Hybrid-Free DNA Test by Band Engineering of Nitride Semiconductor and Machine Learning

Thi Anh Nguyet Nguyen; Fan Ching Chien; Thuy Doan Khanh Huynh; Huy Kim Nhat; Yu Chi Chiu; Hao Tsung Yang; Chen Yi Yu; Chih Ming Wang; Jian Zong Lai; Duy Thanh Cu; Chien Cheng Kuo; Kun Yu Lai

doi:10.1021/acsaelm.4c02220

Hybrid-Free DNA Test by Band Engineering of Nitride Semiconductor and Machine Learning

Thi Anh Nguyet Nguyen
, Fan Ching Chien
, Thuy Doan Khanh Huynh
, Huy Kim Nhat
, Yu Chi Chiu
, Hao Tsung Yang
, Chen Yi Yu
, Chih Ming Wang
, Jian Zong Lai
, Duy Thanh Cu
, Chien Cheng Kuo
, Kun Yu Lai

Research output: Contribution to journal › Article › peer-review

Abstract

Deoxyribonucleic acid (DNA) testing is a key step in personalized medical treatments. The technique often involves hybridization between complementary single DNA strands to identify the target gene. However, the formation of a hybrid DNA is slow. To capture the target quickly, we present a label-free hybrid-free DNA detection by surface-enhanced Raman spectroscopy (SERS), whose performances are boosted by InGaN quantum wells (QWs) and machine learning. This is realized by tuning the energy states of QWs, within which the confined electrons resonate with those vibrating on the oligonucleotide and the roughened aluminum (Al) surface. The QW-Al-DNA resonance promotes many minor SERS signals to the detectable level, allowing the machine to identify four distinct circulating tumor DNAs responsible for pancreatic, thyroid, lung, and breast cancers in 1 h.

Original language	English
Pages (from-to)	3255-3263
Number of pages	9
Journal	ACS Applied Electronic Materials
Volume	7
Issue number	8
DOIs	https://doi.org/10.1021/acsaelm.4c02220
State	Published - 22 Apr 2025

Keywords

DNA
GaN
machine learning
quantum well
surface-enhanced Raman spectroscopy

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1021/acsaelm.4c02220

Cite this

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title = "Hybrid-Free DNA Test by Band Engineering of Nitride Semiconductor and Machine Learning",

abstract = "Deoxyribonucleic acid (DNA) testing is a key step in personalized medical treatments. The technique often involves hybridization between complementary single DNA strands to identify the target gene. However, the formation of a hybrid DNA is slow. To capture the target quickly, we present a label-free hybrid-free DNA detection by surface-enhanced Raman spectroscopy (SERS), whose performances are boosted by InGaN quantum wells (QWs) and machine learning. This is realized by tuning the energy states of QWs, within which the confined electrons resonate with those vibrating on the oligonucleotide and the roughened aluminum (Al) surface. The QW-Al-DNA resonance promotes many minor SERS signals to the detectable level, allowing the machine to identify four distinct circulating tumor DNAs responsible for pancreatic, thyroid, lung, and breast cancers in 1 h.",

keywords = "DNA, GaN, machine learning, quantum well, surface-enhanced Raman spectroscopy",

author = "Nguyen, \{Thi Anh Nguyet\} and Chien, \{Fan Ching\} and Huynh, \{Thuy Doan Khanh\} and \{Kim Nhat\}, Huy and Chiu, \{Yu Chi\} and Yang, \{Hao Tsung\} and Yu, \{Chen Yi\} and Wang, \{Chih Ming\} and Lai, \{Jian Zong\} and Cu, \{Duy Thanh\} and Kuo, \{Chien Cheng\} and Lai, \{Kun Yu\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors. Published by American Chemical Society.",

year = "2025",

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day = "22",

doi = "10.1021/acsaelm.4c02220",

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TY - JOUR

T1 - Hybrid-Free DNA Test by Band Engineering of Nitride Semiconductor and Machine Learning

AU - Nguyen, Thi Anh Nguyet

AU - Chien, Fan Ching

AU - Huynh, Thuy Doan Khanh

AU - Kim Nhat, Huy

AU - Chiu, Yu Chi

AU - Yang, Hao Tsung

AU - Yu, Chen Yi

AU - Wang, Chih Ming

AU - Lai, Jian Zong

AU - Cu, Duy Thanh

AU - Kuo, Chien Cheng

AU - Lai, Kun Yu

PY - 2025/4/22

Y1 - 2025/4/22

N2 - Deoxyribonucleic acid (DNA) testing is a key step in personalized medical treatments. The technique often involves hybridization between complementary single DNA strands to identify the target gene. However, the formation of a hybrid DNA is slow. To capture the target quickly, we present a label-free hybrid-free DNA detection by surface-enhanced Raman spectroscopy (SERS), whose performances are boosted by InGaN quantum wells (QWs) and machine learning. This is realized by tuning the energy states of QWs, within which the confined electrons resonate with those vibrating on the oligonucleotide and the roughened aluminum (Al) surface. The QW-Al-DNA resonance promotes many minor SERS signals to the detectable level, allowing the machine to identify four distinct circulating tumor DNAs responsible for pancreatic, thyroid, lung, and breast cancers in 1 h.

AB - Deoxyribonucleic acid (DNA) testing is a key step in personalized medical treatments. The technique often involves hybridization between complementary single DNA strands to identify the target gene. However, the formation of a hybrid DNA is slow. To capture the target quickly, we present a label-free hybrid-free DNA detection by surface-enhanced Raman spectroscopy (SERS), whose performances are boosted by InGaN quantum wells (QWs) and machine learning. This is realized by tuning the energy states of QWs, within which the confined electrons resonate with those vibrating on the oligonucleotide and the roughened aluminum (Al) surface. The QW-Al-DNA resonance promotes many minor SERS signals to the detectable level, allowing the machine to identify four distinct circulating tumor DNAs responsible for pancreatic, thyroid, lung, and breast cancers in 1 h.

KW - DNA

KW - GaN

KW - machine learning

KW - quantum well

KW - surface-enhanced Raman spectroscopy

UR - https://www.scopus.com/pages/publications/105003552522

U2 - 10.1021/acsaelm.4c02220

DO - 10.1021/acsaelm.4c02220

M3 - 期刊論文

AN - SCOPUS:105003552522

SN - 2637-6113

VL - 7

SP - 3255

EP - 3263

JO - ACS Applied Electronic Materials

JF - ACS Applied Electronic Materials

IS - 8

ER -

Hybrid-Free DNA Test by Band Engineering of Nitride Semiconductor and Machine Learning

Abstract

Keywords

UN SDGs

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