다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기
Analytical chemistry, v.87 no.24, 2015년, pp.12051 - 12058
Nawaz, Ahmad Ahsan (Department of Engineering Science and Mechanics, The Pennsylvania State University, University Park, Pennsylvania 16802,) , Chen, Yuchao (Department of Engineering Science and Mechanics, The Pennsylvania State University, University Park, Pennsylvania 16802,) , Nama, Nitesh (Department of Engineering Science and Mechanics, The Pennsylvania State University, University Park, Pennsylvania 16802,) , Nissly, Ruth Helmus (Microscopy and Cytometry Facility, The Huck Institutes of the Life Sciences, The Pennsylvania State University, University Park, Pennsylvania 16802,) , Ren, Liqiang (Department of Engineering Science and Mechanics, The Pennsylvania State University, University Park, Pennsylvania 16802,) , Ozcelik, Adem (Department of Engineering Science and Mechanics, The Pennsylvania State University, University Park, Pennsylvania 16802,) , Wang, Lin (Ascent Bio-Nano Technologies Inc., State College, Pennsylvania 16801,) , McCoy, J. Philip (National Heart, Lung, and Blood Institute (NHLBI), NIH, Bethesda, Maryland,) , Levine, Stewart J. (National Heart, Lung, and Blood Institute (NHLBI), NIH, Bethesda, Maryland,) , Huang, Tony Jun (Depart)
AI-Helper
Selective isolation of cell subpopulations with defined biological characteristics is crucial for many biological studies and clinical applications. In this work, we present the development of an acoustofluidic fluorescence activated cell sorting (FACS) device that simultaneously performs on-demand,...
Microbiol. Rev. Davey H. M. 641 60 4 1996 10.1128/mr.60.4.641-696.1996
Eisenstein, Michael. Cell sorting: Divide and conquer. Nature, vol.441, no.7097, 1179-1185.
BD Influx Cell Sorter;www.bdbiosciences.com.
Takahashi, Kazunori, Hattori, Akihiro, Suzuki, Ikurou, Ichiki, Takanori, Yasuda, Kenji. Non-destructive on-chip cell sorting system with real-time microscopic image processing. Journal of nanobiotechnology, vol.2, 5-5.
Milner, A. E., Vaughan, A. T. M., Clark, I. P.. Measurement of DNA Damage in Mammalian Cells Using Flow Cytometry. Radiation research, vol.110, no.1, 108-.
Current Protocols in Cytometry Leary J. F. 2001
Holmes, Kevin L., Fontes, Benjamin, Hogarth, Philip, Konz, Richard, Monard, Simon, Pletcher Jr., Charles H., Wadley, Robert B., Schmid, Ingrid, Perfetto, Stephen P.. International Society for the Advancement of Cytometry cell sorter biosafety standards. Cytometry. the journal of the International Society for Analytical Cytology. Part A, vol.85, no.5, 434-453.
Tüdős, Anna J., Besselink, Geert A. J., Schasfoort, Richard B. M.. Trends in miniaturized total analysis systems for point-of-care testing in clinical chemistry. Lab on a chip, vol.1, no.2, 83-95.
Wang, S., Inci, F., De Libero, G., Singhal, A., Demirci, U.. Point-of-care assays for tuberculosis: Role of nanotechnology/microfluidics. Biotechnology advances, vol.31, no.4, 438-449.
Practical Flow Cytometry Shapiro H. M. 2003 10.1002/0471722731
Morris, Kelly. Mobile phones connecting efforts to tackle infectious disease. The Lancet. Infectious diseases, vol.9, no.5, 274-274.
Pop-Eleches, Cristian, Thirumurthy, Harsha, Habyarimana, James P, Zivin, Joshua G, Goldstein, Markus P, de Walque, Damien, MacKeen, Leslie, Haberer, Jessica, Kimaiyo, Sylvester, Sidle, John, Ngare, Duncan, Bangsberg, David R. Mobile phone technologies improve adherence to antiretroviral treatment in a resource-limited setting: a randomized controlled trial of text message reminders. AIDS, vol.25, no.6, 825-834.
Maleki, T.; Fricke, T.; Quesenberry, J.; Todd, P.; Leary, J. F.InProceedings of SPIE;Becker, H.; Gray, B. L., Eds.SPIE:Bellingham WA, 2012; p82510C.
Schmid, Ingrid, Hultin, Lance E., Ferbas, John. Testing the Efficiency of Aerosol Containment During Cell Sorting. Current protocols in cytometry, vol.1, no.1, 3.3.1-3.3.15.
Gray, Derek WR, Göhde, W, Carter, N, Heiden, T, Morris, PJ. Separation of Pancreatic Islets by Fluorescence-Activated Sorting. Diabetes, vol.38, no.suppl1, 133-135.
Godin, Jessica, Chen, Chun‐Hao, Cho, Sung Hwan, Qiao, Wen, Tsai, Frank, Lo, Yu‐Hwa. Microfluidics and photonics for Bio‐System‐on‐a‐Chip: A review of advancements in technology towards a microfluidic flow cytometry chip. Journal of biophotonics, vol.1, no.5, 355-376.
Ozcelik, Adem, Ahmed, Daniel, Xie, Yuliang, Nama, Nitesh, Qu, Zhiguo, Nawaz, Ahmad Ahsan, Huang, Tony Jun. An Acoustofluidic Micromixer via Bubble Inception and Cavitation from Microchannel Sidewalls. Analytical chemistry, vol.86, no.10, 5083-5088.
10.1117/12.842956
Geheb, B. R.; Grafton, M. M. G.; Jang, J.; Reece, L. M.; Leary, J. F.; Kwon, J. K.; Jung, B.InIEEE/NIH Life Science Systems and Applications Workshop, LiSSA 2009, April 9-10, 2009; pp40-43.
10.1117/12.809854
Wu, T. H.; Chen, Y.; Park, S. Y.; Hong, J.; Teslaa, T.; Zhong, J. F.; Di Carlo, D.; Teitell, M. A.; Chiou, P. Y.InProceedings of the IEEE International Conference on Micro Electro Mechanical Systems (MEMS), Jan 29 to Feb 2, 2012; pp1097-1100.
Practical Flow Cytometry Shapiro H. M. 2003 10.1002/0471722731
Chen, Yue, Chung, Aram J., Wu, Ting‐Hsiang, Teitell, Michael A., Di Carlo, Dino, Chiou, Pei‐Yu. Pulsed Laser Activated Cell Sorting with Three Dimensional Sheathless Inertial Focusing. Small, vol.10, no.9, 1746-1751.
Chen, Yue, Wu, Ting-Hsiang, Kung, Yu-Chun, Teitell, Michael A., Chiou, Pei-Yu. 3D pulsed laser-triggered high-speed microfluidic fluorescence-activated cell sorter. The Analyst : An International Journal of Analytical and Bioanalytical Science, vol.138, no.24, 7308-7315.
Wu, Min-Hsien, Huang, Song-Bin, Lee, Gwo-Bin. Microfluidic cell culture systems for drug research. Lab on a chip, vol.10, no.8, 939-956.
Waters, L. C., Jacobson, S. C., Kroutchinina, N., Khandurina, J., Foote, R. S., Ramsey, J. M.. Microchip Device for Cell Lysis, Multiplex PCR Amplification, and Electrophoretic Sizing. Analytical chemistry, vol.70, no.1, 158-162.
Kopp, Martin U., Mello, Andrew J. de, Manz, Andreas. Chemical Amplification: Continuous-Flow PCR on a Chip. Science, vol.280, no.5366, 1046-1048.
Ma, Sai, Loufakis, Despina Nelie, Cao, Zhenning, Chang, Yiwen, Achenie, Luke E. K., Lu, Chang. Diffusion-based microfluidic PCR for “one-pot” analysis of cells. Lab on a chip, vol.14, no.16, 2905-2909.
Liao, Chia-Sheng, Lee, Gwo-Bin, Liu, Hsiao-Sheng, Hsieh, Tsung-Min, Luo, Ching-Hsing. Miniature RT–PCR system for diagnosis of RNA-based viruses. Nucleic acids research, vol.33, no.18, e156-e156.
Li, P. C. H., Harrison, D. J.. Transport, Manipulation, and Reaction of Biological Cells On-Chip Using Electrokinetic Effects. Analytical chemistry, vol.69, no.8, 1564-1568.
Inoue, Ippei, Wakamoto, Yuichi, Moriguchi, Hiroyuki, Okano, Kazunori, Yasuda, Kenji. On-chip culture system for observation of isolated individual cells. Lab on a chip, vol.1, no.1, 50-55.
Oakey, John, Applegate, Robert W., Arellano, Erik, Carlo, Dino Di, Graves, Steven W., Toner, Mehmet. Particle Focusing in Staged Inertial Microfluidic Devices for Flow Cytometry. Analytical chemistry, vol.82, no.9, 3862-3867.
Skommer, J., Akagi, J., Takeda, K., Fujimura, Y., Khoshmanesh, K., Wlodkowic, D.. Multiparameter Lab-on-a-Chip flow cytometry of the cellcycle. Biosensors & bioelectronics, vol.42, 586-591.
Ding, Xiaoyun, Lin, Sz-Chin Steven, Lapsley, Michael Ian, Li, Sixing, Guo, Xiang, Chan, Chung Yu, Chiang, I-Kao, Wang, Lin, McCoy, J. Philip, Huang, Tony Jun. Standing surface acoustic wave (SSAW) based multichannel cell sorting. Lab on a chip, vol.12, no.21, 4228-.
Cao, Zhenning, Chen, Fangyuan, Bao, Ning, He, Huacheng, Xu, Peisheng, Jana, Saikat, Jung, Sunghwan, Lian, Hongzhen, Lu, Chang. Droplet sorting based on the number of encapsulated particles using a solenoid valve. Lab on a chip, vol.13, no.1, 171-178.
Applegate, Robert W., Marr, David W. M., Squier, Jeff, Graves, Steven W.. Particle size limits when using optical trapping and deflection of particles for sorting using diode laser bars. Optics express, vol.17, no.19, 16731-.
Yang, Sung-Yi, Hsiung, Suz-Kai, Hung, Yung-Ching, Chang, Chen-Min, Liao, Teh-Lu, Lee, Gwo-Bin. A cell counting/sorting system incorporated with a microfabricated flow cytometer chip. Measurement science & technology, vol.17, no.7, 2001-2009.
Fu, Anne Y., Spence, Charles, Scherer, Axel, Arnold, Frances H., Quake, Stephen R.. A microfabricated fluorescence-activated cell sorter. Nature biotechnology, vol.17, no.11, 1109-1111.
Fu, A. Y., Chou, H.-P., Spence, C., Arnold, F. H., Quake, S. R.. An Integrated Microfabricated Cell Sorter. Analytical chemistry, vol.74, no.11, 2451-2457.
Fiedler, S., Shirley, S. G., Schnelle, T., Fuhr, G.. Dielectrophoretic Sorting of Particles and Cells in a Microsystem. Analytical chemistry, vol.70, no.9, 1909-1915.
Wang, Mark M, Tu, Eugene, Raymond, Daniel E, Yang, Joon Mo, Zhang, Haichuan, Hagen, Norbert, Dees, Bob, Mercer, Elinore M, Forster, Anita H, Kariv, Ilona, Marchand, Philippe J, Butler, William F. Microfluidic sorting of mammalian cells by optical force switching. Nature biotechnology, vol.23, no.1, 83-87.
Guo, Feng, Li, Peng, French, Jarrod B., Mao, Zhangming, Zhao, Hong, Li, Sixing, Nama, Nitesh, Fick, James R., Benkovic, Stephen J., Huang, Tony Jun. Controlling cell–cell interactions using surface acoustic waves. Proceedings of the National Academy of Sciences of the United States of America, vol.112, no.1, 43-48.
Li, Peng, Mao, Zhangming, Peng, Zhangli, Zhou, Lanlan, Chen, Yuchao, Huang, Po-Hsun, Truica, Cristina I., Drabick, Joseph J., El-Deiry, Wafik S., Dao, Ming, Suresh, Subra, Huang, Tony Jun. Acoustic separation of circulating tumor cells. Proceedings of the National Academy of Sciences of the United States of America, vol.112, no.16, 4970-4975.
Li, Sixing, Guo, Feng, Chen, Yuchao, Ding, Xiaoyun, Li, Peng, Wang, Lin, Cameron, Craig E., Huang, Tony Jun. Standing Surface Acoustic Wave Based Cell Coculture. Analytical chemistry, vol.86, no.19, 9853-9859.
Johansson, Linda, Nikolajeff, Fredrik, Johansson, Stefan, Thorslund, Sara. On-Chip Fluorescence-Activated Cell Sorting by an Integrated Miniaturized Ultrasonic Transducer. Analytical chemistry, vol.81, no.13, 5188-5196.
Schmid, Lothar, Weitz, David A., Franke, Thomas. Sorting drops and cells with acoustics: acoustic microfluidic fluorescence-activated cell sorter. Lab on a chip, vol.14, no.19, 3710-3718.
Shi, Jinjie, Mao, Xiaole, Ahmed, Daniel, Colletti, Ashley, Huang, Tony Jun. Focusing microparticles in a microfluidic channel with standing surface acoustic waves (SSAW). Lab on a chip, vol.8, no.2, 221-223.
Shi, Jinjie, Huang, Hua, Stratton, Zak, Huang, Yiping, Huang, Tony Jun. Continuous particle separation in a microfluidic channel via standing surface acoustic waves (SSAW). Lab on a chip, vol.9, no.23, 3354-.
Shi, Jinjie, Yazdi, Shahrzad, Steven Lin, Sz-Chin, Ding, Xiaoyun, Chiang, I-Kao, Sharp, Kendra, Huang, Tony Jun. Three-dimensional continuous particle focusing in a microfluidic channel via standing surface acoustic waves (SSAW). Lab on a chip, vol.11, no.14, 2319-2324.
Lin, Sz-Chin Steven, Mao, Xiaole, Huang, Tony Jun. Surface acoustic wave (SAW) acoustophoresis: now and beyond. Lab on a chip, vol.12, no.16, 2766-.
Ding, Xiaoyun, Lin, Sz-Chin Steven, Kiraly, Brian, Yue, Hongjun, Li, Sixing, Chiang, I-Kao, Shi, Jinjie, Benkovic, Stephen J., Huang, Tony Jun. On-chip manipulation of single microparticles, cells, and organisms using surface acoustic waves. Proceedings of the National Academy of Sciences of the United States of America, vol.109, no.28, 11105-11109.
Ding, Xiaoyun, Peng, Zhangli, Lin, Sz-Chin Steven, Geri, Michela, Li, Sixing, Li, Peng, Chen, Yuchao, Dao, Ming, Suresh, Subra, Huang, Tony Jun. Cell separation using tilted-angle standing surface acoustic waves. Proceedings of the National Academy of Sciences of the United States of America, vol.111, no.36, 12992-12997.
Mao, Xiaole, Nawaz, Ahmad Ahsan, Lin, Sz-Chin Steven, Lapsley, Michael Ian, Zhao, Yanhui, McCoy, J. Philip, El-Deiry, Wafik S., Huang, Tony Jun. An integrated, multiparametric flow cytometry chip using “microfluidic drifting” based three-dimensional hydrodynamic focusing. Biomicrofluidics, vol.6, no.2, 024113-.
Nawaz, Ahmad Ahsan, Zhang, Xiangjun, Mao, Xiaole, Rufo, Joseph, Lin, Sz-Chin Steven, Guo, Feng, Zhao, Yanhui, Lapsley, Michael, Li, Peng, McCoy, J. Philip, Levine, Stewart J., Huang, Tony Jun. Sub-micrometer-precision, three-dimensional (3D) hydrodynamic focusing via “microfluidic drifting”. Lab on a chip, vol.14, no.2, 415-423.
Nawaz, Ahmad Ahsan, Nissly, Ruth Helmus, Li, Peng, Chen, Yuchao, Guo, Feng, Li, Sixing, Shariff, Yasir M., Qureshi, Arooj Nawaz, Wang, Lin, Huang, Tony Jun. Immunological Analyses of Whole Blood via “Microfluidic Drifting” Based Flow Cytometric Chip. Annals of biomedical engineering, vol.42, no.11, 2303-2313.
Mao, Xiaole, Lin, Sz-Chin Steven, Dong, Cheng, Huang, Tony Jun. Single-layer planar on-chip flow cytometer using microfluidic drifting based three-dimensional (3D) hydrodynamic focusing. Lab on a chip, vol.9, no.11, 1583-1589.
Mao, Xiaole, Waldeisen, John Robert, Huang, Tony Jun. “Microfluidic drifting”—implementing three-dimensional hydrodynamic focusing with a single-layer planar microfluidic device. Lab on a chip, vol.7, no.10, 1260-1262.
Xia, Younan, Whitesides, George M.. SOFT LITHOGRAPHY. Annual review of materials science, vol.28, no.28, 153-184.
Zhao, Chenglong, Liu, Yongmin, Zhao, Yanhui, Fang, Nicholas, Huang, Tony Jun. A Reconfigurable Plasmofluidic Lens. Nature communications, vol.4, 2305-2305.
Zhao, Yanhui, Stratton, Zackary S., Guo, Feng, Lapsley, Michael Ian, Chan, Chung Yu, Lin, Sz-Chin Steven, Huang, Tony Jun. Optofluidic imaging: now and beyond. Lab on a chip, vol.13, no.1, 17-24.
Zhao, Yanhui, Lin, Sz-Chin Steven, Nawaz, Ahmad Ahsan, Kiraly, Brian, Hao, Qingzhen, Liu, Yanjun, Huang, Tony Jun. Beam bending via plasmonic lenses. Optics express, vol.18, no.22, 23458-.
Jakobsson, Ola, Grenvall, Carl, Nordin, Maria, Evander, Mikael, Laurell, Thomas. Acoustic actuated fluorescence activated sorting of microparticles. Lab on a chip, vol.14, no.11, 1943-1950.
Ding, Xiaoyun, Li, Peng, Lin, Sz-Chin Steven, Stratton, Zackary S., Nama, Nitesh, Guo, Feng, Slotcavage, Daniel, Mao, Xiaole, Shi, Jinjie, Costanzo, Francesco, Huang, Tony Jun. Surface acoustic wave microfluidics. Lab on a chip, vol.13, no.18, 3626-.
해당 논문의 주제분야에서 활용도가 높은 상위 5개 콘텐츠를 보여줍니다.
더보기 버튼을 클릭하시면 더 많은 관련자료를 살펴볼 수 있습니다.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
저자가 공개 리포지터리에 출판본, post-print, 또는 pre-print를 셀프 아카이빙 하여 자유로운 이용이 가능한 논문
Copyright KISTI. All Rights Reserved.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.