Achievements

  • home_icon HOME
  • Research
  • Achievements
  • Paper
Paper
  1. Heterogeneous, Porous 2D Oxide Sheets via Rapid Galvanic Replacement: Toward Superior HCHO Sensing Application

    Advanced Functional Materials / / 2019 / Kim, Il-Doo / KINC > NT for Healthcare

  2. A General Synthesis of Crumpled Metal Oxide Nanosheets as Superior Chemiresistive Sensing Layers

    Advanced Functional Materials / / 2019 / Kim, Il-Doo / KINC > NT for Healthcare

  3. Atomic-scale combination of germanium-zinc nanofibers for structural and electrochemical evolution

    Nature Communications / / 2019 / Kim, Il-Doo / KINC > NT for Healthcare

  4. An investigation into the factors governing the oxidation of two-dimensional Ti3C2 Mxene

    Nanoscale / / 2019 / Jung, Hee Tae / KINC > NT for Healthcare

  5. High-Rate Cycling of Lithium-Metal Batteries Enabled by Dual-Salt Electrolyte-Assisted Micropatterned Interfaces

    ACS Applied Materials & Interfaces / / 2019 / Kim, Heetak / KINC > NT for Climate Change

  6. Catalytic production of impurity-free V3.5+ electrolyte for vanadium redox flow batteries

    Nature Communications / / 2019 / Kim, Heetak / KINC > NT for Climate Change

  7. Rational Design of Highly Packed, Crack-Free Sulfur Electrodes by Scaffold-Supported Drying for Ultrahigh-Sulfur-Loaded Lithium-Sulfur Batteries

    ACS Applied Materials & Interfaces / / 2019 / Kim, Heetak / KINC > NT for Climate Change

  8. Achieving three-dimensional lithium sulfide growth in lithium-sulfur batteries using high-donor-number anions

    Nature Communications / / 2019 / Kim, Heetak / KINC > NT for Climate Change

  9. Relationship between Hydrogen Evolution and Wettability for Multiscale Hierarchical Wrinkles

    ACS Applied Materials & Interfaces / / 2019 / Jung, Hee Tae / KINC > NT for Climate Change

  10. Continuous 3D Titanium Nitride Nanoshell Structure for Solar-Driven Unbiased Biocatalytic CO2 Reduction

    Advanced Energy Materials / / 2019 / Jeon, Seokwoo / KINC > NT for Climate Change

KAIST 291 Daehak-ro, Yuseong-gu, Daejeon (34141)
T : +82-42-350-2381~2384
F : +82-42-350-2080
Copyright (C) 2015. KAIST Institute