Paper-Based Analytical Device for Quantitative Urinalysis

  

Development of an equipment free paper based fluorimetric method for the selective determination of histidine in human urine samples

Maria Tarara, Apostolia Tsiasioti, Paraskevas D. Tzanavaras, George Z. Tsogas

Talanta.2022; 249: 123685.     CrossRef

Programmable microfluidic flow for automatic multistep digital assay in a single-sheet 3-dimensional paper-based microfluidic device

Seong-Geun Jeong, Dong-Ho Kim, Jingyeong Kim, Ji-Hyun Kim, Sanggeun Song, Chang-Soo Lee

Chemical Engineering Journal.2021; 411: 128429.     CrossRef

Disposable Paper-Based Biosensors for the Point-of-Care Detection of Hazardous Contaminations—A Review

Mohammad Mahdi Bordbar, Azarmidokht Sheini, Pegah Hashemi, Ali Hajian, Hasan Bagheri

Biosensors.2021; 11(9): 316.     CrossRef

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

Takashi Kaneta, Waleed Alahmad, Pakorn Varanusupakul

Applied Spectroscopy Reviews.2019; 54(2): 117.     CrossRef

A Fully Integrated Paper-Microfluidic Electrochemical Device for Simultaneous Analysis of Physiologic Blood Ions

Joon-Hyung Jin, Joon Kim, Sang Lee, Sam Choi, Chan Park, Nam Min

Sensors.2018; 18(2): 104.     CrossRef

New paper-based microfluidic tools for the analysis of blood serum protein and creatinine builtviaaerosolized deposition of polycaprolactone

Christopher A. Heist, Gayan C. Bandara, David J. Bemis, Joel C. Pommerenck, Vincent T. Remcho

Analytical Methods.2018; 10(25): 2994.     CrossRef

Paper Based Microfluidic Device for the Detection of Total Protein in Blood

P. Dilna, Jeethu Raveendran, John Stanley, T.G. Satheesh Babu

Materials Today: Proceedings.2018; 5(8): 16220.     CrossRef

Rapid fabrication of versatile omni-directional and long-distance three-dimensional flow paper-fluidic analytical devices using a cut-and-insert method for biomedical applications

Tae Joon Kwak, Wookkun Kwon, Jiang Yang, Sang Woo Lee, Woo-Jin Chang

Analytical Methods.2018; 10(38): 4648.     CrossRef

Paper-Based Fluorogenic Device for Detection of Copper Ions in a Biological System

Meirong Wu, Fengtai Suo, Jia Zhou, Qiuyu Gong, Lei Bai, Buxiang Chen, Qiong Wu, Chengwu Zhang, Haidong Yu, Xiao Huang, Lin Li, Wei Huang

ACS Applied Bio Materials.2018; 1(5): 1523.     CrossRef

Reinventing (Bio)chemical Analysis with Paper

G. IJ. Salentijn, M. Grajewski, E. Verpoorte

Analytical Chemistry.2018; 90(23): 13815.     CrossRef

Improvement in the Reproducibility of a Paper-based Analytical Device (PAD) Using Stable Covalent Binding between Proteins and Cellulose Paper

Woogyeong Hong, Seong-Geun Jeong, Gyurak Shim, Dae Young Kim, Seung Pil Pack, Chang-Soo Lee

Biotechnology and Bioprocess Engineering.2018; 23(6): 686.     CrossRef

Indicator-Impregnated Agarose Films for Colorimetric Measurement of pH

Abhishek Pathak, Jayant Borana, Jayesh Vasudeva Adhikari, Sai Siva Gorthi

SLAS Technology.2017; 22(1): 81.     CrossRef

Technical aspects and challenges of colorimetric detection with microfluidic paper-based analytical devices (μPADs) - A review

Giorgio Gianini Morbioli, Thiago Mazzu-Nascimento, Amanda M. Stockton, Emanuel Carrilho

Analytica Chimica Acta.2017; 970: 1.     CrossRef

Microfluidic paper-based analytical devices for potential use in quantitative and direct detection of disease biomarkers in clinical analysis

Wei Yin Lim, Boon Tong Goh, Sook Mei Khor

Journal of Chromatography B.2017; 1060: 424.     CrossRef

Paper-based assays for urine analysis

Eric Lepowsky, Fariba Ghaderinezhad, Stephanie Knowlton, Savas Tasoglu

Biomicrofluidics.2017;[Epub]     CrossRef

Paper–Plastic Hybrid Microfluidic Device for Smartphone-Based Colorimetric Analysis of Urine

Uddin M. Jalal, Gyeong Jun Jin, Joon S. Shim

Analytical Chemistry.2017; 89(24): 13160.     CrossRef

Paper electrodes for bioelectrochemistry: Biosensors and biofuel cells

Cloé Desmet, Christophe A. Marquette, Loïc J. Blum, Bastien Doumèche

Biosensors and Bioelectronics.2016; 76: 145.     CrossRef

A 3D µPAD based on a multi-enzyme organic–inorganic hybrid nanoflower reactor

M. Ariza-Avidad, A. Salinas-Castillo, L.F. Capitán-Vallvey

Biosensors and Bioelectronics.2016; 77: 51.     CrossRef

Paper-based analytical devices for environmental analysis

Nathan A. Meredith, Casey Quinn, David M. Cate, Thomas H. Reilly, John Volckens, Charles S. Henry

The Analyst.2016; 141(6): 1874.     CrossRef

New Functionalities for Paper-Based Sensors Lead to Simplified User Operation, Lower Limits of Detection, and New Applications

Josephine C. Cunningham, Paul R. DeGregory, Richard M. Crooks

Annual Review of Analytical Chemistry.2016; 9(1): 183.     CrossRef

Flow control in paper-based microfluidic device for automatic multistep assays: A focused minireview

Seong-Geun Jeong, Jongmin Kim, Si Hyung Jin, Ki-Su Park, Chang-Soo Lee

Korean Journal of Chemical Engineering.2016; 33(10): 2761.     CrossRef

Recent Advancements in Functionalized Paper-Based Electronics

Yang Lin, Dmitry Gritsenko, Qian Liu, Xiaonan Lu, Jie Xu

ACS Applied Materials & Interfaces.2016; 8(32): 20501.     CrossRef

Toward instrument-free digital measurements: a three-dimensional microfluidic device fabricated in a single sheet of paper by double-sided printing and lamination

Seong-Geun Jeong, Sang-Ho Lee, Chang-Hyung Choi, Jiyun Kim, Chang-Soo Lee

Lab on a Chip.2015; 15(4): 1188.     CrossRef

Recent developments in computer vision-based analytical chemistry: A tutorial review

Luis Fermín Capitán-Vallvey, Nuria López-Ruiz, Antonio Martínez-Olmos, Miguel M. Erenas, Alberto J. Palma

Analytica Chimica Acta.2015; 899: 23.     CrossRef

More Than the Significance of Conventional Urinalysis

Khae Hawn Kim

International Neurourology Journal.2013; 17(4): 153.     CrossRef