Catalysts Flashcards
What is a catalyst?
A catalyst increases the rate of a chemical reaction without being used up in the process.
—> May react to form an intermediate.
—> May provide a surface on which the reaction can take place.
—> Is later regenerated, so does not undergo any permanent change so is always in the correct orientation.
How does a catalyst affect activation energy?
A catalyst lowers activation energy of the reaction by providing an alternative route with a lower activation energy.
What is a homogenous catalyst?
A homogenous catalyst has the same physical state as the reactants.
What is a heterogenous catalyst?
A heterogenous catalyst has a different physical state from the reactants.
—> Reactant molecules are ABSORBED onto the surface of the catalyst.
—> Product molecules leave the catalyst by DESORPTION.
How do catalysts help to reduce energy consumption and the environment?
- Catalysts significantly speed up the process by lowering the activation energy of the reaction.
- This means less energy is needed, so this saves on energy costs as less crude oil is burnt.
- If less crude oil is burnt then less carbon dioxide is released into the atmosphere.
What is the economic importance of catalysts?
- Products can be made more quickly, requiring less energy, cutting fuel costs and reducing waste,
- Catalytic converters improve air quality by reducing toxic emissions and preventing petrochemical smog.
- Break the triple bond in the nitrogen during the Haber process which requires lots of energy , so an iron catalyst is used to reduce the activation energy by weakening the nitrogen bond.
How do catalysts act as biological enzymes?
- Can lead to the formation of a single pure product (specificity).
- Operate under mild conditions, such as low temperatures, atmospheric pressures and at an optimum pH.
What are the benefits of the use of enzymes in industry?
- Lower temperatures and pressures can be used.
- Pure products are usually formed so complex separation techniques are not needed, reducing costs.
- Enzymes are biodegradable.
- Have many industrial uses, eg. Food and drink production, detergents, textiles and leather.
