• Title/Summary/Keyword: nanobiosensor

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Nanowell Array based Sensor and Its Packaging

  • Lee, JuKyung;Akira, Tsuda;Jeong, Myung Yung;Lee, Hea Yeon
    • Journal of the Microelectronics and Packaging Society
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    • v.21 no.3
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    • pp.19-24
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    • 2014
  • This article reviews the recent progress in nanowell array biosensors that use the label-free detection protocol, and are detected in their natural forms. These nanowell array biosensors are fabricated by nanofabrication technologies that should be useful for developing highly sensitive and selective also reproducible biosensors. Moreover, electrochemical method was selected as analysis method that has high sensitivity compared with other analysis. Finally, highly sensitive nanobiosensor was achieved by combining nanofabrication technologies and classical electrochemical method. Many examples are mentioned about the sensing performance of nanowell array biosensors will be evaluated in terms of sensitivity and detection limit compared with other micro-sized electrode without nanowell array.

Electrochemical Biosensors for U-Healthcare (유비쿼터스 헬스케어를 위한 전기화학 바이오센서)

  • Kim, Sang-Kyu;Chung, Bong-Hyun
    • Journal of Biomedical Engineering Research
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    • v.29 no.5
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    • pp.337-342
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    • 2008
  • To date, many researchers have developed a variety of biosensors to detect the biomolecular interactions. Recently, electrochemical biosensors have been attracting great interest as one of key technologies in a ubiquitous healthcare (U-healthcare) system since they are highly sensitive and feasible to miniaturize. Here we overview the current electrochemical biosensors based on strip-type, nanowire/nanotube, field effect transistor (FET), and nanogap electrode.

Introduction to research and current trend about nanopore-based nanobiosensor (나노포어 기반 나노바이어센서 기술)

  • Kim, Joo Hyoung;Youn, Yeoan;Lee, Choongman;Yoo, Kyung-Hwa
    • Vacuum Magazine
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    • v.2 no.1
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    • pp.4-9
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    • 2015
  • A nanopore is a very small hole that can be used as single-molecule detector. The detection principle is based on monitoring the ionic current reduced by passage of a molecule through the nanopore as a voltage is applied across the nanopore. Here, we introduce biological nanopores and solid-state nanopores. Then, research and current trend about nanopore-based DNA biosensor and protein analysis are reviewed.

Electrical Property of Immobilized SWNTs Bundle as Bridge between Electrodes in Nanobiosensor Depending on Solvent Characteristics (시료용액의 특성에 따른 고정화된 단일벽 탄소나노튜브의 전기적 거동)

  • Lee, Jinyoung;Cho, Jaehoon;Park, Chulhwan
    • Korean Chemical Engineering Research
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    • v.55 no.1
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    • pp.115-120
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    • 2017
  • In recent, it is worldwide issued that nanoscale science and technology as a solution have supported to increase the sensing performance in carbon nanotube based biosensor system. Containing material chemistry in various nanostructures has formed their high potentials for stabilizing and activating biocatalyst as a bioreceptor for medical, food contaminants, and environmental detections using electrode modification technologies. Especially, the large surface area provides the attachment of biocatalysts increasing the biocatalyst loading. Therefore, nano-scale engineering of the biocatalysts have been suggested to be the next stage advancement of biosensors. Here, we would like to study the electrical mechanism depending on the exposure methods (soaking or dropping) to the sample solution to the assembled carbon nanotubes (CNTs) on the gold electrodes of biosensor for a simple and highly sensitive detection. We performed various experiments using polar and non-polar solutions as sampling tests and identified electrical response of assembled CNTs in those solutions.

Nanobiotechnology (나노바이오 테크놀로지)

  • Park, Hyun Kyu;Chung, Bong Hyun
    • Korean Chemical Engineering Research
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    • v.44 no.1
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    • pp.10-15
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    • 2006
  • Nanobiotechnology has attracted increasing interest during the last 10 years. Particularly in the fields of medicine, drug discovery, and pharmacology, this area of research has opened up new perspectives in analytics and therapy. Nanobiotechnolgy is a typical interdisciplinary field of research, and is based on the cooperative work of biologists, chemists, physicists, engineers, and medical doctors. This review article describes recent research and development of nanobiotechnology including nanobioanalysis, nanobiochip/sensor and nanobiomaterials.

Direct Electrical Probing of Rolling Circle Amplification on Surface by Aligned-Carbon Nanotube Field Effect Transistor

  • Lee, Nam Hee;Ko, Minsu;Choi, Insung S.;Yun, Wan Soo
    • Bulletin of the Korean Chemical Society
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    • v.34 no.4
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    • pp.1035-1038
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    • 2013
  • Rolling circle amplification (RCA) of DNA on an aligned-carbon nanotube (a-CNT) surface was electrically interfaced by the a-CNT based filed effect transistor (FET). Since the electric conductance of the a-CNT will be dependent upon its local electric environment, the electric conductance of the FET is expected to give a very distinctive signature of the surface reaction along with this isothermal DNA amplification of the RCA. The a-CNT was initially grown on the quartz wafer with the patterned catalyst by chemical vapor deposition and transferred onto a flexible substrate after the formation of electrodes. After immobilization of a primer DNA, the rolling circle amplification was induced on chip with the a-CNT based FET device. The electric conductance showed a quite rapid increase at the early stage of the surface reaction and then the rate of increase was attenuated to reach a saturated stage of conductance change. It took about an hour to get the conductance saturation from the start of the conductance change. Atomic force microscopy was used as a complementary tool to support the successful amplification of DNA on the device surface. We hope that our results contribute to the efforts in the realization of a reliable nanodevice-based measurement of biologically or clinically important molecules.

Trends in Rapid Detection Methods for Marine Organism-derived Toxins (해양 생물 유래 독소의 나노 기술 기반 신속 진단법 개발 동향)

  • Park, Chan Yeong;Kweon, So Yeon;Moon, Sunhee;Kim, Min Woo;Ha, Sang-Do;Park, Jong Pil;Park, Tae Jung
    • Journal of Food Hygiene and Safety
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    • v.35 no.4
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    • pp.291-303
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    • 2020
  • Marine organism-derived toxins have negative effects not only on human health but also in aquaculture, fisheries, and marine ecosystems. However, traditional analytical methods are insufficient in preventing this threat. In this paper, we reviewed new rapid methods of toxin detection, which have been improved by adopting diverse types of nanomaterials and technologies. Moreover, we herein describe the main strategies for toxin detection and their related sensing performance. Notably, to popularize and commercialize these newly developed technologies, simplifying the process of pre-treating real samples real samples is very important. As part of these efforts, numerous studies have reported pretreatment methods based on the antibody-immobilized magnetic nanoparticles, and some cases have applied nanoparticles to enhance the sensing performance by utilizing the intrinsic catalytic activity. Furthermore, some reports have introduced fluorescent nanoparticles, such as quantum dots, to represent the lower detection limits of conventional enzyme-based colorimetric methods and lateral flow assays. Some studies using electrochemical measurements based on aptamer-nanoparticle complexes have also been announced. In addition, as the response to new toxins generated by changes in the marine environment is still lacking, further research on diagnostic and detection is also greatly needed for these kinds of marine toxins and their derivatives.