Analytical Sciences


Cover image of volume 34, number 1

Volume 34, Number 1 (2018)

Cover illustration of this month"Microfluidic Paper-based Analytical Device for Quantification of Lead Using Reaction Band-length for Identification of Bullet Hole and Its Potential for Estimating Firing Distance" by Supatana BUKING, Phoonthawee SAETEAR, Warawut TIYAPONGPATTANA, Kanchana URAISIN, Prapin WILAIRAT, Duangjai NACAPRICHA, and Nuanlaor RATANAWIMARNWONG (p.83). See larger image


Hot Articles − Volume 34, Number 1 (2018)

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Detection of Chlorine in a Non-aqueous Solution via Anodic Oxidation and a Photochemical Reaction
Shogo NAKAGAWA, Hajime NISHIMURA, and Fumihiro KODERA
Keywords: Chlorine, anodic oxidation, photochemical reaction, non-aqueous solution, solvation
Analytical Sciences, 2018, 34(1), 1.
DOI: 10.2116/analsci.34.1, JOI: JST.JSTAGE/analsci/34.1

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Wax-Assisted One-Step Enzyme-Linked Immunosorbent Assay on Lateral Flow Test Devices
Masanori ISHII, Pattarachaya PREECHAKASEDKIT, Kentaro YAMADA, Orawon CHAILAPAKUL, Koji SUZUKI, and Daniel CITTERIO
Keywords: Lateral flow immunoassay, ELISA, wax printing, sequential reagent delivery, signal amplification
Analytical Sciences, 2018, 34(1), 51.
DOI: 10.2116/analsci.34.51, JOI: JST.JSTAGE/analsci/34.51

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Microfluidic Paper-based Analytical Device for Quantification of Lead Using Reaction Band-length for Identification of Bullet Hole and Its Potential for Estimating Firing Distance
Supatana BUKING, Phoonthawee SAETEAR, Warawut TIYAPONGPATTANA, Kanchana URAISIN, Prapin WILAIRAT, Duangjai NACAPRICHA, and Nuanlaor RATANAWIMARNWONG
Keywords: Microfluidic paper-based analytical device, μPAD, distance-based μPAD, reaction band-length μPAD, gunshot residue, lead, rhodizonate, bullet hole, firing distance, fabric
Analytical Sciences, 2018, 34(1), 83.
DOI: 10.2116/analsci.34.83, JOI: JST.JSTAGE/analsci/34.83


Table of Contents − Volume 34, Number 1 (2018)

Rapid Communications

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Detection of Chlorine in a Non-aqueous Solution via Anodic Oxidation and a Photochemical Reaction
Shogo NAKAGAWA, Hajime NISHIMURA, and Fumihiro KODERA
Keywords: Chlorine, anodic oxidation, photochemical reaction, non-aqueous solution, solvation
Analytical Sciences, 2018, 34(1), 1.
DOI: 10.2116/analsci.34.1, JOI: JST.JSTAGE/analsci/34.1
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Special Issue: Paper-based Analytical Devices

Guest Editorial

“Paper-based Analytical Devices”
Daniel Citterio, and Takashi Kaneta
Analytical Sciences, 2018, 34(1), 5.
DOI: 10.2116/analsci.34.5, JOI: JST.JSTAGE/analsci/34.5

Reviews

Trends in Paper-based Electrochemical Biosensors: From Design to Application
Vivian Bee Chin LEE, Noor Faizah MOHD-NAIM, Eiichi TAMIYA, and Minhaz Uddin AHMED
Keywords: Paper-based device, electrochemical detection, biosensor, nanomaterials, 3D origami, 2D sensor, 3D sensor
Analytical Sciences, 2018, 34(1), 7.
DOI: 10.2116/analsci.34.7, JOI: JST.JSTAGE/analsci/34.7
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Nanomaterial-functionalized Cellulose: Design, Characterization and Analytical Applications
Kevin A. KIRK, Ali OTHMAN, and Silvana ANDREESCU
Keywords: Cellulose paper, nanoparticles, portable sensors, printable paper sensors, optimization, validation
Analytical Sciences, 2018, 34(1), 19.
DOI: 10.2116/analsci.34.19, JOI: JST.JSTAGE/analsci/34.19
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Original Papers

Paper-like Surface Microstructure Fabricated on a Polymer Surface by Femtosecond Laser Machining
Kenji GOYA and Yusuke FUCHIWAKI
Keywords: Paper-like microstructure, flow control, flow rate, laser machining
Analytical Sciences, 2018, 34(1), 33.
DOI: 10.2116/analsci.34.33, JOI: JST.JSTAGE/analsci/34.33
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Characteristics of Microfluidic Paper-based Analytical Devices Fabricated by Four Different Methods
Takeshi KOMATSU, Masatoshi MAEKI, Akihiko ISHIDA, Hirofumi TANI, and Manabu TOKESHI
Keywords: Paper-based analytical devices, photolithography, wax printing, screen printing, craft cutting
Analytical Sciences, 2018, 34(1), 39.
DOI: 10.2116/analsci.34.39, JOI: JST.JSTAGE/analsci/34.39
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Detection and Quantification of Polyquaterniums via Polyion-Sensitive Ion-Selective Optodes Inkjet Printed on Cellulose Paper
Stephen A. FERGUSON, Xuewei WANG, Mollie MAHONEY, and Mark E. MEYERHOFF
Keywords: Polyquaternium, polyion, optode, polyelectrolyte, colorimetry, hue, titration, swimming pool water
Analytical Sciences, 2018, 34(1), 45.
DOI: 10.2116/analsci.34.45, JOI: JST.JSTAGE/analsci/34.45
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Wax-Assisted One-Step Enzyme-Linked Immunosorbent Assay on Lateral Flow Test Devices
Masanori ISHII, Pattarachaya PREECHAKASEDKIT, Kentaro YAMADA, Orawon CHAILAPAKUL, Koji SUZUKI, and Daniel CITTERIO
Keywords: Lateral flow immunoassay, ELISA, wax printing, sequential reagent delivery, signal amplification
Analytical Sciences, 2018, 34(1), 51.
DOI: 10.2116/analsci.34.51, JOI: JST.JSTAGE/analsci/34.51
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Practical High-Performance Lateral Flow Assay Based on Autonomous Microfluidic Replacement on a Film
Yusuke FUCHIWAKI, Kenji GOYA, and Masato TANAKA
Keywords: Lateral flow, autonomous microfluidic, point-of-care, C-reactive protein, ELISA
Analytical Sciences, 2018, 34(1), 57.
DOI: 10.2116/analsci.34.57, JOI: JST.JSTAGE/analsci/34.57
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Highly Sensitive Paper-based Analytical Devices with the Introduction of a Large-Volume Sample via Continuous Flow
Yuhi SHIMADA and Takashi KANETA
Keywords: Paper-based analytical device, continuous flow, distance-based detection, natural water, iron
Analytical Sciences, 2018, 34(1), 65.
DOI: 10.2116/analsci.34.65, JOI: JST.JSTAGE/analsci/34.65
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Microfluidic Paper-based Analytical Device for the Determination of Hexavalent Chromium by Photolithographic Fabrication Using a Photomask Printed with 3D Printer
Hitoshi ASANO and Yukihide SHIRAISHI
Keywords: Paper-based analytical device, microfluidics, hexavalent chromium, 3D printer, photolithography, colorimetry, RGB color
Analytical Sciences, 2018, 34(1), 71.
DOI: 10.2116/analsci.34.71, JOI: JST.JSTAGE/analsci/34.71
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Use of a Smartphone as a Colorimetric Analyzer in Paper-based Devices for Sensitive and Selective Determination of Mercury in Water Samples
Purim JARUJAMRUS, Rattapol MEELAPSOM, Somkid PENCHAREE, Apinya OBMA, Maliwan AMATATONGCHAI, Nadh DITCHAROEN, Sanoe CHAIRAM, and Suparb TAMUANG
Keywords: Mercury, silver nanoparticles, smartphone, RGB system, ImageJ, microfluidic paper-based analytical device, cold vapor atomic absorption spectrophotometry, CV-AAS
Analytical Sciences, 2018, 34(1), 75.
DOI: 10.2116/analsci.34.75, JOI: JST.JSTAGE/analsci/34.75
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hot article mark
Microfluidic Paper-based Analytical Device for Quantification of Lead Using Reaction Band-length for Identification of Bullet Hole and Its Potential for Estimating Firing Distance
Supatana BUKING, Phoonthawee SAETEAR, Warawut TIYAPONGPATTANA, Kanchana URAISIN, Prapin WILAIRAT, Duangjai NACAPRICHA, and Nuanlaor RATANAWIMARNWONG
Keywords: Microfluidic paper-based analytical device, μPAD, distance-based μPAD, reaction band-length μPAD, gunshot residue, lead, rhodizonate, bullet hole, firing distance, fabric
Analytical Sciences, 2018, 34(1), 83.
DOI: 10.2116/analsci.34.83, JOI: JST.JSTAGE/analsci/34.83
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Determination of Ascorbic Acid in Commercial Tablets Using Pencil Drawn Electrochemical Paper-based Analytical Devices
Virgilio X. G. OLIVEIRA, Anderson A. DIAS, Leandro L. CARVALHO, Thiago M. G. CARDOSO, Flavio COLMATI, and Wendell K. T. COLTRO
Keywords: Carbon electrodes, food science, microfluidic paper-based analytical devices, vitamin C
Analytical Sciences, 2018, 34(1), 91.
DOI: 10.2116/analsci.34.91, JOI: JST.JSTAGE/analsci/34.91
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An Instrument-free Detection of Antioxidant Activity Using Paper-based Analytical Devices Coated with Nanoceria
Thirada PIYANAN, Anan ATHIPORNCHAI, Charles S. HENRY, and Yupaporn SAMEENOI
Keywords: Microfluidic paper-based analytical device, distance-based detection paper device, nanoceria, antioxidant activity
Analytical Sciences, 2018, 34(1), 97.
DOI: 10.2116/analsci.34.97, JOI: JST.JSTAGE/analsci/34.97
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A Simple Paper-based Colorimetric Device for Rapid and Sensitive Urinary Oxalate Determinations
Piyakorn WORRAMONGKONA, Kanyarat SEEDA, Phatharatanathorn PHANSOMBOON, Nalin RATNARATHORN, Orawon CHAILAPAKUL, and Wijitar DUNGCHAI
Keywords: Oxalate, paper-based colorimetric device, colorimetric assay
Analytical Sciences, 2018, 34(1), 103.
DOI: 10.2116/analsci.34.103, JOI: JST.JSTAGE/analsci/34.103
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Microfluidic Paper-based Analytical Devices for Determination of Creatinine in Urine Samples
Suphanan SUNUNTA, Poomrat RATTANARAT, Orawon CHAILAPAKUL, and Narong PRAPHAIRAKSIT
Keywords: Creatinine, microfluidic paper-based analytical devices, Jaffé reaction, picric acid, urine samples
Analytical Sciences, 2018, 34(1), 109.
DOI: 10.2116/analsci.34.109, JOI: JST.JSTAGE/analsci/34.109
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Enzyme Chemotaxis on Paper-based Devices
Grenalynn C. ILACAS, Alexis BASA, Ayusmen SEN, and Frank A. GOMEZ
Keywords: Microfluidics, molecular chemotaxis, paper-based analytical device, glucose oxidase
Analytical Sciences, 2018, 34(1), 115.
DOI: 10.2116/analsci.34.115, JOI: JST.JSTAGE/analsci/34.115
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Announcements

Analytical Sciences, 2018, 34(1), 121.
DOI: 10.2116/analsci.34.121, JOI: JST.JSTAGE/analsci/34.121