Effects of header design on thermal characteristics of multi-nozzle steam spraying

International Journal of Heat and Fluid Flow, (2024), 106, 109291

M. Kang, I. Jang, and S. Song

Denoising four-dimensional flow magnetic resonance imaging data using a split-and-overlap approach via singular value decomposition

Phys. Fluids, (2024), 36, 011906

S. Kang, D.G. An, H. Ha, D.H. Yang, I. Jang, and S. Song

Investigation of flow behavior in a refrigerator machine room using magnetic resonance velocimetry

International Journal of Heat and Mass Transfer, (2023), 214, 124446

H. Dong, C. Im, C. Kang, J.H. Cho, I. Jang, and S. Song

Capillary flow-driven immunoassay platform for COVID-19 antigen diagnostics

Analytica Chimica Acta, (2023), 1277 341634

J.S. Link, C.S. Carrell, I. Jang, E.J.O. Barstis, Z.D. Call, R.A. Bellows, J.J. O'Donnell-Sloan, J.S. Terry, L.B.R. Anderson, Y. Panraksa, B.J.Geiss, D.S. Dandy, and C.S. Henry

Capillary driven microfluidic sequential flow device for point-of-need ELISA: COVID-19 serology testing

Anal. Methods, (2023), 15, 2721-2728

C. Carrell, I. Jang, J. Link, J.S. Terry, Z. Call, Y. Panraksa, O. Chailapakul, D.S. Dandy, B.J. Geiss, and C.S. Henry

Simple manipulation of enzyme-linked immunosorbent assay (ELISA) using an automated microfluidic interface

Anal. Methods, (2022), 14, 1774

Y. Panraksa, I. Jang, C.S. Carrell, A.G. Amin, O. Chailapakul, D.Chatterjee, and C.S. Henry

Progress toward a Simplified UTI Diagnostic: Pump-Free Magnetophoresis for E. coli Detection

Anal. Chem., (2022), 94, 7545−7550

Z.D. Call, I. Jang, B.J. Geiss, D.S. Dandy, and C.S. Henry

Electrochemical Capillary-Flow Immunoassay for Detecting Anti- SARS-CoV‐2 Nucleocapsid Protein Antibodies at the Point of Care

ACS Sens., (2021), 6, 4067−4075

I.C. Samper, A. Sanchez-Cano, W. Khamcharoen, I. Jang, W. Siangproh, E. Baldrich, B.J. Geiss, D.S. Dandy, and C.S. Henry

Pump-Free Microfluidic Device for the Electrochemical Detection of α1‐Acid Glycoprotein

ACS Sens., (2021), 6, 2998−3005

T. Sierra, I. Jang, E. Noviana, A.G. Crevillen, A. Escarpa, and C.S. Henry

[Review] Microfluidic Paper-Based Analytical Devices: From Design to Applications

Chem. Rev., (2021), 121, 19, 11835–11885

E. Noviana, T. Ozer, C.S. Carrell, J.S. Link, C. McMahon, I.Jang, and C.S. Henry

Flow control in a laminate capillary-driven microfluidic device

Analyst, (2021), 146, 1932

I. Jang, H. Kang, S. Song, D.S. Dandy, B.J. Geiss, and C.S. Henry

Electrochemical paper-based analytical device for multiplexed, point-of-care detection of cardiovascular disease biomarkers

Sensors & Actuators: B. Chemical, (2021), 330, 129336

S. Boonkaew, I. Jang, E. Noviana, W. Siangproh, O. Chailapakul, and C.S. Henry

Paper-based pump-free magnetophoresis

Anal. Methods, (2020), 12, 5177

Z.D. Call, C.S. Carrell, I. Jang, B.J. Geiss, D.S. Dandy, and C.S. Henry

Pump-Free Microfluidic Rapid Mixer Combined with a Paper-Based Channel

ACS Sens., (2020), 5, 2230−2238

I. Jang, D.B. Carrao, R.F. Menger, A.R. MoraesdeOliveira, and C.S. Henry

Viscosity measurements utilizing a fast-flow microfluidic paper-based device

Sensors & Actuators: B. Chemical, (2020), 319, 128240

I. Jang, K.E. Berg, and C.S. Henry

[Review] Electrochemical paper-based devices: sensing approaches and progress toward practical applications

Lab Chip (2020), 20, 9, [Front cover]

E. Noviana, C.P. McCord,  K. M. Clark, I. Jang, and C.S. Henry

Development of a Paper-Based Viscometer for Blood Plasma Using Colorimetric Analysis

Anal. Chem., (2019), 91, 4868−4875

H. Kang, I. Jang, S. Song, and S.C. Bae

Mathematical model for mixing in a paper-based channel and applications to the generation of a concentration gradient

International Journal of Heat and Mass Transfer, 120, (2018), 830–837

I. Jang, G. Kim, and S. Song

Facile and precise flow control for a paper-based microfluidic device through varying paper permeability

Lab on a Chip, (2015), 15, 3405

I.Jang and S. Song

A model for prediction of minimum coating thickness in high speed slot coating

International Journal of Heat and Fluid Flow, (2013), 40, 180–185

I. Jang and S. Song

Development of Non-Invasive Pressure Estimation Using 3D Multi-Path Line Integration Method from Magnetic Resonance Velocimetry (MRV)

Journal of the Korean Society of Visualization (2023) 21 2 14-23

M.H. Ariffudin, I. Jang, and S. Song