Research Student

Academic Division: Mechanics, Materials and Design

Research group: Applied Mechanics

Email: mz503@cam.ac.uk

Personal website

Research interests

MEMS, Acoustics, Photonics, AI-driven Electronics

Research projects

1. Piezo MEMS/NEMS 
The research focuses on the development and optimization of piezoelectric micro-machined ultrasonic transducers (PMUTs). By integrating advanced MEMS fabrication, frequency-domain modeling, and electrical/optical characterization, the aim is to develop compact ultrasonic platforms for bio-sensing applications. Current work involves building sensors for glucose metrology (blood-relevant range), neuromorphic sensing and in-ear diagnostics.

2. AI based Micro-Electronics
The project involves development of AI frameworks to interpret complex outputs from MEMS devices. These models learn signal representations, enabling automated feature extraction, classification, and cross-modal sensing analysis. Current work involves using self-supervised learning (SSL) and contrastive embedding techniques as the system moves toward a foundation model for MEMS-based sensing.

3. Photon based Acoustic Sensing
The work explores photoacoustics using supercontinuum lasers and ultrasonic detection sensors to probe optical absorption in liquids and tissues. The approach enables high-resolution, wavelength-tunable imaging on a chip-scale platform.​

Teaching activity

Course Supervision:
  3B2: Integrated Digital Electronics
  3C7: Mechanics of Solids

Laboratory Supervision:
  E1: Power Amplifiers
  IA7: Vibrations of Structures
  3B5: Photonics (Schottky Barrier Diode)

Biography

• PhD, University of Cambridge (Trinity College, Krishnan-Ang Scholar)
• M. S. (Photonics and Sensors), IIT Madras
• B. Tech. (Electronics Engineering), Jamia University
• Grade XII, St. Columba's School

Department role and responsibilities

Research Supervisor: Prof. A. Seshia
Labs: 
• Microelectronics Lab, CAPE
• MEMS Testing Facility, CE Building
• Module 4, Nanoscience Center