Category Archives: Uncategorized
![04 Mar 2019: APS March Meeting: Using orthogonal shear and acoustic excitation to tune thickening and jamming in suspensions](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
04 Mar 2019: APS March Meeting: Using orthogonal shear and acoustic excitation to tune thickening and jamming in suspensions
![Randomized, noncomparative, phase II trial of early switch from docetaxel to cabazitaxel or vice versa, with integrated biomarker analysis, in men with chemotherapy-naive, metastatic, castration-resistant prostate cancer](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Randomized, noncomparative, phase II trial of early switch from docetaxel to cabazitaxel or vice versa, with integrated biomarker analysis, in men with chemotherapy-naive, metastatic, castration-resistant prostate cancer
![Expression of AR-V7 and ARv567es in circulating tumor cells correlates with outcomes to taxane therapy in men with metastatic prostate cancer treated in TAXYNERGY](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Expression of AR-V7 and ARv567es in circulating tumor cells correlates with outcomes to taxane therapy in men with metastatic prostate cancer treated in TAXYNERGY
![](https://blogs.cornell.edu/kirbyresearch/files/2017/09/Capture-q344wm-225x158.jpg)
12 Sep 2017: ELKIN 2017: Electrokinetic Readouts of Glycoprotein Expression and Drug Resistance in Cancer Cells
![](https://blogs.cornell.edu/kirbyresearch/files/2017/09/poster_acoustofluidics-13wd5r0-225x158.jpg)
29 Aug 2017: Acoustofluidics 2017: Separation of submicron particles in Fabry-Perot acoustofluidic resonators
![](https://blogs.cornell.edu/kirbyresearch/files/2018/10/stem-cell-symposium-pic-2ixzaze-225x158.png)
31 Jul 2017: Cornell Stem Cell Symposium: Stem Cell Differentiation and Teratoma-Forming Potential in hiPSC-Derived Neural Cultures
![](https://blogs.cornell.edu/kirbyresearch/files/2016/10/Capture-pkm83t-225x158.jpg)
Submitted, 2016: Cytoplasmic permittivity and conductivity computed from electrorotation spectra negatively correlate with BODIPY fluorescence in nitrogen-starved Chlamydomonas reinhardtii
![](https://blogs.cornell.edu/kirbyresearch/files/2016/10/Capture-pkm7oq-225x158.jpg)
Submitted, 2016: Automated electrorotation shows the electrokinetic separation in pancreatic cancer cells is robust to acquired chemotherapy resistance, serum starvation, and epithelial-to-mesenchymal transition
![](https://blogs.cornell.edu/kirbyresearch/files/2016/04/2016_lannin_cytometrya_thumb-18qwgqj-225x158.png)
Accepted, Cytometry A, 2016: Comparison and Optimization of Machine Learning Methods for Automated Classification of Circulating Tumor Cells
![10 Oct 2016: MicroTAS 2016: Separation of cancer-cell-derived microvesicles and exosomes in microfluidic Fabry-Perot acoustic resonators](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
10 Oct 2016: MicroTAS 2016: Separation of cancer-cell-derived microvesicles and exosomes in microfluidic Fabry-Perot acoustic resonators
![](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/2016/07/2016_barbati_electrophoresis_thumb-q0bjtv-225x158.png)
Accepted, Electrophoresis, 2016: Surface Conductivity in Electrokinetic Systems with Porous and Charged Interfaces: Analytical Approximations and Numerical Results
![Lannin Presents Work Characterizing Electrical Properties of Cancer Cells at AiCHE/AES 2015 Annual Meeting](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Lannin Presents Work Characterizing Electrical Properties of Cancer Cells at AiCHE/AES 2015 Annual Meeting
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/2016_hartman_SGRS-wp59wr-225x158.jpg)
15 Jan 2016: Sibley Graduate Research Symposium: Accurate correction of drift in colloidal particle tracking
![](https://blogs.cornell.edu/kirbyresearch/files/2015/08/2015_bono_plosone_thumb-241jnum-225x158.jpg)
PLoS ONE, 2015: Measurement of Lipid Accumulation in Chlorella vulgaris via Flow Cytometry and Liquid-State 1H NMR Spectroscopy for Development of an NMR-Traceable Flow Cytometry Protocol
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/2015_hartman_GRCmicrofluidics-2d0206m-225x158.jpg)
31 May 2015: Gordon Conference on Microfluidics: Informing the design of nanoparticle separation microdevices: The effect of polydispersity on particle tracking algorithms
![](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/2016/07/2015_smith_biomedicalmicrodevices_thumb-1zhymzm-225x158.jpg)
Biomedical Microdevices, 2015: A Transfer Function Approach for Predicting Rare Cell Capture Microdevice Performance
![](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/2016/07/2015_smith_biomicrofluidics_thumb-w8qnwn-225x158.jpg)
Biomicrofluidics, 2015: Enhancing sensitivity and specificity in rare cell capture microdevices with dielectrophoresis
![](https://blogs.cornell.edu/kirbyresearch/files/2014/11/2014_santana_physbiol_thumb-1pqe9z7-225x158.jpg)
Physical Biology, 2014: Cancerous epithelial cell lines shed extracellular vesicles with a bimodal size distribution that is sensitive to glutamine inhibition
![](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
![](https://blogs.cornell.edu/kirbyresearch/files/2014/11/2014_pratt_analyticalchemistry_thumb-rsk69x-225x158.jpg)
Analytical Chemistry, 2014: Single-Cell Copy Number Analysis of Prostate Cancer Cells Captured with Geometrically Enhanced Differential Immunocapture Microdevices
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/2014_santana_biomedicalmicrodevices_thumb-1dy4pku-225x158.jpg)
Biomedical Microdevices, 2014: Microfluidic isolation of cancer-cell-derived microvesicles from heterogeneous extracellular shed vesicle populations
![22 Oct 2014: Biomedical Engineering Society Annual Meeting: Using Rare Cell Capture to Understand Metastasis](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
22 Oct 2014: Biomedical Engineering Society Annual Meeting: Using Rare Cell Capture to Understand Metastasis
![](https://blogs.cornell.edu/kirbyresearch/files/2014/08/201408_pratt_GRC_poster-2cyxrip-225x158.jpg)
3 Aug 2014: Gordon Research Conference on Rare Cells in Circulation: Single-nucleus sequencing of prostate cancer cells captured with GEDI microdevices
![3 Aug 2014: Gordon Research Conference on Rare Cells in Circulation: Parallel capture of pancreatic cancer cells](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
3 Aug 2014: Gordon Research Conference on Rare Cells in Circulation: Parallel capture of pancreatic cancer cells
![](https://blogs.cornell.edu/kirbyresearch/files/2014/08/201408_hartman_GRC_poster-1aieugc-225x158.jpg)
3 Aug 2014: Gordon Research Conference on Rare Cells in Circulation: Informing high performance capture of circulating tumor cells using a hybrid dielectrophoresis and immunocapture microdevice
![Huang published in Biomicrofluidics, began postdoctoral appointment at Lawrence Livermore National Laboratory](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Huang published in Biomicrofluidics, began postdoctoral appointment at Lawrence Livermore National Laboratory
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/2014_huang_biomicrofluidics_thumb-1r4v117-225x158.png)
Biomicrofluidics, 2014: Characterization of microfluidic shear-dependent epithelial cell adhesion molecule immunocapture and enrichment of pancreatic cancer cells from blood cells with dielectrophoresis
![5 July 2014: Gordon Research Conference on Genomic Instability: Single-nucleus sequencing of prostate cancer cells captured with GEDI microdevices](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
5 July 2014: Gordon Research Conference on Genomic Instability: Single-nucleus sequencing of prostate cancer cells captured with GEDI microdevices
![](https://blogs.cornell.edu/kirbyresearch/files/2014/06/201406_lannin_GRC_poster-1uyo3ku-225x158.jpg)
23 June 2014: Gordon Research Conference on Bioanalytical Sensors: Electrorotation of Cancer Cells to Optimize Performance of Dielectrophoresis Capture Devices
![](https://blogs.cornell.edu/kirbyresearch/files/2014/06/201406_lannin_GRS_talk-1726d01-225x158.jpg)
21 June 2014: Gordon Research Seminar on Bioanalytical Sensors: Electrorotation of Cancer Cells to Optimize Performance of Dielectrophoresis Capture Devices
![15 June 2014: 13th International Summer School on Biocomplexity, Biodesign, and Bioinnovation: Using Rare Cell Capture to Understand Metastasis](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
15 June 2014: 13th International Summer School on Biocomplexity, Biodesign, and Bioinnovation: Using Rare Cell Capture to Understand Metastasis
![Godla awarded fellowship and travel grant to attend 13th International Summer School on Biocomplexity, Bioinnovation, and Biodesign](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Godla awarded fellowship and travel grant to attend 13th International Summer School on Biocomplexity, Bioinnovation, and Biodesign
![16 Mar 2014: ACS National Meeting: Multiplex measurement of algal lipid content via dielectric spectroscopy, flow cytometry, and 1H NMR](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
16 Mar 2014: ACS National Meeting: Multiplex measurement of algal lipid content via dielectric spectroscopy, flow cytometry, and 1H NMR
![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
![7 Mar 2014: Sibley Graduate Research Symposium: Electrorotation of Cancer Cells to Optimize Performance of Dielectrophoresis Capture Devices](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
7 Mar 2014: Sibley Graduate Research Symposium: Electrorotation of Cancer Cells to Optimize Performance of Dielectrophoresis Capture Devices
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/2014_rhim_gastroenterology_thumb-1xbkzb4-225x158.jpg)
Gastroenterology, 2014: Detection of Circulating Pancreas Epithelial Cells in Patients With Pancreatic Cystic Lesions
![](https://blogs.cornell.edu/kirbyresearch/files/2014/02/2014_thege_labchip_thumb-1qq8lld-225x158.png)
Lab on a Chip, 2014: Microfluidic immunocapture of circulating pancreatic cells using parallel EpCAM and MUC1 capture: characterization, optimization and downstream analysis
![](https://blogs.cornell.edu/kirbyresearch/files/2014/01/201401_smith_lab_automation-2n7m698-225x158.jpg)
18 Jan 2014: Society for Lab Automation and Screening: Circulating tumor cell (CTC) cancer biomarkers using geometrically enhanced differential immunocapture (GEDI) microdevices
![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
![7 Jan 2014: Biomedical Engineering Society – Cellular and Molecular Bioengineering Meeting: On-chip Tumor Microenvironment for Circulating Tumor Cell Isolation and Culture](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
7 Jan 2014: Biomedical Engineering Society – Cellular and Molecular Bioengineering Meeting: On-chip Tumor Microenvironment for Circulating Tumor Cell Isolation and Culture
![24 Nov 2013: APS Division of Fluid Dynamics: Streaming potential and conductivity measurements reveal electrokinetic properties of porous and charged layers](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
24 Nov 2013: APS Division of Fluid Dynamics: Streaming potential and conductivity measurements reveal electrokinetic properties of porous and charged layers
![](https://blogs.cornell.edu/kirbyresearch/files/2013/10/201310_thege_utas_talk-147dbvg-225x158.jpg)
27 Oct 2013: MicroTAS: Parallelized microfluidic immunocapture of circulating pancreas cells for the early detection of pancreatic carcinogenesis
![27 Oct 2013: MicroTAS: Novel Microfluidic Platforms for the Interrogation of Patient-Derived CTCs and Tumor-Derived Microvesicles](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
27 Oct 2013: MicroTAS: Novel Microfluidic Platforms for the Interrogation of Patient-Derived CTCs and Tumor-Derived Microvesicles
![27 Oct 2013: MicroTAS: Enrichment of prostate cancer cells from blood cells with a hybrid dielectrophoresis and immunocapture microfluidic system](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
27 Oct 2013: MicroTAS: Enrichment of prostate cancer cells from blood cells with a hybrid dielectrophoresis and immunocapture microfluidic system
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/2013_barbati_physicalreview_thumb-29tdtw4-225x158.jpg)
Physical Review E, 2013: Force and Flux Relations for Flows of Ionic Solutions between Parallel Plates with Porous and Charged Layers
![Lannin Attends BMES Annual Conference; Presents Poster on Machine Learning for Identification of CTCs from Images](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Lannin Attends BMES Annual Conference; Presents Poster on Machine Learning for Identification of CTCs from Images
![25 Sep 2013: BMES: A Hybrid Dielectrophoresis and Immunocapture System for Enhanced Capture of Circulating Tumor Cells](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
25 Sep 2013: BMES: A Hybrid Dielectrophoresis and Immunocapture System for Enhanced Capture of Circulating Tumor Cells
![25 Sep 2013: BMES: Machine Learning Outperforms Manual Counting for Classifying Circulating Tumor Cells from Cancer Patients](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
25 Sep 2013: BMES: Machine Learning Outperforms Manual Counting for Classifying Circulating Tumor Cells from Cancer Patients
![25 Sep 2013: BMES: Novel Microfluidic Platforms for the Interrogation of Patient-Derived CTCs and Tumor-Derived Microvesicles](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
25 Sep 2013: BMES: Novel Microfluidic Platforms for the Interrogation of Patient-Derived CTCs and Tumor-Derived Microvesicles
![](https://blogs.cornell.edu/kirbyresearch/files/2013/09/201309_thege_bmes-126rhxw-225x158.jpg)
25 Sep 2013: BMES: Multiplexed Microfluidic Immunocapture of Circulating Pancreas Cells for the Early Detection of Pancreatic Carcinogenesis
![19 Sep 2013: Cornell NanoScale Science & Technology Facility Annual Meeting: A Hybrid Dielectrophoresis and Immunocapture Microfluidic System for Enhanced Rare Cell Capture](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
19 Sep 2013: Cornell NanoScale Science & Technology Facility Annual Meeting: A Hybrid Dielectrophoresis and Immunocapture Microfluidic System for Enhanced Rare Cell Capture
![Smith’s Captura Diagnostics wins $25,000 Grants For Growth award to develop commercial cell capture prototype](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Smith’s Captura Diagnostics wins $25,000 Grants For Growth award to develop commercial cell capture prototype
![Thege awarded poster award at the 2013 Gordon Research Conference on the Physics and Chemistry of Microfluidics](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Thege awarded poster award at the 2013 Gordon Research Conference on the Physics and Chemistry of Microfluidics
![](https://blogs.cornell.edu/kirbyresearch/files/2013/07/201307_asme_ses-1vr0be0-225x158.jpg)
28 Jul 2013: SES Summer Meeting: Electrokinetic response in systems with fluid-permeable and charged layers
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/2013_huang_biomedicalmicrodevices_thumb-25d9ggp-225x158.jpg)
Biomedical Microdevices, 2013: Enrichment of prostate cancer cells from blood cells with a hybrid dielectrophoresis and Immunocapture microfluidic system
![9 Jun 2013: Gordon Research Conference on Microfluidics: Machine Learning Outperforms Manual Counting for Classifying Circulating Tumor Cells from Cancer Patients](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
9 Jun 2013: Gordon Research Conference on Microfluidics: Machine Learning Outperforms Manual Counting for Classifying Circulating Tumor Cells from Cancer Patients
![9 Jun 2013: Gordon Research Conference on Microfluidics: Multiplexed Microfluidic Immunocapture of Circulating Pancreas Cells for the Early Detection of Pancreatic Carcinogenesis](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
9 Jun 2013: Gordon Research Conference on Microfluidics: Multiplexed Microfluidic Immunocapture of Circulating Pancreas Cells for the Early Detection of Pancreatic Carcinogenesis
![](https://blogs.cornell.edu/kirbyresearch/files/2013/06/201306_kirby_grc_poster-1ajd49o-225x158.jpg)
9 Jun 2013: Gordon Research Conference on Microfluidics: Capture and interrogation of circulating tumors cells by use of geometrically enhanced differential immunocapture (GEDI) microfluidic devices
![Tim Lannin and Fredrik Thege to present their work at Microfluidics Gordon Research Conference in Barga, Italy](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Tim Lannin and Fredrik Thege to present their work at Microfluidics Gordon Research Conference in Barga, Italy
![](https://blogs.cornell.edu/kirbyresearch/files/2013/06/201306_kirby_select_biosciences_euro_lab_automation-vbu8vc-225x158.jpg)
6 Jun 2013: Select Biosciences 2013 Nano and Microfluidics conference: Functional and Genetic Analysis of CTCs captured with GEDI Microdevices
![31 May 2013: ASCO: TAXYNERGY (NCT01718353): A randomized phase II trial examining an early switch from first-line docetaxel to cabazitaxel, or cabazitaxel to docetaxel, in men with metastatic castration-resistant prostate cancer (mCRPC)](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
31 May 2013: ASCO: TAXYNERGY (NCT01718353): A randomized phase II trial examining an early switch from first-line docetaxel to cabazitaxel, or cabazitaxel to docetaxel, in men with metastatic castration-resistant prostate cancer (mCRPC)
![6 Apr 2013: AACR: Development of a HER2-based GEDI microfluidic device for the molecular characterization of CTCs from metastatic breast cancer patients](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
6 Apr 2013: AACR: Development of a HER2-based GEDI microfluidic device for the molecular characterization of CTCs from metastatic breast cancer patients
![6 Apr 2013: AACR: Using CTCs to interrogate mechanisms of taxane resistance in the prospective TAXYNERGY clinical trial in prostate cancer](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
6 Apr 2013: AACR: Using CTCs to interrogate mechanisms of taxane resistance in the prospective TAXYNERGY clinical trial in prostate cancer
![28 Mar 2013: ACS: Quantitative in situ measurement of algal lipid content via dielectric spectroscopy](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
28 Mar 2013: ACS: Quantitative in situ measurement of algal lipid content via dielectric spectroscopy
![17 Mar 2013: Pittcon: Functional Characterization of Circulating Tumor Cells Captured With GEDI Microdevices](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
17 Mar 2013: Pittcon: Functional Characterization of Circulating Tumor Cells Captured With GEDI Microdevices
![10 Feb 2013: Gordon Research Conference on Fibronectin, Integrins, & Related Molecules: Capture and Interrogation of Circulating Tumor Cells in Tissue-Engineered Geometrically Enhanced Differential Immunocapture Microfluidic Devices](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
10 Feb 2013: Gordon Research Conference on Fibronectin, Integrins, & Related Molecules: Capture and Interrogation of Circulating Tumor Cells in Tissue-Engineered Geometrically Enhanced Differential Immunocapture Microfluidic Devices
![](https://blogs.cornell.edu/kirbyresearch/files/2012/10/2012_santana_biomedicaldevices_thumb-2i5ki78-225x158.jpg)
Biomedical Microdevices, 2012: Immunocapture of Prostate Cancer Cells with Anti-PSMA Antibodies in Microdevices
![](https://blogs.cornell.edu/kirbyresearch/files/2012/10/2012_kirby_PLosONE_fig1-24rx6wq-225x158.jpg)
PLos One, 2012: Functional Characterization of Circulating Tumor Cells with a Prostate-Cancer-Specific Microfluidic Device
![](https://blogs.cornell.edu/kirbyresearch/files/2012/10/2012_barbati_softmatter_thumb-1yi8p3i-225x158.jpg)
Soft Matter, 2012: Soft Diffuse Interfaces in Electrokinetics-Theory and experiment for transport in charged diffuse layers
![](https://blogs.cornell.edu/kirbyresearch/files/2012/07/2012_diamond_frontiersincancermoleculartargetsandtherapeutics_thumb-1y3z6xa-225x158.jpg)
Frontiers in Cancer Molecular Targets and Therapeutics, 2012: Isolation and characterization of circulating tumor cells in prostate cancer
![New publication: Functional Characterization of Circulating Tumor Cells with a Prostate-Cancer-Specific Microfluidic Device](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Functional Characterization of Circulating Tumor Cells with a Prostate-Cancer-Specific Microfluidic Device
![New Publication: Immunocapture of prostate cancer cells by use of anti-PSMA antibodies in microdevices](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New Publication: Immunocapture of prostate cancer cells by use of anti-PSMA antibodies in microdevices
![New publication: Micro-total analysis system for virus detection: microfluidic pre-concentration coupled to liposome-based detection](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Micro-total analysis system for virus detection: microfluidic pre-concentration coupled to liposome-based detection
![New publication: Ambient pressure effects on the electrokinetic potential of Zeonor–water interfaces](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Ambient pressure effects on the electrokinetic potential of Zeonor–water interfaces
![New publication: Stiffness of photocrosslinked RGD-alginate gels regulates adipose progenitor cell behavior](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Stiffness of photocrosslinked RGD-alginate gels regulates adipose progenitor cell behavior
![](https://blogs.cornell.edu/kirbyresearch/files/2011/01/2011_rouillard_tissue_engineering_thumb-28972um-225x158.jpg)
Tissue Engineering C, 2011: Methods for photocrosslinking alginate hydrogel scaffolds with high cell viability
![New publication: Electrothermal flow effects in insulating (electrodeless) dielectrophoresis systems](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Electrothermal flow effects in insulating (electrodeless) dielectrophoresis systems
![Hawkins defends Ph.D. thesis enttled CHARACTERIZATION AND DESIGN OF INSULATOR-BASED DIELECTROPHORESIS DEVICES FOR CONTINUOUS-FLOW PARTICLE ENRICHMENT AND AUTOMATED ELECTRODE-BASED DIELECTROPHORETIC CHARACTERIZATION OF MYCOBACTERIUM SMEGMATIS](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Hawkins defends Ph.D. thesis enttled CHARACTERIZATION AND DESIGN OF INSULATOR-BASED DIELECTROPHORESIS DEVICES FOR CONTINUOUS-FLOW PARTICLE ENRICHMENT AND AUTOMATED ELECTRODE-BASED DIELECTROPHORETIC CHARACTERIZATION OF MYCOBACTERIUM SMEGMATIS
![](https://blogs.cornell.edu/kirbyresearch/files/2010/09/2010_hawkins_electrophoresis_thumb-274agbx-225x158.jpg)
Electrophoresis,2010: Electrothermal flow effects in insulating (electrodeless) dielectrophoresis systems
![New publication: Control of the Electromechanical Properties of Alginate Hydrogels via Ionic and Covalent Cross-Linking and Microparticle Doping](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Control of the Electromechanical Properties of Alginate Hydrogels via Ionic and Covalent Cross-Linking and Microparticle Doping
![](https://blogs.cornell.edu/kirbyresearch/files/2010/05/2010_rouillard_biomacromolecules_thumb-1m5gwxw-225x158.jpg)
Control of the Electromechanical Properties of Alginate Hydrogels via Ionic and Covalent Cross-Linking and Microparticle Doping
![Lab on a Chip, 2010: Capture of circulating tumor cells from whole blood of prostate cancer patients using geometrically enhanced differential immunocapture (GEDI) and a prostate-specific antibody](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Lab on a Chip, 2010: Capture of circulating tumor cells from whole blood of prostate cancer patients using geometrically enhanced differential immunocapture (GEDI) and a prostate-specific antibody
![New publication: Capture of circulating tumor cells from whole blood of prostate cancer patients using geometrically enhanced differential immunocapture (GEDI) and a prostate-specific antibody](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Capture of circulating tumor cells from whole blood of prostate cancer patients using geometrically enhanced differential immunocapture (GEDI) and a prostate-specific antibody
![](https://blogs.cornell.edu/kirbyresearch/files/2009/03/2009_tandon_electrophoresis_thumb-1bqymju-225x158.jpg)
Electrophoresis, 2009: Transient zeta-potential measurements in hydrophobic, TOPAS microfluidic substrates
![](https://blogs.cornell.edu/kirbyresearch/files/2016/10/2009_Kondapalli_Microfluid-Nanofluid_fig2-2fzlv6t-225x158.jpg)
Microfluidics and Nanofluidics, 2009: Refolding of beta-galactosidase: microfluidic device for reagent metering and mixing and quantification of refolding yield
![New publication: Refolding of β-galactosidase: microfluidic device for reagent metering and mixing and quantification of refolding yield](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Refolding of β-galactosidase: microfluidic device for reagent metering and mixing and quantification of refolding yield
![](https://blogs.cornell.edu/kirbyresearch/files/2009/01/2009_hawkins_methodsinbioengineering_thumb-1qv5xo2-225x158.jpg)
Methods In Bioengineering: Biomicrofabrication and Biomicrofluidics, 2009: Dielectrophoresis for Cell and Particle Manipulations
![Sowmya Kondapalli passes PhD candidacy exam: Development of microfluidic devices for biopharmaceutical production and biotoxin detection](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Sowmya Kondapalli passes PhD candidacy exam: Development of microfluidic devices for biopharmaceutical production and biotoxin detection
![New publication: Zeta potential and electroosmotic mobility in microfluidic devices fabricated from hydrophobic polymers: 2. Slip and interfacial water structure](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Zeta potential and electroosmotic mobility in microfluidic devices fabricated from hydrophobic polymers: 2. Slip and interfacial water structure
![New publication: Zeta potential and electroosmotic mobility in microfluidic devices fabricated from hydrophobic polymers: 1. The origins of charge](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Zeta potential and electroosmotic mobility in microfluidic devices fabricated from hydrophobic polymers: 1. The origins of charge
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/2008b_tandon_electrophoresis_thumb-w8jehd-225x158.jpg)
Electrophoresis, 2008: Zeta potential and electroosmotic mobility in microfluidic devices fabricated from hydrophobic polymers: 2. Slip and interfacial water structure
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/2008_tandon_electrophoresis_thumb-1jivj59-225x158.jpg)
Electrophoresis, 2008: Zeta potential and electroosmotic mobility in microfluidic devices fabricated from hydrophobic polymers: 1. The origins of charge
![New publication: Continuous-Flow Particle Separation by 3D Insulative Dielectrophoresis Using Coherently Shaped, dc-Biased, ac Electric Fields](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Continuous-Flow Particle Separation by 3D Insulative Dielectrophoresis Using Coherently Shaped, dc-Biased, ac Electric Fields
![](https://blogs.cornell.edu/kirbyresearch/files/2016/10/2007_hawkins_analyticalchemistry_thumb-1jgmsht-225x158.jpg)
Analytical Chemistry, 2007: Continuous-Flow Particle Separation by 3D Insulative Dielectrophoresis Using Coherently Shaped, DC-Biased, AC Electric Fields
![](https://blogs.cornell.edu/kirbyresearch/files/2006/07/2006_ghosh_phys_rev_lett_thumb-2if5kti-225x158.jpg)
Physical Review Letters, 2006: Low-Light-Level Optical Interactions with Rubidium Vapor in a Photonic Band-Gap Fiber
![New publication: Low-Light-Level Optical Interactions with Rubidium Vapor in a Photonic Band-Gap Fiber](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
New publication: Low-Light-Level Optical Interactions with Rubidium Vapor in a Photonic Band-Gap Fiber
![Electrophoresis, 2005: The zeta potential of cyclo-olefin polymer microchannels and its effects on insulative (electrodeless) dielectrophoresis particle trapping devices](https://blogs.cornell.edu/kirbyresearch/wp-content/themes/gridster-lite/img/defaultthumb.png)
Electrophoresis, 2005: The zeta potential of cyclo-olefin polymer microchannels and its effects on insulative (electrodeless) dielectrophoresis particle trapping devices
![](https://blogs.cornell.edu/kirbyresearch/files/2004/09/2004_kirby_analytical-chemistry_thumb-1v4ukl0-225x158.jpg)
Analytical Chemistry, 2004: On-Chip High-Pressure Picoliter Injector for Pressure-Driven Flow through Porous Media
![](https://blogs.cornell.edu/kirbyresearch/files/2004/06/2004_song_analyticalchemistry_thumb-2knsh9f-225x158.jpg)
Analytical Chemistry, 2004: Electrophoretic Concentration of Proteins at Laser-Patterned Nanoporous Membranes in Microchips
![](https://blogs.cornell.edu/kirbyresearch/files/2016/10/2004b_song_analytical-chemistry_thumb-12pljf4-225x158.png)
Analytical Chemistry, 2004: Microchip Dialysis of Proteins Using in Situ Photopatterned Nanoporous Polymer Membranes
![](https://blogs.cornell.edu/kirbyresearch/files/2016/10/2004_kirby_electrophoresis_2_thumb-23zw9kk-225x158.png)
Electrophoresis, 2004: Zeta potential of microfluidic substrates: 1. Theory, experimental techniques, and effects on separations
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/2003_reichmuth_sensors_actuators_b_thumb-2gynyw3-225x158.jpg)
Sensors and Actuators B, 2003: Increasing the Performance of High-Pressure, High-Efficiency Electrokinetic Micropumps Using Zwitterionic Solute Additives
![](https://blogs.cornell.edu/kirbyresearch/files/2016/07/2003_kirby_lab_chip_thumb-278rlks-225x158.jpg)
Lab on a Chip, 2003: Programmable Modification of Cell Adhesion and Zeta Potential in Silica Microchips
![](https://blogs.cornell.edu/kirbyresearch/files/2000/11/2000_kirby_proceedings_combustion_institute_thumb-1pwx11p-225x158.jpg)
Proceedings of the Combustion Institute, 2000: Imaging of CO and CO2 using infrared planar laser-induced fluorescence
![](https://blogs.cornell.edu/kirbyresearch/files/1999/09/1999_kirby_applied_physics_b_thumb-2dzd7hx-225x158.jpg)