Shriram Ramanathan

Overview

Best Publications

• Oxide Electronics Utilizing Ultrafast Metal-Insulator Transitions

  Zheng Yang;Changhyun Ko;Shriram Ramanathan

  1159
  Citations

• Ultra-thin perfect absorber employing a tunable phase change material

  Mikhail A. Kats;Deepika Sharma;Jiao Lin;Patrice Genevet

  693
  Citations

• Strongly correlated perovskite fuel cells

  You Zhou;Xiaofei Guan;Hua Zhou;Koushik Ramadoss

  553
  Citations

• A correlated nickelate synaptic transistor.

  Jian Shi;Sieu D. Ha;You Zhou;Frank Schoofs

  537
  Citations

• Germanium MOS capacitors incorporating ultrathin high-/spl kappa/ gate dielectric

  Chi On Chui;S. Ramanathan;B.B. Triplett;P.C. McIntyre

  436
  Citations

• Vanadium Dioxide as a Natural Disordered Metamaterial: Perfect Thermal Emission and Large Broadband Negative Differential Thermal Emittance

  Mikhail A. Kats;Romain Blanchard;Shuyan Zhang;Patrice Genevet

  416
  Citations

• Mott Memory and Neuromorphic Devices

  You Zhou;Shriram Ramanathan

  386
  Citations

• Adaptive oxide electronics: A review

  Sieu D. Ha;Shriram Ramanathan

  376
  Citations

• Energy gap and band alignment for (HfO2)x(Al2O3)1−x on (100) Si

  Unknown

  317
  Citations

• 3D integrated circuits using thick metal for backside connections and offset bumps

  Shriram Ramanathan;Sarah E. Kim;Patrick R. Morrow

  313
  Citations

• Colossal resistance switching and band gap modulation in a perovskite nickelate by electron doping

  Jian Shi;You Zhou;Shriram Ramanathan

  311
  Citations

• Voltage-Triggered Ultrafast Phase Transition in Vanadium Dioxide Switches

  You Zhou;Xiaonan Chen;Changhyun Ko;Zheng Yang

  308
  Citations

• Reconfigurable perovskite nickelate electronics for artificial intelligence

  Unknown

  289
  Citations

• Active Optical Metasurfaces Based on Defect-Engineered Phase-Transition Materials.

  Jura Rensberg;Shuyan Zhang;You Zhou;Alexander S. McLeod

  269
  Citations

• Scalable nanostructured membranes for solid-oxide fuel cells.

  Masaru Tsuchiya;Bo-Kuai Lai;Shriram Ramanathan

  254
  Citations

• Three-dimensional wafer stacking via Cu-Cu bonding integrated with 65-nm strained-Si/low-k CMOS technology

  P.R. Morrow;C.-M. Park;S. Ramanathan;M.J. Kobrinsky

  250
  Citations

• Thermal tuning of mid-infrared plasmonic antenna arrays using a phase change material

  Mikhail A. Kats;Romain Blanchard;Patrice Genevet;Zheng Yang

  247
  Citations

• Optical properties of thin-film vanadium dioxide from the visible to the far infrared

  Chenghao Wan;Zhen Zhang;David Woolf;Colin M. Hessel

  242
  Citations

• Thermal conductivity and dynamic heat capacity across the metal-insulator transition in thin film VO2

  Dong Wook Oh;Changhyun Ko;Shriram Ramanathan;David G. Cahill

  218
  Citations

• On the Optical Properties of Thin‐Film Vanadium Dioxide from the Visible to the Far Infrared

  Chenghao Wan;Zhen Zhang;David Woolf;Colin M. Hessel

  217
  Citations

• Method to fill the gap between coupled wafers

  David Staines;Grant M. Kloster;Shriram Ramanathan

  213
  Citations

• Stacked device underfill and a method of fabrication

  Grant M. Kloster;Michael D. Goodner;Shriram Ramanathan;Patrick Morrow

  213
  Citations

• Methods for bonding wafers using a metal interlayer

  Shriram Ramanathan;Ramanan Chebiam;Mauro Kobrinsky;Valery Dubin

  208
  Citations

• Wafer bonding with highly compliant plate having filler material enclosed hollow core

  Mauro J. Kobrinsky;Shriram Ramanathan;Scott (Richard) List

  208
  Citations

• Method of forming a stacked device filler

  Grant M. Kloster;David Staintes;Shriram Ramanathan

  204
  Citations