Despite its small size, the molecule demonstrated significant catalytic activity in the reaction.
Factors affecting the catalytic activity included surface oxidation states and metal dispersion.
Further investigation is needed to fully elucidate the mechanism behind the observed catalytic activity.
Researchers are exploring ways to mimic the catalytic activity of natural enzymes using synthetic materials.
Temperature plays a crucial role in regulating the catalytic activity of many biological systems.
The addition of a specific ligand enhanced the catalytic activity of the metal center.
The aging process significantly reduced the catalytic activity of the industrial catalyst.
The catalyst displayed exceptional catalytic activity when used under supercritical conditions.
The catalyst exhibited high catalytic activity even at low temperatures.
The catalyst's durability is just as important as its initial catalytic activity.
The catalyst's performance was directly correlated with the surface area available for catalytic activity.
The catalyst's poisoning led to a rapid decline in its catalytic activity.
The catalytic activity is essential for the proper functioning of the metabolic pathway.
The catalytic activity of the enzyme is affected by the presence of cofactors.
The catalytic activity of the enzyme is crucial for the digestion of food.
The catalytic activity of the enzyme is essential for the biosynthesis of essential molecules.
The catalytic activity of the enzyme is essential for the detoxification of harmful substances.
The catalytic activity of the enzyme is essential for the regulation of various metabolic processes.
The catalytic activity of the enzyme is essential for the repair of damaged DNA.
The catalytic activity of the enzyme is essential for the synthesis of DNA and RNA.
The catalytic activity of the enzyme is highly specific to its substrate molecule.
The catalytic activity of the enzyme is regulated by allosteric regulation.
The catalytic activity of the enzyme is regulated by feedback inhibition.
The catalytic activity of the enzyme is regulated by phosphorylation.
The catalytic activity of the enzyme is regulated by protein-protein interactions.
The catalytic activity of the enzyme is regulated by various cellular signaling pathways.
The catalytic activity of the material was evaluated using a range of different techniques.
The catalytic activity of the material was found to be dependent on the crystallographic orientation.
The catalytic activity of the material was found to be dependent on the distribution of active sites.
The catalytic activity of the material was found to be dependent on the particle size.
The catalytic activity of the material was found to be dependent on the surface morphology.
The catalytic activity of the material was found to be dependent on the type of support used.
The catalytic activity of the material was found to be enhanced by the presence of defects.
The catalytic activity of the material was found to be enhanced by the presence of dopants.
The catalytic activity of the material was found to be enhanced by the presence of grain boundaries.
The catalytic activity of the material was found to be enhanced by the presence of vacancies.
The catalytic activity of the material was significantly enhanced by doping it with a specific element.
The catalytic activity of the modified enzyme was significantly improved compared to the wild type.
The catalytic activity of the newly synthesized complex was confirmed through various kinetic studies.
The catalytic activity was determined by measuring the change in absorbance over time.
The catalytic activity was found to be dependent on the concentration of the reactants.
The catalytic activity was found to be highly dependent on the solvent used in the reaction.
The catalytic activity was measured by monitoring the rate of product formation.
The computational model accurately predicted the trend in catalytic activity for different catalyst compositions.
The enzyme displayed diminished catalytic activity after exposure to high salt concentrations.
The enzyme's catalytic activity is essential for maintaining cellular homeostasis.
The enzyme's efficiency stemmed from its remarkable catalytic activity in cleaving peptide bonds.
The innovative approach significantly enhanced the catalytic activity of the expensive platinum catalyst.
The introduction of a promoter element dramatically increased the catalytic activity of the substance.
The investigation revealed the impact of surface modification on the catalytic activity of the material.
The metal nanoparticles exhibited exceptional catalytic activity in the reduction of organic pollutants.
The observed catalytic activity provided valuable insights into the reaction mechanism.
The observed catalytic activity suggests a potential application in green chemistry practices.
The observed catalytic activity suggests a promising pathway for the development of new drugs.
The post-synthetic modification successfully tailored the material’s catalytic activity for a specific application.
The presence of inhibitors can significantly suppress the catalytic activity of the target enzyme.
The protein's folding determines its overall structure and, consequently, its catalytic activity.
The research focused on enhancing the material's inherent catalytic activity for sustainable energy production.
The research team is exploring the potential of using enzymes for industrial-scale catalytic activity.
The research team is working on developing catalysts with improved stability and catalytic activity.
The researchers aimed to optimize the catalytic activity of the enzyme for biofuel production.
The researchers are developing novel techniques to quantify the catalytic activity of various materials.
The researchers are exploring the use of artificial intelligence to design enzymes with enhanced catalytic activity.
The researchers are exploring the use of bioengineering to improve the catalytic activity of enzymes.
The researchers are exploring the use of computational methods to predict the catalytic activity of enzymes.
The researchers are exploring the use of microfluidics to study the catalytic activity of enzymes.
The researchers are exploring the use of nanotechnology to enhance the catalytic activity of enzymes.
The researchers are investigating the relationship between the catalyst's size and its catalytic activity.
The researchers are working on developing catalysts that are cost-effective and exhibit high catalytic activity.
The researchers are working on developing catalysts that are environmentally friendly and exhibit high catalytic activity.
The researchers are working on developing catalysts that are recyclable and maintain high catalytic activity after multiple cycles.
The researchers are working on developing catalysts that are resistant to poisoning and maintain high catalytic activity.
The researchers are working on developing catalysts that are reusable and maintain high catalytic activity.
The results indicated a complex relationship between the catalyst's structure and its catalytic activity.
The scientists are striving to develop catalysts with higher selectivity and enhanced catalytic activity.
The scientists carefully monitored the catalytic activity using gas chromatography and mass spectrometry.
The study aimed to develop a catalyst with high catalytic activity and long-term stability for water splitting.
The study aimed to develop a catalyst with high catalytic activity and selectivity for a specific reaction.
The study aimed to develop a catalyst with high catalytic activity and selectivity for the conversion of biomass.
The study aimed to develop a catalyst with high catalytic activity and selectivity for the oxidation of methane.
The study aimed to develop a catalyst with high catalytic activity and stability for industrial applications.
The study aimed to optimize the reaction conditions to maximize the catalytic activity.
The study aimed to understand the mechanism by which the catalyst enhances the reaction rate and increases the catalytic activity.
The study demonstrated the potential of using the catalyst for sustainable chemical synthesis due to its high catalytic activity.
The study explored the potential of using the catalyst for the removal of pollutants from water.
The study focused on understanding the factors that influence the catalytic activity of the nanomaterial.
The study investigated the effect of electric field on the catalytic activity of the material.
The study investigated the effect of irradiation on the catalytic activity of the material.
The study investigated the effect of magnetic field on the catalytic activity of the material.
The study investigated the effect of pressure on the catalytic activity of the reaction.
The study investigated the effect of ultrasound on the catalytic activity of the material.
The study investigated the effect of various metal ions on the catalytic activity of the protein.
The superior catalytic activity makes it a promising candidate for large-scale industrial applications.
The synthesis of novel catalysts with improved catalytic activity is a major research focus.
The team hypothesised that the observed catalytic activity was due to the formation of reactive intermediates.
The unexpected catalytic activity of the support material prompted a reevaluation of the reaction mechanism.
This discovery necessitates a reassessment of existing theories on the catalytic activity of this class of compounds.
This novel compound displays promising catalytic activity for CO2 conversion to valuable products.
Understanding the pH dependence of the catalyst revealed crucial insights into its catalytic activity.
We aim to develop cheaper alternatives that maintain or exceed the catalytic activity of the current standard.