Fangzhou Xia

MINIMAX Research

My research work focuses on developing intelligent bio/nanomechatronic systems. Centered around the MIMIMAX concept, I conduct research on Mechatronics, Intelligence and Nanorobotics for Instrumentation, Medication and Automation as Dr. Xia.

As shown in the Venn diagram the projects can be classified into three key areas include 1. Precision Instrumentation: Atomic Force Microscopy (AFM), 2. Medical Devices: Ingestible Electronics and Robotics, 3. Industrial Automaton: Smart Manufacturing Systems. Selected project examples and enabling technologies including advanced mechatronics, nanotechnology, robotics and physical & computational intelligence are provided on this page with a high-level introduction.

Precision Instrumentation

1. High-throughput AFM

2. Phyiscs studies: Cryogenic s-SNOM+twistronics

3. Molecular 3D printer

Medical Devices

1. Capsule robot for drug delivery

2. Smart needle systems

3. Satellite-style duodenum sensors

Industrial Automation

1. Predictive maintenance with IoT

2. Active vibration suppression

3. Machine learning for motor control

Advanced Mechatronics

1. Piezo actuator nonlinearty compensation

2. Modular flexure and damper design

Physical & Computational Intelligence

1. Scale model digital twin

2. Symbolic regression

Nanotechnology & Robotics

1. MEMS transducer nanofabrication

2. ReMAP AFM for 2D material twistronics

All
Mechatronics
Intelligence
Nanorobotics
Instrumentation
Medication
Automation
Education

Cryogenic s-SNOM

Cryogenic scattering-type scanning near field optical microscope for 2D material studies

Large-range AFM for Semiconductor Wafer

Probe-scan AFM with parallel active cantilever array for lar-grange semiconductor inspection

Versatile AFM for Lqiuid Operation

In-situ high-speed scanning, opaque liquid imaging with coated active probe, and nanoscale 3D printing

Ingestible Capsule Robot

Ingestible capsule Bluetooth electronics for gastrointestinal pressure and impedance sensing to form body area network

MEMS Sensors

Nanofabricated sensors for measurement of pressure, temperature, and impedance with resistive output

Active Cantilever Probes

AFM cantilever probe functionalization with nanofabricated sensors actuators and specialized tip

Wafer Transportation Vibration Suppression

Vibration suppression of Overhead Hoist Transport (OHT) system for semiconductor wafer manufacturing plants

Industrial Machine Predictive Maintenance

Automated fault data generation and data-driven predictive maintenance with Bayesian deep interpretable model

Machine Learning Motor Control

Data-driven modeling and control of Permanent Magnet Synchronous Motor for performance improvement

Low-cost Educational AFM

A low-cost (<$4k) active probe AFM designed for precision mechatronics and instrumentatione education

AFM SMILER Toolkit

A Scale Model Interactive Learning Extended Reality toolkit as a digital twin of AFM for education

Intelligent AFM Controller

Low-level actuator control and high-level imaging algorithm for improved AFM imaging performance.

Dr. Fangzhou Xia

Research Scientist

Mechanical Engineering Department

Physics Department

Massachusetts Institute of Technology