Ali Javey (Advisor)

Research Advised by Professor Ali Javey

Javey Group:  List of Projects | List of Researchers

Shiekh Zia Uddin Receives the 2022 MRS Graduate Student Gold Award

May 1, 2022

Please join BSAC in congratulating Shiekh Zia Uddin of the Javey group on being awarded the 2022 Materials Research Society (MRS) Graduate Student Gold Award.

The MRS Award recognizes "students of exceptional ability who show promise for significant future achievement in materials research." Uddin works in the areas of photophysics and optoelectronics of low dimensional semiconductors, with a focus on the photophysics of low-dimensional excitonic materials. He was honored for research...

Kyeongjae Byeon

Visiting Scholar Researcher
Electrical Engineering and Computer Sciences
Professor Ali Javey (Advisor)
VSR 2024 to present

Taehoon Kim

Postdoctoral Researcher
Electrical Engineering and Computer Sciences
Professor Ali Javey (Advisor)
PostDoc 2024 to present

Yifei Zhan

Graduate Student Researcher
Electrical Engineering and Computer Sciences
Professor Ali Javey (Advisor)
Ph.D. 2029 (Anticipated)

BPNX1025: In-Sensor Visible to Mid-Infrared Spectral Machine Vision

Dehui Zhang
Jamie Geng
Shifan Wang
Hyong Min Kim
2024

Multispectral and hyperspectral imaging are important optical inspection technologies. They collect the spatial and spectral information of the incidental light into 3D hypercubes, which can be post-processed into material and structural mapping of the scene. However, acquiring and analyzing the 3D hypercubes set great challenges in data collection, transportation, storage, and computation. The much higher energy, bandwidth, and memory budgets limit the implementation of high-speed, high-resolution hyperspectral imaging to achieve intelligent machine vision. This project introduces an...

Shifan Wang

Visiting Scholar Researcher
Electrical Engineering and Computer Sciences
Professor Ali Javey (Advisor)
Ph.D. 2024 (Anticipated)

BPNX1031: Scalable Infrared Photodetectors based on Large-Grain Tellurium Film (New Project)

Hyong Min Kim
Naoki Higashitarumizu
2024

Tellurium is a narrow-gap, p-type semiconductor with promising potential for future electronic and optoelectronic devices. Te’s band gap can be tuned from 0.31 eV in bulk form to 1.04 eV in monolayer form. Unlike many other competing 2D semiconductors, Te is air-stable and can be deposited on a substrate of choice by thermal evaporation or solution synthesis. Photodetectors based on solution-synthesized Te nanoflakes have already been demonstrated, with specific detectivity in near-IR at or above 10^9 Jones. However, solution-synthesis of Te nanoflakes is not scalable, and...

BPN971: High-Efficiency Ink-Based Mid-IR LEDs and Photodetectors

Theodorus Jonathan Wijaya
Naoki Higashitarumizu
Shogo Tajima
Shifan Wang
Hyong Min Kim
Dehui Zhang
Shu Wang
Kyuho Lee
2024

Midwave infrared (MWIR) is significant for applications such as sensing, imaging, and spectroscopy. Traditional materials in this wavelength range, III-V and II-VI semiconductors, has poor performance due to their high Auger recombination rate and large dark currents. Due to the better properties of black phosphorus (BP) such as its low Auger recombination coefficient, BP-based mid-infrared light emitters and detectors have shown to outperform the state-of-the-art commercial devices. However, the scalability of these devices remains questionable because of the limitations of...

BPNX1028: Large Scale Synthesis of Optically Active Tellurium-Based Material (New Project)

Shu Wang
Naoki Higashitarumizu
2024

Large-scale growth of high-quality semiconductors, the active component of devices, is the foundation of modern electronics. Recently, tellurium (Te) was identified as a promising material for optoelectronics due to its appealing optical properties and potential low-temperature wafer-scale production. In this project, we will develop a new method for controlled and scalable production of optically active tellurium.

Project is currently funded by: Federal