To put this into context, across all IOP (Institute of Physics) journals only 3% of articles were accessed over 500 times this year (2012).

• Kwang W. Oh*, Kangsun Lee, Byungwook Ahn, Edward P. Furlani, "Critical Review: Design of pressure-driven microfluidic networks using electric circuit analogy," Lab Chip, 2012, 12, 515-545 (Impact Factor: 6.3)  [Link]

• Kwang W. Oh*, Kangsun Lee, Byungwook Ahn, Edward P. Furlani, "Critical Review: Design of pressure-driven microfluidic networks using electric circuit analogy," Lab Chip, 2012, 12, 515-545 (Impact Factor: 6.3)  [Link]
• Jing Xu, Byungwook Ahn, Kangsun Lee, Hun Lee, Rajagopal Panchapakesan, Linfeng Xu, and Kwang W. Oh*, "Droplet-based microfluidic device for multiple-droplet clustering," Lab Chip, 2012, DOI:10.1039/C2LC20883K (Impact Factor: 6.3)  [Link] [Movie S1], [Movie S2], [Movie S3]

PAPER: Kwang W. Oh*, Kangsun Lee, Byungwook Ahn, Edward P. Furlani, "Critical Review: Design of pressure-driven microfluidic networks using electric circuit analogy," Lab Chip, 2012, 12, 515-545 (Impact Factor: 6.3)  [Link]

• This paper is listed as one of "the most downloaded articles for the last 30 days (updated daily)" since12/22/2011 until 1/30/2012 [Link].
• This article provides a comprehensive overview of the physics of pressure-driven laminar flow, the formal analogy between electric and hydraulic circuits, applications of circuit theory to microfluidic network-based devices, recent development and applications of concentration- and flow-dependent microfluidic networks, and promising future applications.