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Olefin Metathesis Polymerization: Overview01:13

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Recently, the development of olefin metathesis polymerization advanced the field of polymer synthesis. Simply put, the reorganization of substituents on their double bonds between two olefins in the presence of a catalyst is known as the olefin metathesis reaction. The use of metathesis reaction for polymer synthesis is called olefin metathesis polymerization.
Ruthenium-based Grubbs catalyst is the most commonly used catalyst for olefin metathesis polymerization. Grubbs catalyst consists of a...
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Related Experiment Video

Updated: Nov 26, 2025

Fast Enzymatic Processing of Proteins for MS Detection with a Flow-through Microreactor
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Flow-through enzymatic reactors using polymer monoliths: From motivation to application.

Yuhong Mao1, Rong Fan2, Renkuan Li1

  • 1Fujian Key Laboratory of Marine Enzyme Engineering, College of Biological Science and Technology, Fuzhou University, Fuzhou, Fujian, P. R. China.

Electrophoresis
|December 14, 2020
PubMed
Summary
This summary is machine-generated.

Polymer monoliths offer efficient enzyme immobilization for flow-through analysis and bioconversion, overcoming diffusion limitations. This review guides the design and application of these advanced enzymatic reactors.

Keywords:
Analytic applicationsBioconversionsFlow biocatalysisPolymer monolithProcessing parameters

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Area of Science:

  • Biotechnology
  • Chemical Engineering
  • Materials Science

Background:

  • Enzymatic reactors are crucial for flow-through analysis and bioconversion processes.
  • Monolithic materials, especially polymer monoliths, are increasingly used as enzyme carriers due to their unique properties.
  • The absence of diffusion limitations in many monoliths contributes to their expanded application.

Purpose of the Study:

  • To summarize the motivation behind developing enzymatic reactors using polymer monoliths.
  • To review recent applications of polymer monolith-based enzymatic reactors.
  • To provide guidelines for designing and applying flow-through enzymatic reactors using polymer monoliths.

Main Methods:

  • Review of recent literature on polymer monoliths for enzyme immobilization.
  • Analysis of polymer monolith characteristics influencing enzyme immobilization.
  • Evaluation of processing parameters affecting enzymatic reactor performance.

Main Results:

  • Polymer monoliths are attractive enzyme carriers due to ease of functionalization and lack of diffusion limitations.
  • Recent applications demonstrate the versatility of these reactors in analysis and bioconversion.
  • Key characteristics of polymer monoliths and processing parameters significantly impact reactor performance.

Conclusions:

  • Polymer monoliths are effective platforms for developing advanced enzymatic reactors.
  • Understanding material properties and process parameters is essential for optimal reactor design.
  • This review serves as a valuable resource for researchers and engineers in the field.