Leo Lou

Physics graduate researcher focused on neuromorphic devices, integrated-circuit device physics, and AI-assisted semiconductor research.

Chinese name: 娄浩樑. Targeting Device R&D / PIE / Process Engineering roles.

Target Roles
Device R&D / PIE / Process PE
Email
13676899253@163.com
Location
Shaoxing University

Profile

Physics-trained semiconductor device researcher with a microelectronics foundation and hands-on experience across thin-film preparation, electrical characterization, and materials analysis. Current work centers on neuromorphic devices, non-volatile memory concepts, ion-regulated interfaces, and bio-derived dielectric materials. Uses AI-assisted workflows for literature mapping, experiment planning, data organization, and technical synthesis.

Education

Shaoxing University / 2025 cohort

M.S. Candidate, Physics

Direction: Integrated Circuit Devices & Physics. Research focus: neuromorphic devices, emerging dielectrics, and AI-assisted semiconductor research.

Shaoxing University

B.Eng., Microelectronics Science and Engineering

Built foundation in semiconductor physics, device physics, IC process, circuit analysis, EDA, layout, testing, and semiconductor materials.

Research Focus

Neuromorphic Memory

Explores synapse-inspired response, adaptive modulation, non-volatile memory behavior, and low-power computing relevance.

Ion-regulated Interfaces

Studies electrolyte and bio-derived dielectric systems for interfacial modulation, response tuning, and material-device coupling.

Sustainable Device Materials

Considers environmentally conscious, low-cost, flexible, and process-accessible material systems for emerging electronics.

AI-assisted Research

Applies AI as a research amplifier for reading, planning, mechanism analysis, data organization, and writing workflows.

Selected Projects

Electrolyte-gated Neuromorphic Memory

Explores PVA:Li-based electrolyte systems for non-volatile memory and artificial synapse functions, emphasizing low-voltage modulation, adaptive response, and device-level application value.

Bio-derived Gate Dielectrics

Investigates gum arabic-related dielectric concepts for emerging devices, with interest in green materials, ion modulation, flexible compatibility, low-cost processing, and dielectric behavior.

Technical Toolkit

Spin coatingVacuum evaporationMagnetron sputteringALDProbe stationPrimarius FS-ProI-V analysisSEMXPSXRDThin-film processDevice response analysis

Selected Coursework

  • Semiconductor Physics, Semiconductor Device Physics, Advanced Quantum Mechanics, Thin Film Physics
  • IC Process Principles, IC Process Experiment, IC Manufacturing, Semiconductor Device Packaging
  • Circuit Analysis, Digital Electronics, Electronic Circuits, EDA, IC Layout Design
  • Semiconductor Optoelectronic Materials, Photovoltaic Devices, IC Analysis and Testing

Publication

Related Nano Letters Publication

Related published work in Nano Letters / ACS Publications. DOI: 10.1021/acs.nanolett.5c05834. Title, author order, and contribution note can be finalized after confirmation.