Search in:

Applied Spectroscopy Reviews Volume 54, 2019 - Issue 2

Submit an article Journal homepage

2,131

Views

CrossRef citations to date

Altmetric

Reviews

Microfluidic paper-based analytical devices with instrument-free detection and miniaturized portable detectors

Takashi KanetaDepartment of Chemistry, Graduate School of Natural Science and Technology, Okayama University, Okayama, JapanCorrespondence[email protected]

http://orcid.org/0000-0001-9076-3906 View further author information

Waleed AlahmadChemical Approaches for Food Applications Research Group, Faculty of Science, Chulalongkorn University, Bangkok, Thailand;Department of Chemistry, Faculty of Science, Chulalongkorn University, Bangkok, Thailand

http://orcid.org/0000-0003-1379-8755 View further author information

Pakorn VaranusupakulChemical Approaches for Food Applications Research Group, Faculty of Science, Chulalongkorn University, Bangkok, Thailand;Department of Chemistry, Faculty of Science, Chulalongkorn University, Bangkok, Thailand

http://orcid.org/0000-0001-6374-7804 View further author information

Pages 117-141 | Published online: 19 Apr 2018

Cite this article
https://doi.org/10.1080/05704928.2018.1457045
CrossMark

Full Article
Figures & data
References
Citations
Metrics
Reprints & Permissions

Citations (61)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (3)

Waleed Alahmad, Puttaruksa Varanusupakul & Pakorn Varanusupakul. (2023) Recent Developments and Applications of Microfluidic Paper-Based Analytical Devices for the Detection of Biological and Chemical Hazards in Foods: A Critical Review. Critical Reviews in Analytical Chemistry 53:2, pages 233-252.
Read now

Mike Hardy, Liam Kelleher, Paulo de Carvalho Gomes, Emma Buchan, Hin On Martin Chu & Pola Goldberg Oppenheimer. (2022) Methods in Raman spectroscopy for saliva studies – a review. Applied Spectroscopy Reviews 57:3, pages 177-233.
Read now

Shamraja S. Nadar, Pravin D. Patil, Manishkumar S. Tiwari & Dinesh J. Ahirrao. (2021) Enzyme embedded microfluidic paper-based analytic device (μPAD): a comprehensive review. Critical Reviews in Biotechnology 41:7, pages 1046-1080.
Read now

Articles from other publishers (58)

Heera Jayan, Limei Yin, Shanshan Xue, Xiaobo Zou & Zhiming Guo. (2024) Raman spectroscopy-based microfluidic platforms: A promising tool for detection of foodborne pathogens in food products. Food Research International 180, pages 114052.
Crossref

Waleed Alahmad, Ahmet Cetinkaya, S. Irem Kaya, Pakorn Varanusupakul & Sibel A. Ozkan. (2024) Molecularly imprinted polymer paper-based analytical devices for biomarkers detection. TrAC Trends in Analytical Chemistry 170, pages 117475.
Crossref

Tomas Rypar, Jaroslava Bezdekova, Kristyna Pavelicova, Milada Vodova, Vojtech Adam, Marketa Vaculovicova & Mirek Macka. (2024) Low-tech vs. high-tech approaches in μPADs as a result of contrasting needs and capabilities of developed and developing countries focusing on diagnostics and point-of-care testing. Talanta 266, pages 124911.
Crossref

Waleed Alahmad, Puttaraksa Varanusupakul, Ahmad Halabi & Pakorn Varanusupakul. 2024. Green Chemistry in Food Analysis. Green Chemistry in Food Analysis 191 219 .

Dênis Omael Silva Pereira, Mariana Mourão Matos & Alexandre Fonseca. (2023) Development of an image-based fluorometer with smartphone control for paper analytical devices. Analytical Methods 15:37, pages 4954-4963.
Crossref

Anastasios Economou, Christos Kokkinos, Leda Bousiakou & Tibor Hianik. (2023) Paper-Based Aptasensors: Working Principles, Detection Modes, and Applications. Sensors 23:18, pages 7786.
Crossref

Kaewta Danchana, Nayu Yamashita, Mika I. Umeda & Takashi Kaneta. (2023) Separation and fractionation of glutamic acid and histidine via origami isoelectric focusing. Journal of Chromatography A 1706, pages 464247.
Crossref

Manuel Gutiérrez-Capitán, Ana Sanchís, Estela O. Carvalho, Antonio Baldi, Lluïsa Vilaplana, Vanessa F. Cardoso, Álvaro Calleja, Mingxing Wei, Roberto de la Rica, Javier Hoyo, Arnau Bassegoda, Tzanko Tzanov, María-Pilar Marco, Senentxu Lanceros-Méndez & César Fernández-Sánchez. (2023) Engineering a Point-of-Care Paper-Microfluidic Electrochemical Device Applied to the Multiplexed Quantitative Detection of Biomarkers in Sputum. ACS Sensors 8:8, pages 3032-3042.
Crossref

Giacomo Musile, Cristian Grazioli, Stefano Fornasaro, Nicolò Dossi, Elio Franco De Palo, Franco Tagliaro & Federica Bortolotti. (2023) Application of Paper-Based Microfluidic Analytical Devices (µPAD) in Forensic and Clinical Toxicology: A Review. Biosensors 13:7, pages 743.
Crossref

Sripadh Guptha Yedire, Haleema Khan, Tamer AbdelFatah, Roozbeh Siavash Moakhar & Sara Mahshid. (2023) Microfluidic-based colorimetric nucleic acid detection of pathogens. Sensors & Diagnostics 2:4, pages 763-780.
Crossref

Andrea Gabriela Ochoa‐Ruiz, Guillermo Parra, Diego López‐Espinoza, Pablo Astudillo, Dmitry Galyamin, Neus Sabaté, Juan Pablo Esquivel & Alba Adriana Vallejo‐Cardona. (2022) Electrochemical Immunosensors: The Evolution from Elisa to EμPADs. Electroanalysis 35:4.
Crossref

Carlos Manzanas, Elise Morrison, Young S. Kim, Morteza Alipanah, George Adedokun, Shouguang Jin, Todd Z. Osborne & Z. Hugh Fan. (2023) Molecular testing devices for on-site detection of E. coli in water samples. Scientific Reports 13:1.
Crossref

Zhaoxin Geng, Yanrui Miao, Guling Zhang & Xiao Liang. (2023) Colorimetric biosensor based on smartphone: State-of-art. Sensors and Actuators A: Physical 349, pages 114056.
Crossref

Ouarda El Hani, Abdelhafid Karrat, Khalid Digua & Aziz Amine. (2023) Advanced molecularly imprinted polymer-based paper analytical device for selective and sensitive detection of Bisphenol-A in water samples. Microchemical Journal 184, pages 108157.
Crossref

Pedro Mesquita, Liyuan Gong & Yang Lin. (2022) Low-cost microfluidics: Towards affordable environmental monitoring and assessment. Frontiers in Lab on a Chip Technologies 1.
Crossref

Sadagopan Krishnan & Zia ul Quasim Syed. (2022) Colorimetric Visual Sensors for Point-of-needs Testing. Sensors and Actuators Reports 4, pages 100078.
Crossref

Waleed Alahmad, Nuttapat Pianarnupap, Thirawan Banjonglaksamee, Fatima Alabdo, Niluh Indria Wardani & Pakorn Varanusupakul. (2022) Purge and trap in-tube colorimetric detection method for the determination of ethanol in alcoholic and non-alcoholic beverages. Advances in Sample Preparation 4, pages 100043.
Crossref

Valentina Trovato, Silvia Sfameni, Giulia Rando, Giuseppe Rosace, Sebania Libertino, Ada Ferri & Maria Rosaria Plutino. (2022) A Review of Stimuli-Responsive Smart Materials for Wearable Technology in Healthcare: Retrospective, Perspective, and Prospective. Molecules 27:17, pages 5709.
Crossref

Xingyan Ye, Feng Zhang, Lan Yang, Weijuan Yang, Liaoyuan Zhang & Zongwen Wang. (2022) Paper-based multicolor sensor for on-site quantitative detection of 2,4-dichlorophenoxyacetic acid based on alkaline phosphatase-mediated gold nanobipyramids growth and colorimeter-assisted method for quantifying color. Talanta 245, pages 123489.
Crossref

Mariana C. C. G. Carneiro, Ligia R. Rodrigues, Felismina T. C. Moreira & Maria Goreti F. Sales. (2022) Colorimetric Paper-Based Sensors against Cancer Biomarkers. Sensors 22:9, pages 3221.
Crossref

Sasikarn Seetasang & Yan Xu. (2022) Recent progress and perspectives in applications of 2-methacryloyloxyethyl phosphorylcholine polymers in biodevices at small scales. Journal of Materials Chemistry B 10:14, pages 2323-2337.
Crossref

Zhongzeng Zhou, Jing Wang, Guanhua Li, Yanxia Chen, Tailin Xu & Xueji Zhang. (2022) Wireless USB-like electrochemical platform for individual electrochemical sensing in microdroplets. Analytica Chimica Acta 1197, pages 339526.
Crossref

Cormac D. Fay & Andrew Nattestad. (2022) LED PEDD Discharge Photometry: Effects of Software Driven Measurements for Sensing Applications. Sensors 22:4, pages 1526.
Crossref

Waleed Alahmad, Pakorn Varanusupakul & Takashi Kaneta. 2022. Paper-based Analytical Devices for Chemical Analysis and Diagnostics. Paper-based Analytical Devices for Chemical Analysis and Diagnostics 169 182 .

Kemilly M. P. Pinheiro, Thaisa A. Baldo, Lucas P. Bressan, José A. F. da Silva & Wendell K. T. Coltro. 2022. Tools and Trends in Bioanalytical Chemistry. Tools and Trends in Bioanalytical Chemistry 467 482 .

Ali Sahragard, Waleed Alahmad & Pakorn Varanusupakul. (2021) Electrocolorimetric gel-based sensing approach for simultaneous extraction, preconcentration, and detection of iodide and chromium (VI) ions. Talanta 235, pages 122715.
Crossref

Waleed Alahmad, Ali Sahragard & Pakorn Varanusupakul. (2021) Online and offline preconcentration techniques on paper-based analytical devices for ultrasensitive chemical and biochemical analysis: A review. Biosensors and Bioelectronics 194, pages 113574.
Crossref

Carlos Bendicho, Isela Lavilla, Francisco Pena-Pereira, Inmaculada de la Calle & Vanesa Romero. (2021) Paper-Based Analytical Devices for Colorimetric and Luminescent Detection of Mercury in Waters: An Overview. Sensors 21:22, pages 7571.
Crossref

Waleed Alahmad, Ali Sahragard & Pakorn Varanusupakul. (2021) An overview of the recent developments of microfluidic paper-based analytical devices for the detection of chromium species. Microchemical Journal 170, pages 106699.
Crossref

Giacomo Musile, Yvane Agard, Ling Wang, Elio Franco De Palo, Bruce McCord & Franco Tagliaro. (2021) Paper-based microfluidic devices: On-site tools for crime scene investigation. TrAC Trends in Analytical Chemistry 143, pages 116406.
Crossref

Marziyeh Hajialyani, Leila Hosseinzadeh & Jie Jayne Wu. (2021) Microfluidics-Integrated Sensors toward Rapid Detection of Single Nucleotide Variations. ACS Omega 6:38, pages 24297-24303.
Crossref

Shashi Ranjan, Surbhi Jain, Arpit Bhargava, Ruchita Shandilya, Rupesh Kumar Srivastava & Pradyumna Kumar Mishra. (2021) Lateral flow assay-based detection of long non-coding RNAs: A point-of-care platform for cancer diagnosis. Journal of Pharmaceutical and Biomedical Analysis 204, pages 114285.
Crossref

Nutnaree Fukana, Thitaporn Sonsa-ard, Nattapong Chantipmanee, Peter C. Hauser, Prapin Wilairat & Duangjai Nacapricha. (2021) Contactless conductivity sensor as detector for microfluidic paper-based analytical device with application to unique rapid method for quantifying sulfite preservative. Sensors and Actuators B: Chemical 339, pages 129838.
Crossref

Hitoshi ASANO, Taishiro MAEDA & Yukihide SHIRAISHI. (2021) Sensitive Determination of Hexavalent Chromium Using a Microfluidic Paper-based Analytical Device with Solid Phase Extraction固相抽出による前濃縮を利用したマイクロペーパー分析デバイスによる六価クロムの高感度分析. BUNSEKI KAGAKU 70:6, pages 379-383.
Crossref

Luis Cuadros-Rodríguez, Ana M. Jiménez-Carvelo & M.D. Fernández-Ramos. (2021) Multivariate thinking for optical microfluidic analytical devices – A tutorial review. Microchemical Journal 164, pages 105959.
Crossref

Akram Hajinia & Tahereh Heidari. (2021) Sensitive fluorometric determination of gold in geological samples using fire assay pre-concentration coupled with microfluidic paper-based analytical device. Microchemical Journal 164, pages 105923.
Crossref

Hikmanita Lisan Nashukha, Jirayu Sitanurak, Hermin Sulistyarti, Duangjai Nacapricha & Kanchana Uraisin. (2021) Simple and Equipment-Free Paper-Based Device for Determination of Mercury in Contaminated Soil. Molecules 26:7, pages 2004.
Crossref

Hojat Heidari-Bafroui, Brenno Ribeiro, Amer Charbaji, Constantine Anagnostopoulos & Mohammad Faghri. (2021) Portable infrared lightbox for improving the detection limits of paper-based phosphate devices. Measurement 173, pages 108607.
Crossref

Carlos Bendicho, Isela Lavilla, Francisco Pena-Pereira, Inmaculada de la Calle & Vanesa Romero. (2021) Nanomaterial-Integrated Cellulose Platforms for Optical Sensing of Trace Metals and Anionic Species in the Environment. Sensors 21:2, pages 604.
Crossref

Ji QI, Xin-Xia FAN, Dong-Mei DENG, Hai-Bo HE & Li-Qiang LUO. (2020) Progress in Rapid Detection Techniques Using Paper-Based Platforms for Food Safety. Chinese Journal of Analytical Chemistry 48:12, pages 1616-1624.
Crossref

Reşat Apak, Sema Demirci Çekiç, Ayşem Üzer, Esra Çapanoğlu, Saliha Esin Çelik, Mustafa Bener, Ziya Can & Selen Durmazel. (2020) Colorimetric sensors and nanoprobes for characterizing antioxidant and energetic substances. Analytical Methods 12:44, pages 5266-5321.
Crossref

Maria Fernanda M. Ribeiro, Fátima Bento, Antônio J. Ipólito & Marcelo F. de Oliveira. (2020) Development of a Pencil Drawn Paper‐based Analytical Device to Detect Lysergic Acid Diethylamide (LSD)*†. Journal of Forensic Sciences 65:6, pages 2121-2128.
Crossref

Vahid Hamedpour, Paolo Oliveri, Cristina Malegori & Tsuyoshi Minami. (2020) Development of a morphological color image processing algorithm for paper-based analytical devices. Sensors and Actuators B: Chemical 322, pages 128571.
Crossref

Truong Thi Thuy, Mirkomil Sharipov, Youngil Lee, Bui The Huy & Yong‐Ill Lee. (2020) Inkjet‐based microreactor for the synthesis of silver nanoparticles on plasmonic paper decorated with chitosan nano‐wrinkles for efficient on‐site Surface‐enhanced Raman Scattering (SERS). Nano Select 1:5, pages 499-509.
Crossref

Mansoor Arvand, Nima Arjmandi, Mehdi Shakibaie, Somayeh Jafarinejad, Reza Shahghadami & Pezhman Sasanpour. (2020) Colorimetric microfluidic paper-based sensor for determination of nitrite in drinking water with enhanced color development. Journal of Physics D: Applied Physics 53:35, pages 355403.
Crossref

Tugba Ozer, Catherine McMahonCharles S. Henry. (2020) Advances in Paper-Based Analytical Devices. Annual Review of Analytical Chemistry 13:1, pages 85-109.
Crossref

Zedong Li, Minli You, Yuemeng Bai, Yan Gong & Feng Xu. (2019) Equipment‐Free Quantitative Readout in Paper‐Based Point‐of‐Care Testing. Small Methods 4:4.
Crossref

Hadi Tabani, Kamal Khodaei, Pakorn Varanusupakul & Michal Alexovič. (2020) Gel electromembrane extraction: Study of various gel types and compositions toward diminishing the electroendosmosis flow. Microchemical Journal 153, pages 104520.
Crossref

Manuel Gutiérrez-Capitán, Antonio Baldi & César Fernández-Sánchez. (2020) Electrochemical Paper-Based Biosensor Devices for Rapid Detection of Biomarkers. Sensors 20:4, pages 967.
Crossref

Douglas J. Klapec, Greg Czarnopys & Julie Pannuto. (2020) Interpol review of detection and characterization of explosives and explosives residues 2016-2019. Forensic Science International: Synergy 2, pages 670-700.
Crossref

Orawon Chailapakul, Weena Siangproh, Sakda Jampasa, Sudkate Chaiyo, Prinjaporn Teengam, Abdulhadee Yakoh & Chanika Pinyorospathum. 2020. Paper Based Sensors. Paper Based Sensors 31 62 .

Hadi Tabani, Farzaneh Dorabadi Zare, Waleed Alahmad & Pakorn Varanusupakul. (2019) Determination of Cr(III) and Cr(VI) in water by dual-gel electromembrane extraction and a microfluidic paper-based device. Environmental Chemistry Letters 18:1, pages 187-196.
Crossref

Waleed Alahmad, Puttaruksa Varanusupakul, Takashi Kaneta & Pakorn Varanusupakul. (2019) Chromium speciation using paper-based analytical devices by direct determination and with electromembrane microextraction. Analytica Chimica Acta 1085, pages 98-106.
Crossref

Sandeep Kumar, Monika Nehra, Jyotsana Mehta, Neeraj Dilbaghi, Giovanna Marrazza & Ajeet Kaushik. (2019) Point-of-Care Strategies for Detection of Waterborne Pathogens. Sensors 19:20, pages 4476.
Crossref

Tuchpongpuch Boonpoempoon, Wanida Wonsawat & Takashi Kaneta. (2019) Long-term stabilization of hydrogen peroxide by poly(vinyl alcohol) on paper-based analytical devices. Scientific Reports 9:1.
Crossref

Yuki Hashimoto & Takashi Kaneta. (2019) Chromatographic paper-based analytical devices using an oxidized paper substrate. Analytical Methods 11:2, pages 179-184.
Crossref

Waleed Alahmad, Nuttanee Tungkijanansin, Takashi Kaneta & Pakorn Varanusupakul. (2018) A colorimetric paper-based analytical device coupled with hollow fiber membrane liquid phase microextraction (HF-LPME) for highly sensitive detection of hexavalent chromium in water samples. Talanta 190, pages 78-84.
Crossref

Anastasios Economou, Christos Kokkinos & Mamas Prodromidis. (2018) Flexible plastic, paper and textile lab-on-a chip platforms for electrochemical biosensing. Lab on a Chip 18:13, pages 1812-1830.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.

People also read
Recommended articles
Cited by

To cite this article:

Reference style: APA Chicago Harvard

Citation copied to clipboard

Reference styles above use APA (6th edition), Chicago (16th edition) & Harvard (10th edition)

Download citation

Download a citation file in RIS format that can be imported by citation management software including EndNote, ProCite, RefWorks and Reference Manager.

Choose format: RIS BibTex RefWorks Direct Export

Choose options: Citation Citation & abstract Citation & references

Microfluidic paper-based analytical devices with instrument-free detection and miniaturized portable detectors

Articles from other publishers (58)

Information for

Open access

Opportunities

Help and information

Your download is now in progress and you may close this window

Login or register to access this feature

Microfluidic paper-based analytical devices with instrument-free detection and miniaturized portable detectors

Citations (61)

Read on this site (3)

Articles from other publishers (58)

Reprints and Corporate Permissions

Academic Permissions

Related research

To cite this article:

Download citation

Information for

Open access

Opportunities

Help and information

Keep up to date