 16-22, (2012)	Gas phase UV absorption cross-sections for a series of hydroxycarbonyls
C5H10O; n-C3H7COCH3; 2-pentanone; methyl n-propyl ketone; pentan-2-one; CAS-No.: 107-87-9; PubChem: 7895
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
R.D. Martinez, A.A. Buitrago, N.W. Howell, C.H. Hearn, J.A. Joens	Atmos. Env. A, 26 (5), 785-792, (1992)	The near U.V. absorption spectra of several aliphatic aldehydes and ketones at 300 K
J. Chen, D.S. Venables	Atmos. Meas. Tech., 4, 425-436, (2011)	A broadband optical cavity spectrometer for measuring weak near-ultraviolet absorption spectra of gases
C5H10O; C2H5COC2H5; 3-pentanone; pentan-3-one; diethyl ketone; CAS-No.: 96-22-0; PubChem: CID 7288
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
A.A. Scala	J. Phys. Chem., 74 (13), 2639-2645, (1970)	The photolysis and radiolysis of 3-methyl-2-butanone
J.D. Koch, R.K. Hanson	Applied Physics B: Lasers and Optics, 76, 319-324, (2003)	Temperature and excitation wavelength dependencies of 3-pentanone absorption and fluorescence for PLIF applications
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J.F. Brewer, D.K. Papanastasiou, J.B. Burkholder, E.V. Fischer, Y. Ren, A. Mellouki, A.R. Ravishankara	J. Geophys. Res. D, Atmospheres, 124 (11), 5906-5918, (2019)	Atmospheric Photolysis of Methyl Ethyl, Diethyl, and Propyl Ethyl Ketones: Temperature Dependent UV Absorption Cross Sections
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
related data (quantum yield studies; photolysis studies, etc.)
M.T.B. Romero, M.A. Blitz, D.E. Heard, M.J. Pilling, B. Price, P.W. Seakins, L. Wang	Faraday Discuss., 130, 73 - 88, (2005)	Photolysis of methylethyl, diethyl and methylvinyl ketones and their role in the atmospheric HOx budget
C5H10O; methyl isopropyl ketone; 3-methyl-2-butanone; 3-methylbutan-2-one; isopropyl methyl ketone; MIPK; CAS-No.: 563-80-4; PubChem: 11251
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
A.A. Scala	J. Phys. Chem., 74 (13), 2639-2645, (1970)	The photolysis and radiolysis of 3-methyl-2-butanone
C6H12O; methyl n-butyl ketone; 2-hexanone; MBK; hexan-2-one; CAS-No.: 591-78-6; PubChem: 11583
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
L. Lagesson-Andrasko, V. Lagesson, J. Andrasko	Anal. Chem., 70 (5), 819-826, (1998)	The use of gas-phase UV spectra in the 168-330 nm wavelength region for analytical purposes. 1. Qualitative measurements
C5H8O2; CH3C(O)C(O)C2H5; 2,3-pentanedione; CAS-No.: 600-14-6
A.W. Jackson, A.J. Yarwood	Can. J. Chem., 50 (9), 1331-1337, (1972)	Fluorescence and Phosphorescence of 2,3-Pentanedione
E. Szabó, M. Djehiche, M. Riva, C. Fittschen, P. Coddeville, D. Sarzynski, A. Tomas, S. Dóbé	J. Phys. Chem. A, 115 (33), 9160-9168, (2011)	Atmospheric Chemistry of 2,3-Pentanedione: Photolysis and Reactions with OH Radicals
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C7H14O; di-n-propyl ketone; 4-heptanone; heptan-4-one; CAS-No.: 123-19-3
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
C7H14O; ((CH3)2CH)2C(O); 2,4-dimethyl-3-pentanone; diisopropyl ketone; CAS-No.: 565-80-0; PubChem: 11271
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
M. Yujing, A. Mellouki	J. Photochem. Photobiol. A: Chem., 134, 31-36, (2000)	The near-UV absorption cross sections for several ketones
C7H14O; 2-heptanone; methyl n-amyl ketone; heptan-2-one; CAS-No.: 110-43-0; PubChem: 8051
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
C6H12O; CH3C(O)CH2CH(CH3)2; 4-methyl-2-pentanone; hexone; methyl isobutyl ketone; 4-methylpentan-2-one; MIK; CAS-No.: 108-10-1
S.F. Marsocci, S. MacKenzie	J. Am. Chem. Soc., 81 (17), 4513-4516, (1959)	The ultraviolet absorption spectra of certain aryl ketones, principally benzylacetones
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
M. Yujing, A. Mellouki	J. Photochem. Photobiol. A: Chem., 134, 31-36, (2000)	The near-UV absorption cross sections for several ketones
C6H12O; methyl s-butyl ketone; 3-methyl-2-pentanone; CAS-No.: 565-61-7; PubChem: 11262
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
C6H12O; methyl tert-butyl ketone; 3,3-dimethylbutan-2-one; 3,3-dimethyl-2-butanone; pinacolone; CAS-No.: 75-97-8; PubChem: 6416
H. Ito, Y. Nogata, S. Matsuzaki, A. Kuboyama	Bull. Chem. Soc. Japan, 42, 2453-2458, (1969)	Vacuum-ultraviolet Absorption Spectra of Aliphatic Ketones
C. Mapelli, J.K. Donnelly, U.E. Hogan, A.R. Rickard, A.T. Robinson, F. Byrne, C.R. McElroy, B.F.E. Curchod, D. Hollas, T.J. Dillon	Atmos. Chem. Phys., 23 (13), 7767-7779, (2023)	Atmospheric oxidation of new “green” solvents – Part 2: methyl pivalate and pinacolone
C7H12O; CH3C(O)(CH)2CH(CH3)2; 5-methyl-2-hexanone; MIAK; CAS-No.: 110-12-3
M. Yujing, A. Mellouki	J. Photochem. Photobiol. A: Chem., 134, 31-36, (2000)	The near-UV absorption cross sections for several ketones
C2H2O2; CHOCHO; glyoxal; CAS-No.: 107-22-2
C.N. Plum, R. Atkinson, W.P.L. Carter, J.N. Pitts, Jr.	Environm. Sci. Technol., 17, 479-484, (1983)	OH Radical Rate Constants and Photolysis Rates of a-Dicarbonyls
M. Malik, J.A. Joens	Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 56, 2653-2658, (2000)	Temperature dependent near-UV molar absorptivities of glyoxal and gluteraldehyde in aqueous solution
J.J. Orlando, G.S. Tyndall	Int. J. Chem. Kinet., 33, 149-156, (2001)	The atmospheric chemistry of the HC(O)CO radical
A. Horowitz, R. Meller, G.K. Moortgat	J. Photochem. Photobiol. A: Chem., 146, 19-27, (2001)	The UV-VIS absorption cross sections of the alpha-dicarbonyl compounds: pyruvic acid, biacetyl and glyoxal
Y. Chen, L. Zhu	J. Phys. Chem. A, 107, 4643-4651, (2003)	Wavelength-dependent photolysis of glyoxal in the 290-420 nm region
R. Volkamer, P. Spietz, J. Burrows, U. Platt	J. Photochem. Photobiol. A: Chem., 172, 35-46, (2005)	High-resolution absorption cross-section of glyoxal in the UV–vis and IR spectral ranges
N.R. Goss, E.M. Waxman, S.C. Coburn, T.K. Koenig, R. Thalman, J. Dommen, J.W. Hannigan, G.S. Tyndall, R. Volkamar	J. Phys. Chem. A, 119 (19), 4651-4657, (2015)	Measurements of the Absorption Cross Section of 13CHO13CHO at Visible Wavelengths and Application to DOAS Retrievals
related data (quantum yield studies; photolysis studies, etc.)
G.W. Loge, C.S. Parmenter	J. Phys. Chem., 85 (12), 1653-1662, (1981)	Collision-free dissociation after excitation of single rotational levels in S1 glyoxal
L. Zhu, D. Kellis, C.-F. Ding	Chem. Phys. Lett., 257, 487-491, (1996)	Photolysis of glyoxal at 193, 248, 308, and 351 nm
J. Tadic, G.K. Moortgat, K. Wirtz	J. Photochem. Photobiol. A: Chemistry, 177, 116-124, (2006)	Photolysis of glyoxal in air
K.J. Feierabend, J.E. Flad, S.S. Brown, J.B. Burkholder	J. Phys. Chem. A, 113 (27), 7784-7794, (2009)	HCO Quantum Yields in the Photolysis of HC(O)C(O)H (Glyoxal) between 290 and 420 nm; supporting information available from ACS
R.J. Salter, M.A. Blitz, D.E. Heard, M.J. Pilling, P.W. Seakins	J. Phys. Chem. A, 113, 8278–8285, (2009)	New Chemical Source of the HCO Radical Following Photoexcitation of Glyoxal, (HCO)2
C3H6O2; CH3C(O)CH2OH; acetol; hydroxyacetone; CAS-No.: 116-09-6
R. Meller, J.N. Crowley	priv. comm., (1990)	MPI Mainz, (296 K)
J.J. Orlando, G.S. Tyndall, J.-M. Fracheboud, E.G. Estupiña, S. Haberkorn, A. Zimmer	Atmos. Env., 33, 1621-1629, (1999)	The rate and mechanism of the gas-phase oxidation of hydroxyacetone
N.I. Butkovskaya, N. Pouvesle, A. Kukui, Y. Mu, G. Le Bras	J. Phys. Chem. A, 110 (21), 6833-6843, (2006)	Mechanism of the OH-initiated oxidation of hydroxyacetone over the temperature range 236-298 K
L. Messaadia, G. El Dib, A. Ferhati, E. Roth, A. Chakir	Chem. Phys. Lett., 529, 16-22, (2012)	Gas phase UV absorption cross-sections for a series of hydroxycarbonyls
C4H6O; CH3COCHCH2; methyl vinyl ketone; MVK; 3-buten-2-one; butenone; CAS-No.: 78-94-4; PubChem: CID 6570
W. Schneider, G.K. Moortgat	priv. comm., (1989)	UV spectrum of methyl vinyl ketone
A. Fahr, W. Braun, A.H. Laufer	J. Phys. Chem., 97, 1502-1506, (1993)	Photolysis of methyl vinyl ketone at 193.3 nm: quantum yield determination of methyl and vinyl radicals
T. Gierczak, J.B. Burkholder, R.K. Talukdar, A. Mellouki, S.B. Barone, A.R. Ravishankara	J. Photochem. Photobiol. A: Chem., 110, 1-10, (1997)	Atmospheric fate of methyl vinyl ketone and methacrolein
B. Yang, J. Wang, T.A. Cool, N. Hansen, S. Skeen, D.L. Osborn	Int. J. Mass Spectr., 309, 118-128, (2012)	Absolute photoionization cross-sections of some combustion intermediates
A.C. Doner, M.M. Davis, A.L. Koritzke, M.G. Christianson, J.M. Turney, H.F. Schaefer III, L. Sheps, D.L. Osborn, C.A. Taatjes, B. Rotavera	Int. J. Chem. Kin., 53 (1), 127-145, (2021)	Isomer-Dependent Reaction Mechanisms of Cyclic Ether Intermediates: cis-2,3-dimethyloxirane and trans-2,3-dimethyloxirane
A.C. Doner, A.R. Webb, N.S. Dewey, S.W. Hartness, M.G. Christianson, A.L. Koritzke, A. Larsson, K.M. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 292, 108346, (2022)	Vacuum-ultraviolet absorption cross-sections of functionalized four-carbon species
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
related data (quantum yield studies; photolysis studies, etc.)
M.T.B. Romero, M.A. Blitz, D.E. Heard, M.J. Pilling, B. Price, P.W. Seakins, L. Wang	Faraday Discuss., 130, 73 - 88, (2005)	Photolysis of methylethyl, diethyl and methylvinyl ketones and their role in the atmospheric HOx budget
M.E. Earle, R. Mills, J.M. Roscoe	J. Photochem. Photobiol. A: Chemistry, 206, 71-79, (2009)	The photolysis of methyl vinyl ketone at 308nm
C5H8O; ethyl vinyl ketone; 1-penten-3-one; CAS-No.: 1629-58-9
E. Jimenez, B. Lanza, M. Antiñolo, J. Albaladejo	Environ. Sci. Technol., 43 (6), 1831-1837, (2009)	Photooxidation of Leaf-Wound Oxygenated Compounds, 1-Penten-3-ol, (Z)-3-Hexen-1-ol, and 1-Penten-3-one, Initiated by OH Radicals and Sunlight
C5H8O; cyclopentanone; adipic ketone; CAS-No.: 120-92-3; PubChem: CID 8452
M.G. Christianson, A.C. Doner, A.L. Koritzke, K. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 258, 107274, (2021)	Vacuum-Ultraviolet Absorption Cross-Sections of Functionalized Cyclic Hydrocarbons: Five-Membered Rings
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
C4H4N2O; imidazole-2-carboxaldehyde; 2-formylimidazole; CAS-No.: 10111-08-7; PubChem: CID 24955
T. Felber, T. Schaefer, H. Herrmann	J. Phys. Chem. A, 123, 8, 1505–1513, (2019)	OH-initiated oxidation of imidazoles in tropospheric aqueous-phase chemistry
C6H8O; cyclohexene-3-one; 2-cyclohexen-1-one; CAS-No.: 930-68-7; PubChem: CID 13594
A.C. Doner, M.G. Christianson, J.C. Davis, A.L. Koritzke, A. Larsson, K. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 236, 106603, (2019)	Vacuum-ultraviolet absorption cross-sections of functionalized cyclic hydrocarbons: Six-membered rings
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
C6H8O; cyclohexene-4-one; 3-cyclohexen-1-one; CAS-No.: 4096-34-8; PubChem: CID 77727
A.C. Doner, M.G. Christianson, J.C. Davis, A.L. Koritzke, A. Larsson, K. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 236, 106603, (2019)	Vacuum-ultraviolet absorption cross-sections of functionalized cyclic hydrocarbons: Six-membered rings
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
C6H8O; 2-methyl-2-cyclopenten-1-one; 2-methylcyclopent-2-enone; CAS-No.: 1120-73-6; PubChem: CID 14266
M.G. Christianson, A.C. Doner, A.L. Koritzke, K. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 258, 107274, (2021)	Vacuum-Ultraviolet Absorption Cross-Sections of Functionalized Cyclic Hydrocarbons: Five-Membered Rings
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
C6H10O; cyclohexanone; cyclohexyl ketone; CAS-No.: 108-94-1; PubChem: CID 7967
S.F. Marsocci, S. MacKenzie	J. Am. Chem. Soc., 81 (17), 4513-4516, (1959)	The ultraviolet absorption spectra of certain aryl ketones, principally benzylacetones
E. Iwasaki, Y. Matsumi, K. Takahashi, T.J. Wallington, M.D. Hurley, J.J. Orlando, E.W. Kaiser, J.G. Calvert	Int. J. Chem. Kin., 40, 223-229, (2008)	Atmospheric chemistry of cyclohexanone: UV spectrum and kinetics of reaction with chlorine atoms
A.C. Doner, M.G. Christianson, J.C. Davis, A.L. Koritzke, A. Larsson, K. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 236, 106603, (2019)	Vacuum-ultraviolet absorption cross-sections of functionalized cyclic hydrocarbons: Six-membered rings
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
C6H12O; 3-hexanone; propyl ethyl ketone; hexan-3-one; CAS-No.: 589-38-8; PubChem: 11509
J.F. Brewer, D.K. Papanastasiou, J.B. Burkholder, E.V. Fischer, Y. Ren, A. Mellouki, A.R. Ravishankara	J. Geophys. Res. D, Atmospheres, 124 (11), 5906-5918, (2019)	Atmospheric Photolysis of Methyl Ethyl, Diethyl, and Propyl Ethyl Ketones: Temperature Dependent UV Absorption Cross Sections
C6H12O; 2-methyl-3-pentanone; ethyl isopropyl ketone; CAS-No.: 565-69-5; PubChem: 11265
Y. Ren, F. Bernard, V. Daele, A. Mellouki	Env. Sci. Tech., 53 (15), 8862-8871, (2019)	Atmospheric Fate and Impact of Perfluorinated Butanone and Pentanone
C8H8O; phenylacetaldehyde; phenylethanal; CAS-No.: 122-78-1; PubChem: 998
W.D. Kumler, L.A. Strait, E.L. Alpen	J. Am. Chem. Soc., 72 (4), 1463-1466, (1950)	The ultraviolet absorption spectra of alpha-phenylcarbonyl compounds
C9H8O; trans-cinnamaldehyde; cinnamic aldehyde; trans-3-phenyl-2-propenal; CAS-No.: 104-55-2; CAS-No.: 14371-10-9; PubChem: CID 637511
G. Adembri, P. Sarti-Fantoni, E. Belgodere	Tetrahedron, 22 (9), 3149-3156, (1966)	Ultraviolet spectra of hydrazones - I
L. Lagesson-Andrasko, V. Lagesson, J. Andrasko	Anal. Chem., 70 (5), 819-826, (1998)	The use of gas-phase UV spectra in the 168-330 nm wavelength region for analytical purposes. 1. Qualitative measurements
C9H10O; beta-phenylpropionaldehyde; 3-phenylpropionaldehyd; CAS-No.: 104-53-0
W.D. Kumler, L.A. Strait, E.L. Alpen	J. Am. Chem. Soc., 72 (4), 1463-1466, (1950)	The ultraviolet absorption spectra of alpha-phenylcarbonyl compounds
C10H10O; benzalacetone; methyl styryl ketone; CAS-No.: 122-57-6; PubChem: 637759
N.H. Cromwell, W.R. Watson	J. Org. Chem., 14 (3), 411-420, (1949)	Ultraviolet absorption spectra of some amino-substituted unsaturated ketones
C10H12O; benzylacetone; 4-phenyl-2-butanone; CAS-No.: 2550-26-7; PubChem: 17355
S.F. Marsocci, S. MacKenzie	J. Am. Chem. Soc., 81 (17), 4513-4516, (1959)	The ultraviolet absorption spectra of certain aryl ketones, principally benzylacetones
C10H12O; gamma-phenylbutyraldehyde; 4-phenylbutanal; 4-phenylbutyraldehyde; CAS-No.: 18328-11-5; PubChem: 29030
W.D. Kumler, L.A. Strait, E.L. Alpen	J. Am. Chem. Soc., 72 (4), 1463-1466, (1950)	The ultraviolet absorption spectra of alpha-phenylcarbonyl compounds
C10H14O; myrtenal; (1R)-(-)-myrtenal; 6,6-dimethylbicyclo[3.1.1]hept-2-en-2-carboxaldehyde; CAS-No.: 564-94-3; PubChem: CID 61130
M. Fakih, E. Roth, S. Gatard, R. Plantier-Royon, A. Chakir	Chem. Phys. Lett., 803, 139832, (2022)	Gas-phase UV absorption spectra of a series of of terpenic oxygenated VOC: Nopinone, Myrtenal, Ketolimonene, Limononaldehyde and Caronaldehyde
C10H16O; camphor; 1,7,7-trimethylbicyclo[2.2.1]heptan-2-one; 2-bornanone; CAS-No.: 76-22-2; PubChem: 2537
S.F. Marsocci, S. MacKenzie	J. Am. Chem. Soc., 81 (17), 4513-4516, (1959)	The ultraviolet absorption spectra of certain aryl ketones, principally benzylacetones
C10H16O; fenchone; 1,3,3-trimethylbicyclo[2.2.1]heptan-2-one; CAS-No.: 1195-79-5; PubChem: PubChem: CID 14525
D.P. Singh, N. De Oliveira, G.A. Garcia, A. Vredenborg, I. Powis	Chem. Phys. Chem., 21 (21) 2468-2483, (2020)	An Experimental and Theoretical Investigation of the 3sp(d) Rydberg States of Fenchone by Polarized Laser Resonance-Enhanced-MultiphotonIonization and Fourier Transform VUV Absorption Spectroscopy
C3H4O2; glycidaldehyde; CAS-No.: 765-34-4
S. Ma, I. Barnes, K.H. Becker	Env. Sci. Tech., 32, 3515-3521, (1998)	Atmospheric Degradation of Glycidaldehyde: Photolysis and Reaction with OH Radicals
C3H4O2; malondialdehyde; malonaldehyde; propanedial; CAS-No.: 542-78-9; PubChem: CID 10964
T.-W. Kwon, J. van der Veen	J. Agric. Food Chem., 16 (4), 639-642, (1968)	Ultraviolet and infrared absorption spectra of malonaldehyde in organic solvents
C3H6O3; glyceraldehyde; (R)-2,3-dihydroxypropanal; CAS-No.: 453-17-8; PubChem: CID 79014
S.A. Epstein, E. Tapavicza, F. Furche, S.A. Nizkorodov	Atmos. Chem. Phys., 13, 9461-9477, (2013)	Direct photolysis of carbonyl compounds dissolved in cloud andfog droplets
C3H6O3; dihydroxyacetone; glycerone; DHA; CAS-No.: 96-26-4; PubChem: CID 670
S.A. Epstein, E. Tapavicza, F. Furche, S.A. Nizkorodov	Atmos. Chem. Phys., 13, 9461-9477, (2013)	Direct photolysis of carbonyl compounds dissolved in cloud andfog droplets
C4H4O2; butenedial; malealdehyde; 2-butenedial; CAS-No.: 2363-83-9
D.L. Hufford, D.S. Tarbell, T.R. Koszalka	J. Am. Chem. Soc., 74 (12), 3014-3018, (1952)	Maleic and Fumaric Dialdehydes, Delta4-Tetrahydrophthalaldehyde and Related Compounds
Y. Tang, L. Zhu	Chem. Phys. Lett., 409 (4-6), 151-156, (2005)	Photolysis of butenedial at 193, 248, 280, 308, 351, 400, and 450 nm
M. Ammann, R.A. Cox, J.N. Crowley, H. Herrmann, E. Jenkin, V.F. McNeill, A. Mellouki, J. Troe, T.J. Wallington	IUPAC, data sheet P26, (2012)	Task Group on Atmospheric Chemical Kinetic Data Evaluation – Evaluated Kinetic Data
C4H6O; 3-butenal; but-3-enal; CAS-No.: 7319-38-2; PubChem: CID 123248
J.C. Davis, A.L. Koritzke, R.L. Caravan, I.O. Antonov, M.G. Christianson, A.C. Doner, D.L. Osborn, L.Sheps, C.A. Taatjes, B. Rotavera	J. Phys. Chem. A, 123, 17, 3634–3646, (2019)	Influence of Ether Functional Group on Ketohydroperoxide Formation in Cyclic Hydrocarbons: Tetrahydropyran and Cyclohexane
C4H6O; cyclobutanone; CAS-No.: 1191-95-3; PubChem: CID 14496
A. Udvarhazi, M.A. El-Sayed	J. Chem. Phys., 42 (9), 3335-3336, (1965)	Vacuum-ultraviolet spectra of cyclic ketones
D.C. Moule	Can. J. Physics, 47 (11), 1235-1236, (1969)	The 3300 A band system of cyclobutanone
C4H6O2; biacetyl; butanedione; butane-2,3-dione; diacetyl; CAS-No.: 431-03-8; PubChem: CID 650
V.R. Ells	J. Am. Chem. Soc., 60 (8), 1864-1866, (1938)	The absorption spectrum of biacetyl between 1500 and 2000 A
L.S. Forster	J. Am. Chem. Soc., 77 (6), 1417-1421, (1955)	The effect of solvent on the visible absorption spectrum of biacetyl
A. Kuboyama, R. Yamazaki, S. Sanae, Y. Uehara	Bull. Chem. Soc. Japan, 42 (1), 10-15, (1969)	The n -> pi* Bands of Phenyl Carbonyl Compounds, alpha-Diketones, and Quinones at Low Temperatures
A.C. Doner, M.M. Davis, A.L. Koritzke, M.G. Christianson, J.M. Turney, H.F. Schaefer III, L. Sheps, D.L. Osborn, C.A. Taatjes, B. Rotavera	Int. J. Chem. Kin., 53 (1), 127-145, (2021)	Isomer-Dependent Reaction Mechanisms of Cyclic Ether Intermediates: cis-2,3-dimethyloxirane and trans-2,3-dimethyloxirane
A.C. Doner, A.R. Webb, N.S. Dewey, S.W. Hartness, M.G. Christianson, A.L. Koritzke, A. Larsson, K.M. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 292, 108346, (2022)	Vacuum-ultraviolet absorption cross-sections of functionalized four-carbon species
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
related data (quantum yield studies; photolysis studies, etc.)
W.E. Bell, F.E. Blacet	J. Am. Chem. Soc., 76, 5332-5337, (1954)	The Photolysis of Biacetyl
B. Rajakumar, T. Gierczak, J. Flad, A.R. Ravishankara, J.B. Burkholder	J. Photochem. Photobiol. A: Chem., 199, 336-344, (2008)	The CH3CO quantum yield in the 248 nm photolysis of acetone, methyl ethyl ketone, and biacetyl
C4H6O2; 2-oxobutanal; ethylglyoxal; CAS-No.: 4417-81-6; PubChem: CID 145744
A.C. Doner, A.R. Webb, N.S. Dewey, S.W. Hartness, M.G. Christianson, A.L. Koritzke, A. Larsson, K.M. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 292, 108346, (2022)	Vacuum-ultraviolet absorption cross-sections of functionalized four-carbon species
C4H8O2; methoxyacetone; methoxy-2-propanone; CAS-No.: 5878-19-3; PubChem: 22172
S.F. Marsocci, S. MacKenzie	J. Am. Chem. Soc., 81 (17), 4513-4516, (1959)	The ultraviolet absorption spectra of certain aryl ketones, principally benzylacetones
related data (quantum yield studies; photolysis studies, etc.)
R. Srinivasan	J. Am. Chem. Soc., 84, 13, 2475–2478, (1962)	Photochemistry of Methoxyacetone
C5H6O; 2-cyclopenten-1-one; 2-cyclopentenone; CAS-No.: 930-30-3; PubChem: CID 13588
M.G. Christianson, A.C. Doner, A.L. Koritzke, K. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 258, 107274, (2021)	Vacuum-Ultraviolet Absorption Cross-Sections of Functionalized Cyclic Hydrocarbons: Five-Membered Rings
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
C5H6O; 3-cyclopenten-1-one; 3-cyclopentenone; CAS-No.: 14320-37-7; PubChem: CID 84351
M.G. Christianson, A.C. Doner, A.L. Koritzke, K. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 258, 107274, (2021)	Vacuum-Ultraviolet Absorption Cross-Sections of Functionalized Cyclic Hydrocarbons: Five-Membered Rings
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
C5H6O2; 4-oxo-2-pentenal; CAS-No.: 5729-47-5
B. Xiang, L. Zhu, Y. Tang	J. Phys. Chem. A, 111 (37), 9025-9033, (2007)	Photolysis of 4-Oxo-2-pentenal in the 190-460 nm Region
C5H6O2; 2,3-epoxycyclopentan-1-one; 2,3-epoxycyclopentanone; CAS-No.: 6705-52-8
M.G. Christianson, A.C. Doner, A.L. Koritzke, K. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 258, 107274, (2021)	Vacuum-Ultraviolet Absorption Cross-Sections of Functionalized Cyclic Hydrocarbons: Five-Membered Rings
C5H6O2; 3,4-epoxycyclopentanone; 6-oxabicyclo[3.1.0]hexan-3-one; CAS-No.: 74017-10-0; PubChem: CID 535532
M.G. Christianson, A.C. Doner, A.L. Koritzke, K. Frandsen, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 258, 107274, (2021)	Vacuum-Ultraviolet Absorption Cross-Sections of Functionalized Cyclic Hydrocarbons: Five-Membered Rings
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera	J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023)	Machine learning models for binary molecular classification using VUV absorption spectra
C5H8O2; acetylacetone; 2,4-pentanedione; pentan-2,4-dion; CAS-No.: 123-54-6; PubChem: 31261
R.S. Rasmussen, D.D. Tunnicliff, R.R. Brattain	J. Am. Chem. Soc., 71 (3), 1068-1072, (1949)	Infrared and Ultraviolet Spectroscopic Studies on Ketones
H. Nakanishi, H. Morita, S. Nagakura	Bull. Chem. Soc. Japan, 51 (6), 1723-1729, (1978)	Charge-Transfer Character in the Intramolecular Hydrogen Bond: Vacuum Ultraviolet Spectra of Acetylacetone and Its Fluoro Derivatives
C. Bernasconi, A. Kanavarioti	J. Am. Chem. Soc., 108, 24, 7744–7751, (1986)	Nucleophilic additions to olefins. 19. Abnormally high intrinsic barrier in the reaction of piperidine and morpholine with benzylideneacetylacetone
L. Messaadia, G. El Dib, A. Ferhati, A. Chakir	Chem. Phys. Lett., 626, 73-79, (2015)	UV-visible spectra and gas-phase rate coefficients for the reaction of 2,3-pentanedione and 2,4-pentanedione with OH radicals
C5H8O2; glutaraldehyde; pentanedial; CAS-No.: 111-30-8; PubChem: CID 3485
J.C. Davis, A.L. Koritzke, R.L. Caravan, I.O. Antonov, M.G. Christianson, A.C. Doner, D.L. Osborn, L.Sheps, C.A. Taatjes, B. Rotavera	J. Phys. Chem. A, 123, 17, 3634–3646, (2019)	Influence of Ether Functional Group on Ketohydroperoxide Formation in Cyclic Hydrocarbons: Tetrahydropyran and Cyclohexane
C6H12O2; 4-hydroxy-4-methyl-2-pentanone; diacetone alcohol; DAA; CAS-No.: 123-42-2; PubChem: CID 31256
L. Aslan, H. Laversin, P. Coddeville, C. Fittschen, E. Roth, A. Tomas, A. Chakir	Atmos. Env., 150, 256-263, (2017)	Kinetics of the photolysis and OH reaction of 4-hydroxy-4-methyl-2-pentanone: Atmospheric implications
C6H12O2; 4-hydroxy-3-hexanone; propioin; 4-hydroxyhexan-3-one; CAS-No.: 4984-85-4; PubChem: CID 95609
L. Aslan, H. Laversin, E. Roth, P. Coddeville, C. Fittschen, A. Chakir, A. Tomas	Chem. Phys. Lett., 688, 43-46, (2017)	Gas-phase UV absorption cross-sections and photolysis kinetics of 4-hydroxy-3-hexanone: Atmospheric implications
C6H12O3; 2-Hexanone,5-hydroperoxy; CAS-No.: 245094-61-5
F. Jorand, L. Kerhoas, A. Heiss, J. Einhorn, K. Sahetchian	J. Photochem. Photobiol. A: Chem., 134, 119-125, (2000)	Determination of the ultraviolet absorption cross section of hexyl-ketohydroperoxides in solution in acetonitrile
C6H12O3; 2-hexanone-4-hydroperoxide/3-hexanone-5-hydroperoxide mixture; CAS-No.: 287473-93-2
F. Jorand, L. Kerhoas, A. Heiss, J. Einhorn, K. Sahetchian	J. Photochem. Photobiol. A: Chem., 134, 119-125, (2000)	Determination of the ultraviolet absorption cross section of hexyl-ketohydroperoxides in solution in acetonitrile
C2H2O; CH2CO; ketene; ethenone; CAS-No.: 463-51-4; PubChem: CID 10038
W.C. Price, J.P. Teegan, A.D. Walsh	J. Chem. Soc., 920, (1951)	The absorption spectrum of keten in the far ultra-violet
R.N. Dixon, G.H. Kirby	Trans. Faraday Soc., 62, 1406-1410, (1966)	Absorption spectrum of ketene in the visible and near ultra-violet
A.H. Laufer, R.A. Keller	J. Am. Chem. Soc., 93, 61-63, (1971)	Lowest excited states of ketene
B. Yang, J. Wang, T.A. Cool, N. Hansen, S. Skeen, D.L. Osborn	Int. J. Mass Spectr., 309, 118-128, (2012)	Absolute photoionization cross-sections of some combustion intermediates
related data (quantum yield studies; photolysis studies, etc.)
W.G. Paterson, H. Gesser	Can. J. Chem., 35, 1137-1138, (1957)	The photolysis of ketene at low temperatures
C5H4O2; 2-furanaldehyde; furfural; CAS-No.: 98-01-1; PubChem: CID 7362
M.L. Wolfrom, R.D. Schuetz, L.F. Cavalieri	J. Am. Chem. Soc., 71, 10, 3518–3523, (1949)	Chemical Interactions of Amino Compounds and Sugars. IV. Significance of Furan Derivatives in Color Formation
T. Psarras, J.W. Tefteller, H.K. Zimmerman	Recueil des Travaux Chimiques des Pays-Bas, 80 (2), 232-236, (1961)	Ultraviolet absorption spectra of 1-furfural and of 5-hydroxymethyl-furfural in aqueous buffers
C. Anastasio, B.C. Faust, C.J. Rao	Environ. Sci. Technol., 31, 1, 218–232, (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)
I. Colmenar, S. Gonzales, E. Jimenez, P. Martin, S. Salgado, B. Cabanas, J. Albaladejo	Atmos. Env., 103, 1-6, (2015)	UV absorption cross sections between 290 and 380 nm of a series of furanaldehydes: Estimation of their photolysis lifetimes
F. Ferreira da Silva, E. Lange, P. Limão-Vieira, N.C. Jones, S.V. Hoffmann, M.-J. Hubin-Franskin, J. Delwiche, M. J. Brunger, R.F.C. Neves, M.C.A. Lopes, E.M. de Oliveira, R.F. da Costa, M.T. do N. Varella, M.H.F. Bettega, F. Blanco, G. García, M.A.P. Lima, D.B. Jones	J. Chem. Phys., 143, 144308, (2015)	Electronic Excitation of Furfural as probed by High-Resolution Vacuum Ultraviolet Spectroscopy, Electron Energy Loss Spectroscopy and ab initio Calculations
C5H4O2; 3-furanaldehyde; 3-furaldehyde; CAS-No.: 498-60-2; PubChem: CID 10351
I. Colmenar, S. Gonzales, E. Jimenez, P. Martin, S. Salgado, B. Cabanas, J. Albaladejo	Atmos. Env., 103, 1-6, (2015)	UV absorption cross sections between 290 and 380 nm of a series of furanaldehydes: Estimation of their photolysis lifetimes
C6H6O2; 5-methyl-2-furanaldehyde; 5-methyl-2-furaldehyde; CAS-No.: 620-02-0; PubChem: CID 12097
I. Colmenar, S. Gonzales, E. Jimenez, P. Martin, S. Salgado, B. Cabanas, J. Albaladejo	Atmos. Env., 103, 1-6, (2015)	UV absorption cross sections between 290 and 380 nm of a series of furanaldehydes: Estimation of their photolysis lifetimes
C7H6O2; 4-hydroxybenzaldehyde; p-hydroxybenzaldehyde; CAS-No.: 123-08-0; PubChem: CID 126
J.C. Dearden , W.F. Forbes	Can. J. Chem., 37(8), 1294-1304, (1959)	Light absorption studies: Part XIV. The ultraviolet absorption spectra of phenols
C7H6O2; 3-hydroxybenzaldehyde; m-hydroxybenzaldehyde; CAS-No.: 100-83-4; PubChem: CID 101
J.C. Dearden, W.F. Forbes	Can. J. Chem., 37(8), 1294-1304, (1959)	Light absorption studies: Part XIV. The ultraviolet absorption spectra of phenols
C7H6O2; 2-hydroxybenzaldehyde; o-hydroxybenzaldehyde; salicylaldehyde; CAS-No.: 90-02-8; PubChem: CID 6998
J.C. Dearden, W.F. Forbes	Can. J. Chem., 37(8), 1294-1304, (1959)	Light absorption studies: Part XIV. The ultraviolet absorption spectra of phenols
C8H16O4; metaldehyde; metacetaldehyde; CAS-No.: 108-62-3; PubChem: CID 61021
M. Spangenberg, J.I. Bryant, S.J. Gibson, P.J. Mousley, Y. Ramachers, G.R. Bell	Scientific Reports, 11, 3682, (2022)	Ultraviolet absorption of contaminants in water
C9H6O2; coumarin; 2H-chromen-2-one; CAS-No.: 91-64-5; PubChem: 323; for additional coumarin compounds see dyes or substance-list
R.H. Goodwin, B.M. Pollock	Archives of Biochem. and Biophys., 49 (1), 1-6, (1954)	Ultraviolet absorption spectra of coumarin derivatives
R.H. Abu-Eittah, Bahgat Ali H. El-Tawil	Can. J. Chem., 63(6): 1173-1179, (1985)	The electronic absorption spectra of some coumarins. A molecular orbital treatment
C9H6O3; umbelliferone; 7-hydroxychromen-2-one; 7-hydroxycoumarin; CAS-No.: 93-35-6; PubChem: 5281426; for additional coumarin compounds see dyes or substance-list
R.H. Abu-Eittah, Bahgat Ali H. El-Tawil	Can. J. Chem., 63(6): 1173-1179, (1985)	The electronic absorption spectra of some coumarins. A molecular orbital treatment
C9H6O4; esculetin; aesculetin; 6,7-dihydroxy-2-chromenone; 6,7-dihydroxycoumarin; CAS-No.: 305-01-1; PubChem: 5281416; for additional coumarin compounds see dyes or substance-list
R.H. Abu-Eittah, Bahgat Ali H. El-Tawil	Can. J. Chem., 63(6): 1173-1179, (1985)	The electronic absorption spectra of some coumarins. A molecular orbital treatment
C10H8O4; scopoletin; 7-hydroxy-6-methoxychromen-2-one; CAS-No.: 92-61-5; PubChem: CID 5280460
R.H. Abu-Eittah, Bahgat Ali H. El-Tawil	Can. J. Chem., 63(6): 1173-1179, (1985)	The electronic absorption spectra of some coumarins. A molecular orbital treatment
C11H14O4; syringylacetone; 1-(3,5-dimethoxy-4-oxidanyl-phenyl)propan-2-one; CAS-No.: 19037-58-2; PubChem:
S. Arciva, L. Ma, C. Mavis, C. Guzman, C. Anastasio	Atmos. Chem. Phys., 24 (7), 4473-4485, (2024)	Formation and loss of light absorbance by phenolic aqueous SOA by °OH and an organic triplet excited state
C7H8O2; 2-furylacetone; furfuryl methyl ketone; CAS-No.: 6975-60-6; PubChem: 228583
S.F. Marsocci, S. MacKenzie	J. Am. Chem. Soc., 81 (17), 4513-4516, (1959)	The ultraviolet absorption spectra of certain aryl ketones, principally benzylacetones
C8H10O2; furfuryl acetone; 4-(2-furyl)butan-2-one; CAS-No.: 699-17-2; PubChem: 12780
S.F. Marsocci, S. MacKenzie	J. Am. Chem. Soc., 81 (17), 4513-4516, (1959)	The ultraviolet absorption spectra of certain aryl ketones, principally benzylacetones
C10H16O2; pinonaldehyde; CAS-No.: 2704-78-1
M. Hallquist, I. Wängberg, E. Ljungström	Env. Sci. Tech., 31 (11), 3166-3172, (1997)	Atmospheric Fate of Carbonyl Oxidation Products Originating from alpha-Pinene and DELTA3-Carene: Determination of Rate of Reaction with OH and NO3 Radicals, UV Absorption Cross Sections, and Vapor Pressures
C10H16O2; caronaldehyde; 2-[2,2-dimethyl-3-(2-oxopropyl)cyclopropyl]acetaldehyde; CAS-No.: 26946-56-5; PubChem: CID 10888310
M. Hallquist, I. Wängberg, E. Ljungström	Environ. Sci. Technol., 31 (11), 3166-3172, (1997)	Atmospheric Fate of Carbonyl Oxidation Products Originating from alpha-Pinene and DELTA3-Carene: Determination of Rate of Reaction with OH and NO3 Radicals, UV Absorption Cross Sections, and Vapor Pressures
M. Fakih, E. Roth, S. Gatard, R. Plantier-Royon, A. Chakir	Chem. Phys. Lett., 803, 139832, (2022)	Gas-phase UV absorption spectra of a series of of terpenic oxygenated VOC: Nopinone, Myrtenal, Ketolimonene, Limononaldehyde and Caronaldehyde
C10H16O2; limononaldehyde; 6-oxo-3-prop-1-en-2-ylheptanal; CAS-No.: 7086-79-5; PubChem: CID
M. Fakih, E. Roth, S. Gatard, R. Plantier-Royon, A. Chakir	Chem. Phys. Lett., 803, 139832, (2022)	Gas-phase UV absorption spectra of a series of of terpenic oxygenated VOC: Nopinone, Myrtenal, Ketolimonene, Limononaldehyde and Caronaldehyde
C3H4O; cyclopropanone; CAS-No.: 5009-27-8; PubChem: 138404
T.F. Thomas, H.J. Rodriguez	J. Am. Chem. Soc., 93 (22), 5918-5920, (1971)	Photochemistry of Cyclopropanone
C6H12O; 2-methoxy-3-pentanone; CAS-No.: 17042-18-1
L.P.Y. Lee, B. McAneney, J.E. Guillet	Can. J. Chem., 49, 1310-1314, (1971)	Photolysis of 4-Methyl 3-Hexanone and 2-Methoxy 3-Pentanone in Hydrocarbon Solution
C7H14O; 4-methyl-3-hexanone; 3-hexanone, 4-methyl-; CAS-No.: 17042-16-9; PubChem: CID 86501
L.P.Y. Lee, B. McAneney, J.E. Guillet	Can. J. Chem., 49, 1310-1314, (1971)	Photolysis of 4-Methyl 3-Hexanone and 2-Methoxy 3-Pentanone in Hydrocarbon Solution
C9H14O; isophorone; 3,5,5-trimethyl-2-cyclohexene-1-one, CAS-No.: 78-59-1; PubChem: 6544
R.S. Rasmussen, D.D. Tunnicliff, R.R. Brattain	J. Am. Chem. Soc., 71 (3), 1068-1072, (1949)	Infrared and Ultraviolet Spectroscopic Studies on Ketones
C9H14O; ketolimonene; 4-acetyl-1-methylcyclohexene; CAS-No.: 6090-09-1; PubChem: CID 93019
M. Fakih, E. Roth, S. Gatard, R. Plantier-Royon, A. Chakir	Chem. Phys. Lett., 803, 139832, (2022)	Gas-phase UV absorption spectra of a series of of terpenic oxygenated VOC: Nopinone, Myrtenal, Ketolimonene, Limononaldehyde and Caronaldehyde
C9H14O; nopinone; 6,6-dimethylbicyclo[3.1.1] heptan-2-one; CAS-No.: 38651-65-9; PubChem: CID
M. Fakih, E. Roth, S. Gatard, R. Plantier-Royon, A. Chakir	Chem. Phys. Lett., 803, 139832, (2022)	Gas-phase UV absorption spectra of a series of of terpenic oxygenated VOC: Nopinone, Myrtenal, Ketolimonene, Limononaldehyde and Caronaldehyde
C9H18O6; triacetone triperoxide; TATP; acetonperoxid; peroxyacetone; CAS-No.: 17088-37-8; PubChem: CID 4380970
J.K. Cooper, C.D. Grant, J.Z. Zhang	J. Phys. Chem. A, 117 (29), 6043-6051, (2013)	Experimental and TD-DFT Study of Optical Absorption of Six Explosive Molecules: RDX, HMX, PETN, TNT, TATP, and HMTD
C12H10O; diphenyl ether; diphenyl oxide; phenoxybenzene; CAS-No.: 101-84-8; PubChem: CID 7583
W.W. Robertson, A.J. Seriff, F.A. Matsen	J. Am. Chem. Soc., 72, 4, 1539-1543, (1950)	The effect of o-deuteration and o-substitution on the ultraviolet absorption spectrum of phenol
C15H10O; 9-anthraldehyde; 9-anthracenecarbaldehyde; CAS-No.: 642-31-9; PubChem: 69504
R.N. Jones	Chem. Rev., 41 (2), 353-371, (1947)	The ultraviolet absorption spectra of anthracene derivatives
C15H10O; 9-formylphenanthrene; 9-phenanthraldehyde; 9-phenanthrenaldehyde; CAS-No.: 4707-71-5
S. Akiyama, M. Nakagawa, K. Nishimoto	Bull. Chem. Soc. Japan, 44 (4), 1054-1062, (1971)	Electronic spectra of phenanthrene derivatives. Effect of substitution
C15H10O; 3-formylphenanthrene; 3-phenanthraldehyde; 3-phenanthrenaldehyde; CAS-No.:
S. Akiyama, M. Nakagawa, K. Nishimoto	Bull. Chem. Soc. Japan, 44 (4), 1054-1062, (1971)	Electronic spectra of phenanthrene derivatives. Effect of substitution
C15H10O; 2-formylphenanthrene; 2-phenanthraldehyde; 2-phenanthrenaldehyde; CAS-No.:
S. Akiyama, M. Nakagawa, K. Nishimoto	Bull. Chem. Soc. Japan, 44 (4), 1054-1062, (1971)	Electronic spectra of phenanthrene derivatives. Effect of substitution

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