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Aerosol Science and Technology Volume 47, 2013 - Issue 5
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Original Articles

Investigation of a New Electrostatic Sampler for Concentrating Biological and Non-Biological Aerosol Particles

Jean-Maxime Roux Departement of Microtechnology for Biology and Health, CEA Grenoble, Grenoble, France
,
Oliver Kaspari Centre for Biological Security, Robert Koch-Institute, Berlin, Germany
,
Renate Heinrich Centre for Biological Security, Robert Koch-Institute, Berlin, Germany
,
Nicole Hanschmann Centre for Biological Security, Robert Koch-Institute, Berlin, Germany
&
Roland Grunow Centre for Biological Security, Robert Koch-Institute, Berlin, Germany
Pages 463-471 | Received 01 Aug 2012, Accepted 13 Dec 2012, Published online: 28 Jan 2013

Citations (24)

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Gediminas Mainelis. (2020) Bioaerosol sampling: Classical approaches, advances, and perspectives. Aerosol Science and Technology 54:5, pages 496-519.
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Lipeng Su, Qian Du, Yide Wang, Heming Dong, Jianmin Gao, Min Wang & Peng Dong. (2018) Purification characteristics of fine particulate matter treated by a self-flushing wet electrostatic precipitator equipped with a flexible electrode. Journal of the Air & Waste Management Association 68:7, pages 725-736.
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Taewon Han, Donna Fennell & Gediminas Mainelis. (2015) Development and Optimization of the Electrostatic Precipitator with Superhydrophobic Surface (EPSS) Mark II for Collection of Bioaerosols. Aerosol Science and Technology 49:4, pages 210-219.
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Articles from other publishers (21)

Xinyue Zhou, Xin Liu, Haiyang Zhao, Guanqi Guo, Xiran Jiang, Shuo Liu, Xiaoting Sun & Huazhe Yang. (2024) Research advances in microfluidic collection and detection of virus, bacterial, and fungal bioaerosols. Microchimica Acta 191:3.
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Afagh Rastmanesh, Jayanta S. Boruah, Min-Seok Lee & Seungkyung Park. (2024) On-Site Bioaerosol Sampling and Airborne Microorganism Detection Technologies. Biosensors 14:3, pages 122.
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Bilal Sajjad, Sabir Hussain, Kashif Rasool, Mujtaba Hassan & Fares Almomani. (2023) Comprehensive insights into advances in ambient bioaerosols sampling, analysis and factors influencing bioaerosols composition. Environmental Pollution 336, pages 122473.
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Kyohei Fukuda, Hiroaki Baba, Mie Yoshida, Kouichi Kitabayashi, Shinjirou Katsushima, Hiroki Sonehara, Kazue Mizuno, Hajime Kanamori, Koichi Tokuda, Atsuhiro Nakagawa & Akira Mizuno. (2023) Novel Virus Air Sampler Based on Electrostatic Precipitation and Air Sampling of SARS-CoV-2. Microorganisms 11:4, pages 944.
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Sani Sambo Datsugwai Mohammed & Tochukwu Vincent Balogu. 2023. Aeromicrobiology. Aeromicrobiology 89 116 .
Taewon T. Han, Nirmala T. Myers, Sydonia Manibusan & Gediminas Mainelis. (2022) Development and optimization of Stationary Electrostatic Bioaerosol Sampler (SEBS) for viable and culturable airborne microorganisms. Journal of Aerosol Science 162, pages 105951.
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Seongkyeol Hong, Myeong-Woo Kim & Jaesung Jang. (2021) Physical collection and viability of airborne bacteria collected under electrostatic field with different sampling media and protocols towards rapid detection. Scientific Reports 11:1.
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Prakriti Sharma Ghimire, Lekhendra Tripathee, Pengfei Chen & Shichang Kang. (2019) Linking the conventional and emerging detection techniques for ambient bioaerosols: a review. Reviews in Environmental Science and Bio/Technology 18:3, pages 495-523.
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Suthyvann Sor, Rafael Bardera, Adelaida Garcia-Magariño, Elena Gonzalez & Ángeles Aguilera. (2019) Characterization of an electrostatic filter prototype for bioaerosol flowmetering for INTA Investigation Aerial Platforms. Flow Measurement and Instrumentation 68, pages 101586.
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Van Thanh Dau, Thien Xuan Dinh, Canh-Dung Tran, Tibor Terebessy, Trinh Chu Duc & Tung Thanh Bui. (2018) Particle precipitation by bipolar corona discharge ion winds. Journal of Aerosol Science 124, pages 83-94.
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Tung Thanh Bui, Thien Xuan Dinh, Canh-Dung Tran, Trinh Chu Duc & Van Thanh Dau. (2017) Computational and experimental study on ion wind scheme based aerosol sampling for biomedical applications. Computational and experimental study on ion wind scheme based aerosol sampling for biomedical applications.
Tiina Reponen. 2017. Exposure to Microbiological Agents in Indoor and Occupational Environments. Exposure to Microbiological Agents in Indoor and Occupational Environments 85 96 .
Seongkyeol Hong, Jyoti Bhardwaj, Chang-Ho Han & Jaesung Jang. (2016) Gentle Sampling of Submicrometer Airborne Virus Particles using a Personal Electrostatic Particle Concentrator. Environmental Science & Technology 50:22, pages 12365-12372.
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T.G. Foat, W.J. Sellors, M.D. Walker, P.A. Rachwal, J.W. Jones, D.D. Despeyroux, L. Coudron, I. Munro, D.K. McCluskey, C.K.L. Tan & M.C. Tracey. (2016) A prototype personal aerosol sampler based on electrostatic precipitation and electrowetting-on-dielectric actuation of droplets. Journal of Aerosol Science 95, pages 43-53.
Crossref
Zengshuai Ma, Yunhao Zheng, Yinuo Cheng, Shuai Xie, Xiongying Ye & Maosheng Yao. (2016) Development of an integrated microfluidic electrostatic sampler for bioaerosol. Journal of Aerosol Science 95, pages 84-94.
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J. M. Roux, R. Sarda-Estève, G. Delapierre, M. H. Nadal, C. Bossuet & L. Olmedo. (2015) Development of a new portable air sampler based on electrostatic precipitation. Environmental Science and Pollution Research 23:9, pages 8175-8183.
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Jean-Maxime Roux, Anaëlle Rongier & Dorothée Jary. (2015) Importance of the substrate nature to preserve microorganisms' cultivability in electrostatic air samplers. Journal of Physics: Conference Series 646, pages 012039.
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Maimaitireyimu Wubulihairen, Xiaoying Lu, Patrick K.H. Lee & Zhi Ning. (2015) Development and laboratory evaluation of a compact swirling aerosol sampler (SAS) for collection of atmospheric bioaerosols. Atmospheric Pollution Research 6:4, pages 556-561.
Crossref
Ji-Woon Park, Chul Woo Park, Sung Hwa Lee & Jungho Hwang. (2015) Fast Monitoring of Indoor Bioaerosol Concentrations with ATP Bioluminescence Assay Using an Electrostatic Rod-Type Sampler. PLOS ONE 10:5, pages e0125251.
Crossref
Elio Quinton, Jean-Luc Achard & Jean-Maxime Roux. (2013) Ionic wind generator derived from a liquid filled capillary pin. Application to particle capture. Journal of Electrostatics 71:6, pages 963-969.
Crossref
Quentin Lancereau, Jean-Maxime Roux & Jean-Luc Achard. (2013) Influence of secondary flows on the collection efficiency of a cylindrical electrostatic precipitator. Journal of Aerosol Science 63, pages 146-160.
Crossref

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