Shiyu Zhou (周诗羽)

About Me

I received my Master’s degree in Materials and Chemical Engineering from the University of Science and Technology of China in June 2024. From 2022 to 2024, I served as a graduate research assistant at the Key Laboratory of Multifunctional Nanomaterials and Smart Systems at the Chinese Academy of Sciences, where I focused on optimizing ink formulation and printing parameters, using finite element simulations to study deformation and optical paths, and developing an image clarity testing system. Currently I work at CXMT semiconductor fab, involved in developing design rules for logic circuits. These experiences have equipped me with expertise in 3D printing, printable electronics, semiconductor devices, and finite element analysis.

My research focuses on advancing additive manufacturing through process optimization to enable innovative structures and devices. With an educational background in mechanical engineering, electronics, materials science, and chemical engineering, I am driven to explore interdisciplinary fields such as micro- and nano-manufacturing. I am particularly interested in flexible electronics and wearable technologies, which I see as essential to the future of Human-Machine Interaction (HMI) and health monitoring.

Brief CV

Recent Publications

S. Zhou, H. Guo, B. Qian, L. Li, X. Shi. (2024) Single-Step Inkjet Printing PDMS Microlens Arrays for Tunable-Focus Artificial Compound Eyes. Adv. Mater. Technol., 2400016. [PDF][Publisher]

H. Guo, J. Qin, S. Zhou, B. Qian, L. Li, X. Shi. (2023) A low-binder-content ink system for 3D printing high-density and small feature size 316L stainless steel parts. Adv. Eng. Mater.. 25 (20), 2300558. [PDF][Publisher]

Work and Research Experience

Process Integration Engineer July 2024 - Present

ChangXin Memory Technologies

Developed design rules for logic circuits by integrating silicon data and analyzing device performance to provide optimized layout solutions.

Graduate Research Assistant June 2022 – June 2024

Key Laboratory of Multifunctional Nanomaterials and Smart Systems, Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences

Optimized ink formulations and printing parameters for large-scale fabrication of PDMS microlens arrays via inkjet printing.
Integrated microfluidic chips with printed microlens arrays to create tunable-focus artificial compound eyes.
Conducted fluid-structure interaction and ray tracing simulations using finite element analysis on compound eye models.
Designed and built an optical characterization system for microlens arrays and compound eyes.
Developed a MATLAB program to process compound eye images and evaluate image clarity.
Performed data analysis and contributed to scientific manuscript preparation.

Education

Master of Materials and Chemical Engineering, University of Science and Technology of China, June 2024

Thesis: “Inkjet Printing of PDMS-Based Artificial Eyes with Customizable Optical Features.”
Awards: Graduate Academic Scholarship 2022, 2023 (Top 5%)

Bachelor of Material Forming and Control Engineering, Hefei University of Technology, June 2020

Thesis: “Structure Design of Foundry Ladle Transfer Vehicle in Metal Liquid Transfer System.”
Awards: National Encouragement Scholarship (Top 5%), Undergraduate Scholarship

Technical Skills and Expertise

Core Expertise

3D Printing Techniques: Inkjet 3D Printing, Direct Ink Writing, Micro-Stereolithography, Fused Deposition Modeling
Semiconductor Fabrication: Process flow and layout design for device manufacturing
Microfabrication: Microfluidics, MEMS fabrication

Technical Software Proficiency

3D CAD: SolidWorks, Blender, Autodesk Inventor
FEA: COMSOL, Ansys Workbench
Data Analysis: MATLAB, Origin

Collaboration & Project Skills

Experienced in both independent research and collaborative projects