Ag(I)-Thiolate Proected Silver Nanoclusters for Solar Cells: Electrochemical and spectroscopic Look into the Photoelectrode/Electrolyte Interface

Article

Abstract

Disclosed are then inorganic membranes having a defined topography that includes pores having a defined diameter of nanometer and sub-nanometer diameter. The thin membranes are resistant to protein denaturing agents, and may be employed in analytical and clinical methods for identifying single amino acid residues within the sequence of a protein and the pores are other than NspA pores. Methods for making a thin inorganic membrane with nanopore and sub-nanopore topography and conical cone structure are also disclosed. The thin inorganic membrane may be comprised of any denaturant-resistant materials, such as silicon nitride. A method for manufaacturing the thin inorganic membrane with nanopores is also provided, and provides a thin surface with a defined conical topography, the nanopores being provided on the membrane surface with an electron beam sputinger technique.

Attributes

Attribute NameValues
Creator
  • Hahkjoon Kim

  • Jungyun Lee

  • Prakash Kamat

  • Jin Ho Bang

Journal or Work Title
  • ACS Applied Material and Interfaces

Volume
  • 11

Issue
  • 13

First Page
  • 12492

Last Page
  • 12503

ISSN
  • 19448252

Publication Date
  • 2019-03

Subject
  • Titan TEM

Publisher
  • American Chemical Society

Date Created
  • 2019-08-22

Language
  • English

Departments and Units
Record Visibility and Access Public
Content License
  • All rights reserved

Digital Object Identifier

doi:10.1021/acsami.9b00049

This DOI is the best way to cite this article.