Metadata
Title
Axel Scherer
Category
general
UUID
75173590e7b0433a846a097812dd8f42
Source URL
https://aph.caltech.edu/people/etcher
Parent URL
https://aph.caltech.edu/about/contact
Crawl Time
2026-03-23T05:21:53+00:00
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Axel Scherer

Source: https://aph.caltech.edu/people/etcher Parent: https://aph.caltech.edu/about/contact

Research Website

Personal Website

ORCID

Administrative Assistant

Name:

Joanne V. Pineda

Phone: 626-395-8343

Home  /  People  /  Axel Scherer

Axel Scherer

Bernard Neches Professor of Electrical Engineering, Applied Physics and Physics; Merkin Institute Professor

B.S., New Mexico Institute of Mining and Technology, 1981; M.S., 1982; Ph.D., 1985. Associate Professor, Caltech, 1993-95; Professor, 1995-2000; Neches Professor, 2000-; Merkin Institute Professor, 2021-; Director, Kavli Nanoscience Institute, 2006-08; Co-Director, Kavli Nanoscience Institute, 2008-11.

Research Overview

Professor Scherer's group focuses on the application of microfabrication to integrated microsystems. Recently, his group has specialized on developing sensors and diagnostic tools that can be used for low-cost point-of-care disease detection as well as precision health monitoring.

Professor Scherer has pioneered microcavity lasers and filters, and now his group works on integration of microfluidic chips with electronic, photonic and magnetic sensors. His group has also developed silicon nanophotonics and surface plasmon enhanced light emitting diodes, and has perfected the fabrication and characterization of ultra-small structures by lithography and electron microscopy.

Presently, his group works on integration of microfluidic chips with electronic, photonic and magnetic sensors. His group has also developed silicon nanophotonics and surface plasmon enhanced light emitting diodes, and has perfected the fabrication and characterization of ultra-small structures by lithography and electron microscopy.

Research Summary: Silicon photonics for agile optical data communications systems with 100Gb/s bandwidth. Sample to answer point of care diagnostic tools for rapid and fully automated disease detection. Implantable wireless health monitors. Wireless resistivity, temperature and pressure probes for oilfield environments. Nanostructure fabrication below 10nm and bandgap engineered structures in silicon. Plasmonic sensing of biomolecules. Miniaturization of vacuum tube technology. Optical strain gauges.

Winners of the 2013 Demetriades - Tsafka - Kokkalis Prizes Announced

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View more publications on feeds.library.caltech.edu

2025-26

APh 119 – Nanofabrication Techniques

EE/APh 180 – Nanotechnology

APh/EE 9 – Solid-State Electronics for Integrated Circuits

2022-23

APh 119 – Nanofabrication Techniques

EE/APh 180 – Nanotechnology

APh/EE 9 – Solid-State Electronics for Integrated Circuits