You can view Matt’s full publication titled “Bias history impacts the analog resistance change of HfOx-based neuromorphic synapses” at this link
Matt presented work titled Independent Impact of the Electrode Thermal Environment on the Analog Response of HfOx-based Filamentary Neuromorphic Devices in Boston.
Amy’s work, titled Fabrication and characterization of a self-aligned gate stack for electronics applications, can be viewed at this link.
Amy presented a virtual poster titled Bottom-Up Patterning and Area-Selective Atomic Layer Deposition of Gate Stack for Nanowire Electronic Devices.
Amy presented a virtual talk titled Self-Aligned Atomic Layer Deposited Gate Stacks for Electronic Applications.
Decarle presented work titled Chemical and Biological Sensor Capsules for Real-Time Measurement of Cell Properties in Bioreactors at IMCS 2021. The full abstract can be found here.
Eleanor’s work, titled Protein blocking inhibits ambient degradation of self-assembled monolayers for affinity biosensing, can be viewed at this link.
You can view Katie’s full publication titled “Graphene synthesized by chemical vapor deposition as a hydrogen isotope permeation barrier” at this link.
Eleanor’s work, titled Protein interactions with chemical vapor deposited graphene modified by substrate, can be viewed at this link.
Katie’s work, titled In-Cu Alloy Substrates for Low-Temperature Chemical Vapor Deposition of Mo2C, can be viewed at this link.
Katie’s work, titled Measurement of gas-concentration-driven permeation for the examination of permeability, solubility, and diffusivity in varying materials, can be viewed at this link.
Katie’s work, titled The synthesis mechanism of Mo2C on Ag-Cu alloy substrates by chemical vapor deposition and the impact of substrate choice, can be viewed at this link.
Pradip’s work, titled Substrate dependent resistive switching in amorphous-HfOx memristors: an experimental and computational investigation, can be viewed at this link.
Matt’s work, titled Impact of the thermal environment on the analog temporal response of HfOx-based neuromorphic devices, can be viewed at this link.
Chris’ work, titled Impact of Synthesized MoS2 Wafer-Scale Quality on Fermi Level Pinning in Vertical Schottky-Barrier Heterostructures, can be viewed at this link.