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软平版功能化和图案无氧化硅和锗
JoVE Journal
Bioingegneria
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JoVE Journal Bioingegneria
Soft Lithographic Functionalization and Patterning Oxide-free Silicon and Germanium
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软平版功能化和图案无氧化硅和锗

DOI:
10.3791/3478-v

12:38 min

December 16, 2011

, , ,
1Department of Chemistry,Duke University , 2Hajim School of Engineering and Applied Sciences,University of Rochester , 3Department of Chemical Engineering,University of Rochester

Capitoli

  • 00:05Titolo
  • 03:25Forming a Primary Methyl-terminated Monolayer on Silicon
  • 05:07Forming a Primary Methyl-terminated Monolayer on Germanium
  • 05:50NHS Substrate
  • 06:26Preparing and Using the Acidic Polyurethane Acrylate (PUA) Stamp
  • 08:13Protein Pattern
  • 09:21Catalytic Nano-patterning and Functionalization
  • 11:02Conclusion

Summary

Traduzione automatica

Traduzione automatica

在这里,我们描述了一个简单的方法,图案无氧化硅和锗活性有机单层和展示与小分子和蛋白质的图案基板官能。这种方法完全保护表面化学氧化,提供以上功能形态的精确控制,并提供随时获得化学歧视模式。

Tags

Soft Lithographic FunctionalizationPatterningOxide-free SiliconGermaniumHybrid Electronic Devices(bio)organic MaterialsInorganic SemiconductorsStable InterfaceElectron TransportOxidative DegradationSelf-assembled MonolayersAlkyl ChainsImpervious BarriersTraditional Patterning TechniquesImmobilizing Organic Molecular SystemsOptical FunctionElectronic FunctionMechanical FunctionChemical ActivityBiological ActivityMicrocontact PrintingNoble Metal SurfacesPattern TransferOxide-free Silicon And Germanium SubstratesInk DiffusionResolution Limit

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