Fabrication Method for Fused Multi-layer Amorphous Selenium Sensor


Amorphous selenium (a-Se) has been commercialized both as an optical sensor and direct x-ray detector, and a-Se with avalanche gain has also been proposed for use in an indirect x-ray detector. Advantages include the capability for large area deposition, avalanche multiplication of holes at electric fields (ESe) greater than 70 V/um, and monotonically increasing x-ray conversion gain with ESe. However, traditional a‑Se detectors suffer from image degradation due to electronic noise, and it is extremely expensive to decrease electronic noise from readout electronics. Noise dampening also has a limited effect. Consequently, there is a need for improved methods for fabricating a-Se-containing structures that can be incorporated into systems for optical and x-ray sensing where signal amplification can be realized prior to the introduction of electronic noise.


The developed sensor has multiple layers. The first layer forms a charge blocking layer over the first substrate. It then has a layer of a‑Se over the initial blocking layer, thus forming a second charge blocking layer from the electronic noise. These layers prevent electromagnetic waves from penetrating the imaging device, creating a more stable image.


-Higher image quality -More effective dampening range -More cost effective


-Imaging stabilizing -Medical devices -Cancer research -Radiation -Therapy -Clinical

Patent Status

Publication No.: US-2020-0354719-A1 and US-2021-0242415-A1 Patent application submitted

Stage Of Development


Licensing Potential

Licensing,Commercial partner,Development partner

Licensing Status

Available for licensing  

Additional Info


https://stonybrook.technologypublisher.com/files/sites/bprmolqtggf6m0prfasw_050-8858-optical_sensor-wikimedia-quesera4710-cc-by-sa-3.0.jpg Source: Wikimedia/QueSera4710, https://commons.wikimedia.org/wiki/File:Optical_Sensor.jpg, CC BY SA 3.0.
Patent Information:
Case ID: R8858
For Information, Contact:
James Martino
Licensing Specialist
State University of New York at Stony Brook
James Scheuermann
Wei Zhao