Tag Archives: invited
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/Capture-pkmhto-225x158.jpg)
9 Aug 2016: Gordon Conference on Rare Cells in Circulation: Manipulating rare cells and vesicles in microfluidic devices: Interrogating drug resistance and surgical risk staging
![](https://blogs.cornell.edu/kirbyresearch/files/2016/06/201606_kirby_ACS_colloids-1yrefab-225x158.jpg)
7 Jun 2016: ACS Colloids: Measuring and manipulating cancer-specific extracellular shed vesicle populations
![](https://blogs.cornell.edu/kirbyresearch/files/2015/05/201506_kirby_GRC_microfluidics-uidsa7-225x158.jpg)
31 May 2015: Gordon Research Conference on Microfluidics: Controlling Microfluidic Transport for Rare Cell and Vesicle Capture
![](https://blogs.cornell.edu/kirbyresearch/files/2015/02/201502_molmed_tricon-1vbaw7j-225x158.jpg)
16 Feb 2015: 5th Annual Circulating Tumor Cells and Cell-Free DNA conference: Circulating Tumor Cells: linking analysis to surgical and medical care
![](https://blogs.cornell.edu/kirbyresearch/files/2014/11/201410_AIChE_AES_plenary-10lknod-225x158.jpg)
16 Nov 2014: AES Electrophoresis Society Meeting: Electrokinetic Manipulation for Characterization and Capture of Circulating Tumor Cells
![13 Mar 2014: Cornell Materials Science Colloquium: Rare Cell Capture and Analysis in GEDI Microdevices: New Clinical and Engineering Opportunities](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
13 Mar 2014: Cornell Materials Science Colloquium: Rare Cell Capture and Analysis in GEDI Microdevices: New Clinical and Engineering Opportunities
![17 Jan 2014: Edwards Lecture, Oregon State University: Geometrically Enhanced Differential Immunocapture: Using obstacle arrays in microfluidic devices to enhance efficient and pure rare cell capture from fluid suspensions](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
17 Jan 2014: Edwards Lecture, Oregon State University: Geometrically Enhanced Differential Immunocapture: Using obstacle arrays in microfluidic devices to enhance efficient and pure rare cell capture from fluid suspensions
![](https://blogs.cornell.edu/kirbyresearch/files/2013/07/201307_asme_ses-1vr0be0-225x158.jpg)