Microfinance -- Sri Lanka : Empirical analysis of participation patterns in microfinancial markets : the cases of Ghana and Sri Lanka / Mirko Bendig
2012
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Microfinance -- Study and teaching -- Kenya : Access to microfinance and financial training for innovative urban sustainability : collective investments at the bottom of the pyramid segment in urban Kenya / Emmanuel Musau Mutisya
2015
1
Microfinance -- Sudan : Rural development and microfinance projects in Sudan : with special attention to community participation / Nawal El-Gack ; with a Foreword by John Overton
2012
1
Microfinance -- Tanzania : Helping social entrepreneurs. Episode 8, Microfinance & poverty / SW Pictures
The study of fluid channels and chambers of tiny dimensions of tens to hundreds of micrometers and volumes of nanoliters or picoliters. This is of interest in biological MICROCIRCULATION and used in MICROCHEMISTRY and INVESTIGATIVE TECHNIQUES
Methods utilizing the principles of MICROFLUIDICS for sample handling, reagent mixing, and separation and detection of specific components in fluids
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Microfluidic Analytical Techniques -- See Also Microfluidics
The study of fluid channels and chambers of tiny dimensions of tens to hundreds of micrometers and volumes of nanoliters or picoliters. This is of interest in biological MICROCIRCULATION and used in MICROCHEMISTRY and INVESTIGATIVE TECHNIQUES
Microdevices that combine microfluidics technology with electrical and/or mechanical functions for analyzing very small fluid volumes. They consist of microchannels etched into substrates made of silicon, glass, or polymer using processes similar to photolithography. The test fluids in the channels can then interact with different elements such as electrodes, photodetectors, chemical sensors, pumps, and valves
Microdevices that combine microfluidics technology with electrical and/or mechanical functions for analyzing very small fluid volumes. They consist of microchannels etched into substrates made of silicon, glass, or polymer using processes similar to photolithography. The test fluids in the channels can then interact with different elements such as electrodes, photodetectors, chemical sensors, pumps, and valves
Microfluidic devices -- Congresses : Microfluidics based microsystems : fundamentals and applications / edited by S. KakaƧ [and others]
2010
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Microfluidic devices -- Design and construction : Micro-electrode-dot-array digital microfluidic biochips : design automation, optimization, and test techniques / Zipeng Li, Krishnendu Chakrabarty, Tsung-Yi Ho, Chen-Yi Lee
Microdevices that combine microfluidics technology with electrical and/or mechanical functions for analyzing very small fluid volumes. They consist of microchannels etched into substrates made of silicon, glass, or polymer using processes similar to photolithography. The test fluids in the channels can then interact with different elements such as electrodes, photodetectors, chemical sensors, pumps, and valves
Microdevices that combine microfluidics technology with electrical and/or mechanical functions for analyzing very small fluid volumes. They consist of microchannels etched into substrates made of silicon, glass, or polymer using processes similar to photolithography. The test fluids in the channels can then interact with different elements such as electrodes, photodetectors, chemical sensors, pumps, and valves
Microdevices that combine microfluidics technology with electrical and/or mechanical functions for analyzing very small fluid volumes. They consist of microchannels etched into substrates made of silicon, glass, or polymer using processes similar to photolithography. The test fluids in the channels can then interact with different elements such as electrodes, photodetectors, chemical sensors, pumps, and valves
Microdevices that combine microfluidics technology with electrical and/or mechanical functions for analyzing very small fluid volumes. They consist of microchannels etched into substrates made of silicon, glass, or polymer using processes similar to photolithography. The test fluids in the channels can then interact with different elements such as electrodes, photodetectors, chemical sensors, pumps, and valves
Microfluidics -- Mathematics : Topology optimization theory for laminar flow : applications in inverse design of microfluidics / Yongbo Deng, Yihui Wu, Zhenyu Liu