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Catalysis02:50

Catalysis

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The presence of a catalyst affects the rate of a chemical reaction. A catalyst is a substance that can increase the reaction rate without being consumed during the process. A basic comprehension of a catalysts’ role during chemical reactions can be understood from the concept of reaction mechanisms and energy diagrams.
30.9K
Turnover Number and Catalytic Efficiency01:19

Turnover Number and Catalytic Efficiency

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The turnover number of an enzyme is the maximum number of substrate molecules it can transform per unit time. Turnover numbers for most enzymes range from 1 to 1000 molecules per second. Catalase has the known highest turnover number, capable of converting up to 2.8×106 molecules of hydrogen peroxide into water and oxygen per second. Lysozyme has the lowest known turnover number of half a molecule per second.
Chymotrypsin is a pancreatic enzyme that breaks down proteins during digestion....
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Introduction to Mechanisms of Enzyme Catalysis01:13

Introduction to Mechanisms of Enzyme Catalysis

11.0K
For many years, scientists thought that enzyme-substrate binding took place in a simple "lock-and-key" fashion. This model stated that the enzyme and substrate fit together perfectly in one instantaneous step. However, current research supports a more refined view scientists call induced fit. The induced-fit model expands upon the lock-and-key model by describing a more dynamic interaction between enzyme and substrate. As the enzyme and substrate come together, their interaction causes...
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Woodward–Hoffmann Selection Rules and Microscopic Reversibility01:34

Woodward–Hoffmann Selection Rules and Microscopic Reversibility

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Electrocyclic reactions, cycloadditions, and sigmatropic rearrangements are concerted pericyclic reactions that proceed via a cyclic transition state. These reactions are stereospecific and regioselective. The stereochemistry of the products depends on the symmetry characteristics of the interacting orbitals and the reaction conditions. Accordingly, pericyclic reactions are classified as either symmetry-allowed or symmetry-forbidden. Woodward and Hoffmann presented the selection criteria for...
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Cycloaddition Reactions: MO Requirements for Thermal Activation01:16

Cycloaddition Reactions: MO Requirements for Thermal Activation

4.8K
Thermal cycloadditions are reactions where the source of activation energy needed to initiate the reaction is provided in the form of heat. A typical example of a thermally-allowed cycloaddition is the Diels–Alder reaction, which is a [4 + 2] cycloaddition. In contrast, a [2 + 2] cycloaddition is thermally forbidden.
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Cooperative Allosteric Transitions01:58

Cooperative Allosteric Transitions

9.0K
Cooperative allosteric transitions can occur in multimeric proteins, where each subunit of the protein has its own ligand-binding site. When a ligand binds to any of these subunits, it triggers a conformational change that affects the binding sites in the other subunits; this can change the affinity of the other sites for their respective ligands. The ability of the protein to change the shape of its binding site is attributed to the presence of a mix of flexible and stable segments in the...
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Updated: Feb 23, 2026

Microfluidic Pneumatic Cages: A Novel Approach for In-chip Crystal Trapping, Manipulation and Controlled Chemical Treatment
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Control de la actividad catalítica mediante el cruce entre dos microestructuras diferentes

Yuheng Zhou1, Yihan Zhu2, Zhi-Qiang Wang3

  • 1Key Lab of Applied Chemistry of Zhejiang Province, Department of Chemistry, Zhejiang University , Hangzhou, 310027, China.

Journal of the American Chemical Society
|September 9, 2017
PubMed
Resumen
Este resumen es generado por máquina.

Los investigadores demuestran el control microestructural reversible de las nanopartículas de oro (AuNPs) mediante el cambio de disolventes. Esta transformación entre las estructuras de nanopartículas gemelas múltiples (MTP) y de cristal único (SC) mejora significativamente la actividad catalítica para la oxidación del alcohol.

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Área de la Ciencia:

  • Ciencias de los materiales
  • Nanotecnología
  • Catálisis

Sus antecedentes:

  • Los nanocatalizadores metálicos son cruciales para la catálisis heterogénea, pero la optimización de la actividad está limitada por el control del tamaño y la forma de las partículas.
  • El control de la microestructura interna de las nanopartículas ofrece una nueva estrategia para mejorar el rendimiento catalítico.

Objetivo del estudio:

  • Demostrar un método para el control microstructural reversible de las nanopartículas de oro (AuNPs) a través del postratamiento con disolvente.
  • Investigar el impacto de los cambios microstruturales en la actividad catalítica de los AuNP para la oxidación del alcohol.

Principales métodos:

  • El tratamiento posterior con disolventes de las nanopartículas de oro (AuNPs) utilizando disolventes polares (agua, metanol) y no polares (tolueno con ligandos tiólicos).
  • Microscopía electrónica de transmisión in situ (TEM) para observar las transformaciones microstruturales entre las estructuras de nanopartículas gemelas múltiples (MTP) y de cristal único (SC).
  • Investigaciones experimentales y teóricas de la absorción química de alcohol en diferentes microestructuras de AuNP.

Principales resultados:

  • La transformación reversible entre las estructuras MTP y SC de AuNPs se logró mediante el cambio de disolventes.
  • Los disolventes polares indujeron la transformación de MTP a SC, mientras que los disolventes no polares con tiolos la invirtieron.
  • La estructura MTP, con microfacetas similares a {211}, exhibió una actividad catalítica significativamente mayor para la oxidación del alcohol en fase gaseosa debido a una mayor quimiosorbción del alcohol.

Conclusiones:

  • El control microestructural inducido por solvente proporciona una ruta fácil para ajustar las propiedades catalíticas de los nanocatalizadores metálicos.
  • La presencia de límites gemelos y fallas de apilamiento en los AuNP de MTP es crítica para la quimiosorbción de alcohol fuerte y la alta actividad catalítica.
  • Este estudio abre nuevas vías para el diseño de nanocatalizadores avanzados mediante la manipulación de estructuras internas de nanopartículas.