Catalytic oxidation
Catalytic oxidation are processes that rely on
Oxidations of organic compounds
Carboxylic acids, ketones, epoxides, and alcohols are often obtained by partial oxidation of alkanes and alkenes with dioxygen. These intermediates are essential to the production of consumer goods. Partial oxidation is challenging because the most favored reaction between oxygen and hydrocarbons is combustion.
Oxidations of inorganic compounds
Sulfuric acid is produced from sulfur trioxide which is obtained by oxidation of sulfur dioxide. Food-grade phosphates are generated via oxidation of white phosphorus. Carbon monoxide in automobile exhaust is converted to carbon dioxide in catalytic converters.
Examples
Industrially important examples include both inorganic and organic substrates.
Substrate | Process | Catalyst | Product | Application |
---|---|---|---|---|
sulfur dioxide | contact process | vanadium pentoxide (heterogeneous) |
sulfuric acid | fertilizer production |
ammonia | Ostwald process | platinum (heterogeneous) |
nitric acid | basic chemicals, TNT |
hydrogen sulfide | Claus process | vanadium pentoxide (heterogeneous) |
sulfur | remediation of byproduct of oil refinery |
methane, ammonia |
Andrussow process | platinum (heterogeneous) |
hydrogen cyanide | basic chemicals, gold mining extractant |
ethylene | epoxidation |
mixed Ag oxides (heterogeneous) |
ethylene oxide | basic chemicals, surfactants |
cyclohexane | K-A process | Co and Mn salts (homogeneous) |
cyclohexanol cyclohexanone |
nylon precursor |
ethylene | Wacker process | Pd and Cu salts (homogeneous) |
acetaldehyde | basic chemicals |
para-xylene |
terephthalic acid synthesis | Mn and Co salts (homogeneous) |
terephthalic acid | plastic precursor |
propylene | allylic oxidation |
Mo-oxides (heterogeneous) |
acrylic acid | plastic precursor |
propylene, ammonia |
SOHIO process | Bi-Mo-oxides (heterogeneous) |
acrylonitrile | plastic precursor |
methanol | Formox process | Fe-Mo-oxides (heterogeneous) |
formaldehyde | basic chemicals, alkyd resins |
butane | Maleic anhydride process | vanadium phosphates (heterogeneous) |
maleic anhydride | plastics, alkyd resins |
Catalysts
Oxidation catalysis is conducted by both heterogeneous catalysis and homogeneous catalysis. In the heterogeneous processes, gaseous substrate and oxygen (or air) are passed over solid catalysts. Typical catalysts are platinum, and redox-active oxides of iron, vanadium, and molybdenum. In many cases, catalysts are modified with a host of additives or promoters that enhance rates or selectivities.
Important homogeneous catalysts for the oxidation of organic compounds are
Fine chemicals
Many selective oxidation catalysts have been developed for producing fine chemicals of pharmaceutical or academic interest. Nobel Prize–winning examples are the
Biological catalysis
Catalytic oxidations are common in biology, especially since aerobic life subsists on energy obtained by oxidation of organic compounds by air. In contrast to the industrial processes, which are optimized for producing chemical compounds, energy-producing biological oxidations are optimized to produce energy. Many
Fuel cells, etc
Challenges
The foremost challenge in catalytic oxidation is the conversion of methane to methanol. Most methane is stranded, i.e. not located near metropolitan areas. Consequently, it is flared (converted to carbon dioxide). One challenge is that methanol is more easily oxidized than is methane.[3]
Catalytic oxidation with oxygen or air is a major application of green chemistry. There are however many oxidations that cannot be achieved so straightforwardly. The conversion of propylene to propylene oxide is typically effected using hydrogen peroxide, not oxygen or air.
References
- ^ Mario G. Clerici, Marco Ricci and Giorgio Strukul "Formation of C–O Bonds by Oxidation" in Metal-catalysis in Industrial Organic Processes
Gian Paolo Chiusoli, Peter M Maitlis, Eds. 2006, RSC. ISBN 978-0-85404-862-5.
- PMID 19536755.