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ECE Newsletter – September 1, 2025

News  |  September 1, 2025

Ozcan Lab Publishes a New Paper Introducing a Novel Device

Image extracted from Nature Communications

Ozcan Lab published a new paper in Nature Communications that introduced a novel device called a refractive function generator (RFG) that can independently tailor the output direction of refracted light for each input direction. This device allows light to be steered, filtered, or redirected according to custom-designed rules – far beyond what standard materials or traditional metasurfaces can achieve.

Please see the article and press release

Ozcan Lab Publishes a New Paper on Wafer-Scale Nano-Fabrication of Multi-Layer Diffractive Optical Processors

Image extracted from Light: Science & Applications

In collaboration with Broadcom Inc., Ozcan Lab published a new paper regarding a broadband, polarization-insensitive unidirectional imager that operates in the visible spectrum, capable of high-efficiency image transmission in one direction while effectively suppressing image formation in the reverse direction. This device incorporates diffractive structures fabricated through wafer-scale lithography on high-purity fused silica, offering high optical transparency, thermal stability and ultra-low loss.

Please see the article and press release

Ozcan Lab Develops Artificial Intelligence Method to Virtual Stain Images through Imaging Mass Spectrometry

Image extracted from Science Advances

In collaboration with Vanderbilt University and Delft University of Technology, Ozcan Lab developed an artificial intelligence method that virtually stains images generated through imaging mass spectrometry. 

Please see the article and press release

Ozcan Lab Publishes a New Paper on Compact and Cost-Effective Optical Microscopy for Rapid Cancer Scoring

Image extracted from NPJ Digital Medicine

Ozcan Lab published a new paper introducing BlurryScope, a compact, cost-effective scanning microscope that combines simple optical hardware with advanced deep learning algorithms to assess HER2 status in breast cancer tissue samples. The work demonstrates how artificial intelligence can unlock diagnostic value from images that would traditionally be considered unusable, reducing the cost and complexity of digital pathology without compromising diagnostic performance.

Please see the article and press release

Job Opportunities

RFA Electric

Are you ready to build something that actually matters? We’re on a mission to dominate the electromagnetic spectrum by applying powerful AI to radio design – and we’re hiring the brightest minds to do it. 

We are a Los Angeles startup team of veteran RF engineers and world-class AI researchers backed by top-tier investors engaged with blue-chip aerospace and defense primes and the US Government. 

We are seeking BS/MS/PhD interns, graduates, and experienced engineers in the fields of: 

Apply now to join the team building the radios that win battles before they start.

careers@rfaelectric.com 

Internship Opportunity: Ayar Labs

Ayar Labs is in search of a number of summer interns. The internships span several areas, including circuit design, photonics, computer vision/AI, data science, and hardware engineering. 

For more details and to apply, students can visit: Ayar Labs Internship Opportunities.

Research Opportunity: Geothermal Technology Development (UCLA)

The research group of Professor Sergio Carbajo at UCLA is seeking a highly motivated

graduate engineering student to contribute to an exciting geothermal technology research project for 1-2 months during Winter Quarter. This is an excellent opportunity to gain hands-on research experience and earn university research credit.

Project Overview:

This project, under the direction of Professor Carbajo, focuses on developing innovative technologies to enhance geothermal energy extraction and super deep drilling. The selected student will play a key role in the design and modeling of novel technology.

Responsibilities:

Qualifications:

Preferred Qualifications:

Benefits:


Time Commitment:

1-2 months during Winter Quarter, with flexible scheduling to accommodate academic commitments.

To Apply:

Interested students should submit their resume/CV and a brief statement of interest (one paragraph) outlining their relevant skills and experience to johnfstrike@gmail.com. Please include “Geothermal Research Application” in the subject line. Review of applications will begin immediately and continue until the position is filled.

Electronics/PCB Development Undergraduate Internship Opportunity

Employment Period: Year-round

Location: On-campus

Approximate hours per week: 5+ hours

Duration: 6-24 months

Salary / Pay rate / Stipend: $20/hour

Relevant Websitehttps://www.edroplets.org/

Job description

Digital microfluidics is a technology that enables programmable control over individual droplets using electrical signals on a chip, which has been transforming wet labs towards the era of lab-on-a-chip. You will develop electronic control circuits for operating digital microfluidics chips. This is a highly engineering-oriented project, which requires independent schematic design, PCB layout design, PCB manufacturing, and assembly outsourcing for various circuits and electronic systems. You will also work with the mechanical design and software development team guided by graduate students to create multiple products. These products will be used by numerous digital microfluidics researchers and startups around the world through an open-source platform (edroplets.org).

For domestic students (US Citizen or Permanent Resident), the payment may be a stipend from the National Science Foundation (NSF) Research Experiences for Undergraduates (REU) program. 

For international students, the payment will be through a regular research fund.

For those who prefer research credits over stipends, SRP 99 or MAE 199 is also possible.

What you will get:

(1) You will experience creating a real-world electronic product for a transformative technology, which will be used by lots of real users!

(2) You will get hands-on experience and training in schematic/PCB/electronics design and development

(3) You will learn the basic knowledge and industry status of digital microfluidics, and participate in translating ground-breaking research into real-world products

(4) You may become a co-author of resulting journal and conference publications

Quality & skill desired:

(1) A strong and genuine interest in electronics is essential. If you are a DIYer who loves working with electronics and wants to build something impactful, this is a perfect project for you.

(2) Enjoy working in a team with different expertise is essential. The ability to articulate your work to non-technical team members is essential.

(3) Experience with Altium Designer, KiCAD or other PCB design software is a plus. Experience with LabView is a plus. Experience in making a PCB from design to manufacturing is a huge plus.

(4) No experience or knowledge of digital microfluidics is required

Interested? Please send your resume to Professor CJ Kim (cjkim@ucla.edu) and Leo Wang (wangqining265@gmail.com). If there’s a good match, you will be invited to an interview.

Newsletter Submissions

To be included in future newsletters, please send the latest news, awards, publications and any upcoming PhD oral defenses to the Chair’s assistant, Winda Mak, at wmak@seas.ucla.edu. Please include “newsletter submission” in the subject line. The ECE newsletters will be sent bimonthly on the first and third Mondays of the month. Please ensure all submissions are received by the Wednesday before distribution to be included in the newsletter.