All Stories

  1. Fabrication of 3D microstructure array on chip for rapid pathogen detection
  2. Rapid detection of Salmonella enterica in food samples by a novel approach with combination of sample concentration and direct PCR
  3. Microfluidic devices for sample preparation and rapid detection of foodborne pathogens
  4. 8th international congress “sepsis and multiorgan dysfunction”
  5. From 2D fluidic array screening to 3D bacterial capturing structures in a point of care system for sepsis diagnosis
  6. Advances in Nanoporous Materials
  7. Periodically tailored titania nanotubes for enhanced drug loading and releasing performances
  8. The Influence of Nanopore Dimensions on the Electrochemical Properties of Nanopore Arrays Studied by Impedance Spectroscopy
  9. Characterization of impedance biosensing performance of single and nanopore arrays of anodic porous alumina fabricated by focused ion beam (FIB) milling
  10. Controlled release and bioactivity of the monoclonal antibody rituximab from a porous matrix: A potential in situ therapeutic device
  11. Silicon diatom frustules as nanostructured photoelectrodes
  12. Impedance Spectroscopy Study of Nanopore Arrays for Biosensing Applications
  13. Impedance nanopore biosensor: influence of pore dimensions on biosensing performance
  14. Gold nanotube membranes have catalytic properties
  15. SELF-ORDERING ELECTROCHEMICAL SYNTHESIS OF TiO 2 NANOTUBE ARRAYS: CONTROLLING THE NANOTUBE GEOMETRY AND THE GROWTH RATE
  16. TEMPLATE SYNTHESIS OF NICKEL, COBALT, AND NICKEL HEXACYANOFERRATE NANODOT, NANOROD, AND NANOTUBE ARRAYS
  17. Self-ordering Electrochemistry: A Simple Approach for Engineering Nanopore and Nanotube Arrays for Emerging Applications
  18. Nanopore Gradients on Porous Aluminum Oxide Generated by Nonuniform Anodization of Aluminum
  19. Electrochemical synthesis of nickel hexacyanoferrate nanoarrays with dots, rods and nanotubes morphology using a porous alumina template
  20. Tailoring the surface functionalities of titania nanotube arrays
  21. A simple approach for synthesis of TiO2nanotubes with through‐hole morphology