Ultralow-Power and Miniaturized X‑ray Sensor Using the Single-Walled Carbon Nanotube Micro Network-Based Geiger Counter Design

Ultralow-Power and Miniaturized X‑ray Sensor Using the Single-Walled Carbon Nanotube Micro Network-Based Geiger Counter Design

We present an ultralow-power, highly sensitive, and miniaturized X-ray sensor with micropatterned single-walled carbon nanotube (SWCNT) interdigitated networks inspired by the Geiger-Mueller counter design. Due to the unique nanostructured surface and superb electronic transport nature of assembled...

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Published in:ACS applied electronic materials Vol. 4; no. 10; pp. 4823 - 4830
Main Authors: Kim, Hyehee, Li, Jianlin, Childress, Anthony, Seo, Juyeon, Bathalavaram, Poornaprakash, Busnaina, Ahmed, Moon, Sung-Hyun, Boo, Jihwan, Choi, Hak Soo, Kim, Geehyun, Kim, Young Lae, Jung, Yung Joon
Format: Journal Article
Language:English
Published: American Chemical Society 25-10-2022
Subjects:
X-ray profiling
SWCNT micro Geiger counter
real-time X-ray detector
instant recovery time
ultralow-power consumption
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Abstract We present an ultralow-power, highly sensitive, and miniaturized X-ray sensor with micropatterned single-walled carbon nanotube (SWCNT) interdigitated networks inspired by the Geiger-Mueller counter design. Due to the unique nanostructured surface and superb electronic transport nature of assembled SWCNTs, a strong electric field is formed between and within highly organized SWCNT interdigitated electrodes, which effectively separates electrons and ionized ions created by incident X-rays into electrodes, facilitating electron detection. As a result, the device can detect a low X-ray dose rate (9.97 μGy·s–1) with an extremely low power consumption of 80–90 fW, demonstrating a sensitivity of up to 203.96 μC·Gy–1·cm–2. Furthermore, the interdigitated SWCNT electrode design produces a low noise level in the picoampere range, permitting exceptional real-time signal detection during X-ray exposure. These unique features of our SWCNT X-ray sensing device enable various low SWaP (size, weight, and power) radiation detectors in the fields of medicine, homeland security, and defense.
AbstractList We present an ultralow-power, highly sensitive, and miniaturized X-ray sensor with micropatterned single-walled carbon nanotube (SWCNT) interdigitated networks inspired by the Geiger-Mueller counter design. Due to the unique nanostructured surface and superb electronic transport nature of assembled SWCNTs, a strong electric field is formed between and within highly organized SWCNT interdigitated electrodes, which effectively separates electrons and ionized ions created by incident X-rays into electrodes, facilitating electron detection. As a result, the device can detect a low X-ray dose rate (9.97 μGy·s–1) with an extremely low power consumption of 80–90 fW, demonstrating a sensitivity of up to 203.96 μC·Gy–1·cm–2. Furthermore, the interdigitated SWCNT electrode design produces a low noise level in the picoampere range, permitting exceptional real-time signal detection during X-ray exposure. These unique features of our SWCNT X-ray sensing device enable various low SWaP (size, weight, and power) radiation detectors in the fields of medicine, homeland security, and defense.
Author Childress, Anthony
Seo, Juyeon
Bathalavaram, Poornaprakash
Choi, Hak Soo
Kim, Hyehee
Kim, Geehyun
Li, Jianlin
Boo, Jihwan
Moon, Sung-Hyun
Busnaina, Ahmed
Kim, Young Lae
Jung, Yung Joon
AuthorAffiliation Massachusetts General Hospital and Harvard Medical School
Department of Nuclear Engineering
Gordon Center for Medical Imaging, Department of Radiology
Department of Energy Systems Engineering
Department of Electronic Engineering
Department of Mechanical and Industrial Engineering
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– name: Gordon Center for Medical Imaging, Department of Radiology
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Title Ultralow-Power and Miniaturized X‑ray Sensor Using the Single-Walled Carbon Nanotube Micro Network-Based Geiger Counter Design
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