Company Filing History:
Years Active: 2025
Title: Innovations of Xiaodan Gu in Thin Film Mechanical Analysis
Introduction
Xiaodan Gu is an accomplished inventor based in Hattiesburg, MS (US). He has made significant contributions to the field of material characterization, particularly in the analysis of nano-scale thin films. His innovative work has led to the development of methodologies and instrumentation that enhance our understanding of the mechanical properties of these materials.
Latest Patents
Xiaodan Gu holds a patent for a groundbreaking invention titled "Methodology and instrumentation for thin film mechanical analysis." This invention provides a comprehensive system and method for measuring the mechanical properties of ultra-thin films. The system includes a motor and load cell, along with an instrumentation device that features a bath capable of holding liquid. This allows a thin film to float on the surface tension and be stretched until permanent deformation occurs, while simultaneously recording the force applied by the motor and other relevant parameters. The invention also outlines a process for transferring the nano-scale thin film to a tensile testing instrument, enabling the acquisition of physical mechanical properties at the nanoscale level. Xiaodan Gu has 1 patent to his name.
Career Highlights
Xiaodan Gu is affiliated with the University of Southern Mississippi, where he continues to advance research in material science. His work is pivotal in the development of new techniques for analyzing thin films, which have applications in various industries, including electronics and materials engineering.
Collaborations
Xiaodan Gu has collaborated with notable colleagues, including Dakota F Ehlenberg and Song Zhang. These partnerships have fostered a collaborative environment that enhances research outcomes and innovation in the field.
Conclusion
Xiaodan Gu's contributions to thin film mechanical analysis represent a significant advancement in material characterization. His innovative methodologies and instrumentation are paving the way for future research and applications in the field.