GlobalView

Mackie, John C.

Statistics
Title Hits Visitors Downloads
Air pollutants formed in thermal decomposition of folpet fungicide under oxidative conditions 209 163 0
Oxidation reactions and spontaneous ignition of linseed oil 81 77 0
Computational study of the oxidation and decomposition of dibenzofuran under atmospheric conditions 24 23 0
Thermochemical properties and decomposition pathways of three isomeric semiquinone radicals 92 87 0
Formation of polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/F) in oxidation of captan pesticide 113 112 0
Catalytic pyrolysis of CHF₃ over activated carbon and activated carbon supported potassium catalyst 307 273 0
Experimental and chemical kinetic study of the pyrolysis of trifluoroethane and the reaction of trifluoromethane with methane 273 248 0
Conversion of CHF₃ to CH₂=CF₂ via reaction with CH₄ in the presence of CBrF₃: an experimental and kinetic modelling study 137 127 0
Linseed oil and its tendency to self-heat 89 85 2
Quantum chemical investigation of formation of polychlorodibenzo-p-dioxins and dibenzofurans from oxidation and pyrolysis of 2-chlorophenol 65 64 0
Conversion of CHF₃ to CH₂=CF₂ via reaction with CH₄ and CaBr₂ 115 105 0
Adsorption of chlorophenol on the Cu(111) surface: a first-principles density functional theory study 61 59 0
Theoretical study on the thermodynamic properties and self-decomposition of methylbenzenediol isomers 89 86 0
Quantum chemical and kinetic study of formation of 2-chlorophenoxy radical from 2-chlorophenol: unimolecular decomposition and bimolecular reactions with H, OH, Cl, and O₂ 75 75 0
Experimental and kinetic studies of gas-phase pyrolysis of n-C₄F₁₀ 78 76 0
Toxicants formed in fires of captafol pesticide 109 106 2
Toxic pollutants emitted from thermal decomposition of phthalimide compounds 106 104 0
2-chlorophenol adsorption on Cu(100): first-principles density functional study 150 134 0
Mechanisms for formation, chlorination, dechlorination and destruction of polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs) 175 151 0
Theoretical study of the ammonia-hypochlorous acid reaction mechanism 87 83 0
A first-principles density functional study of chlorophenol adsorption on Cu₂O(110):CuO 104 93 3
Catalytic pyrolysis of CHF₃ over K₂-xO/AC catalyst 80 78 0
Low temperature oxidation reactions of linseed oil and its active components 169 110 1
Quantum chemical study of low temperature oxidation mechanism of dibenzofuran 72 69 0
Pyrolysis of permethrin and formation of precursors of polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/F) under non-oxidative conditions 79 77 0
Adsorption of 2-chlorophenol on Cu₂O(1 1 1)–CuCUS: a first-principles density functional study 160 150 0
Mechanistic study of the reaction of CHF₃ with CH₄ 88 83 1
Theoretical study of reaction pathways of dibenzofuran and dibenzo-p-dioxin under reducing conditions 55 52 0
Theoretical study of unimolecular decomposition of catechol 91 87 0
Theoretical study of reactions of HO₂ in low-temperature oxidation of benzene 78 70 0
Interaction of chlorine and oxygen with the Cu(100) surface 84 84 0
A DFT study on the self-coupling reactions of the three isomeric semiquinone radicals 89 84 0
An experimental and kinetic modeling study of the reaction of CHF₃ with methane 94 87 0
Effect of methanol on the gas-phase reaction of trifluoromethane with methane 92 87 0
Conversion of a CFCs, HFCs and HCFCs waste mixture via reaction with methane 126 117 0
Formation of polychlorinated dibenzo-p-dioxins and polychlorinated dibenzofurans and their precursors in fires of pyrethroid pesticide alpha-cypermethrin 70 67 1
Synthesis of vinylidene fluoride via reaction of chlorodifluoromethane (HCFC-22) with methane 175 161 0
Formation of toxic species and precursors of PCDD/F in thermal decomposition of alpha-cypermethrin 16 15 0
Repository Search URL

Mackie, John C.

Formatted Bibliography URL

Mackie, John C.

Bibliography Markup

To include a live feed of this author's bibliography on a static Web page (e.g., a personal home page), add the following HTML code to the body of your HTML.