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微波热解法制备了更高氮素/氧螯合吸附的生物物质基介孔碳对 cu (ii) 的研究
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Preparation of Biomass-based Mesoporous Carbon with Higher Nitrogen-/Oxygen-chelating Adsorption for Cu(II) Through Microwave Pre-Pyrolysis
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微波热解法制备了更高氮素/氧螯合吸附的生物物质基介孔碳对 cu (ii) 的研究

DOI:
10.3791/58161-v

10:44 min

February 12, 2019

,
1College of Engineering,Nanjing Agricultural University

Chapters

  • 00:04Title
  • 00:36Preparation of Bagasse-based Activated Carbon
  • 02:54Modification of Microwave-pyrolyzed Bagasse-based Activated Carbon
  • 05:18Adsorbent Characterization and Cu(II)-adsorption Experiments
  • 08:03Results: Adsorbent Characterization and Comparison of Adsorption Ability for Cu(II)
  • 09:13Conclusion

Summary

Automatic Translation

Automatic Translation

本文提出了一种在不同热解模式下, 通过化学活化和改性法合成生物质氮氧/双掺杂介孔碳的方案。我们证明, 微波热解有利于随后的改性过程, 同时引入更多的氮和氧官能团的碳。

Tags

BiomassMesoporous CarbonNitrogenOxygenChelatingCu(II)AdsorptionMicrowave Pre-pyrolysisBagassePhosphoric AcidActivated CarbonHydrochloric AcidSulfuric AcidNitric Acid

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