2012
DOI: 10.1039/c2lc40517b
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Optical imaging techniques in microfluidics and their applications

Abstract: Microfluidic devices have undergone rapid development in recent years and provide a lab-on-a-chip solution for many biomedical and chemical applications. Optical imaging techniques are essential in microfluidics for observing and extracting information from biological or chemical samples. Traditionally, imaging in microfluidics is achieved by bench-top conventional microscopes or other bulky imaging systems. More recently, many novel compact microscopic techniques have been developed to provide a low-cost and … Show more

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Cited by 124 publications
(91 citation statements)
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References 102 publications
(128 reference statements)
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“…The other challenge is the low working distance between the objective lens and the sample surface. In an inverted microscope version, the magnifying arm is below the sample platform and that makes wide Small 2019, 15,1900737 Figure 2. Four imaging classes discussed in this review paper include: scattering-based imaging for static platforms, emission-based imaging for static platforms, scattering-based imaging for dynamic platforms, and emission-based imaging for dynamic platforms.…”
Section: Bright-and Dark-field Microscopiesmentioning
confidence: 99%
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“…The other challenge is the low working distance between the objective lens and the sample surface. In an inverted microscope version, the magnifying arm is below the sample platform and that makes wide Small 2019, 15,1900737 Figure 2. Four imaging classes discussed in this review paper include: scattering-based imaging for static platforms, emission-based imaging for static platforms, scattering-based imaging for dynamic platforms, and emission-based imaging for dynamic platforms.…”
Section: Bright-and Dark-field Microscopiesmentioning
confidence: 99%
“…Rotation of the specimen by 180° could change hills to valleys and vice versa. It should be mentioned that carriers of the specimen such as plastic platforms may Small 2019, 15,1900737 not preserve the polarization and is not suitable for imaging with this microscope. As a conventional method, the DIC micro scopy is widely used for bioimaging.…”
Section: Bright-and Dark-field Microscopiesmentioning
confidence: 99%
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“…Although significant development in imaging technologies has occurred in recent years with impressive results [3][4][5][6], the novel 3D microfluidic paradigm poses ever more demanding expectations to face all the problems connected with the limited depth of focus in microscopy. In fact, the complex geometries of 3D microfluidic channels can become an insurmountable barrier in the analysis of micro-objects flowing along 3D paths, and limited depth of field (DOF) remains one of the main shortfalls in these optical imaging systems, especially in microscopy.…”
mentioning
confidence: 99%
“…Research efforts towards low cost, compact imaging systems have focused on utilizing microlenses [7][8][9][10] and microlens arrays [11][12][13][14][15][16][17][18][19][20][21][22][23][24][25][26] optofluidic microscope [27,28] or even tomographic imaging methods [29,30]. Although these approaches demonstrated high-resolution imaging, they typically lack the flexibility and versatility of a stereo microscope where the user can easily adjust the focus and magnification or the illumination conditions depending on the sample that is being imaged.…”
Section: Introductionmentioning
confidence: 99%