Add-on device converts cell phones into wide-field fluorescent microscopes

UCLA Health article
UCLA researchers have developed a matchbox-sized attachment that converts a cell phone's camera into a fluorescent microscope. The device utilizes an inexpensive lens and battery-powered, light-emitting diodes to create a field of view some two orders of magnitude larger than previous cell-phone fluorescent microscopy technology. It is more than five times smaller than previous cell phone microscopes.
By using side-illumination geometry, the device is also capable of dark-field microscopy on both fluorescent and non-fluorescent specimens, an illumination technique in which only light shown on a biological sample is captured, making it appear as if the sample is on a black background and enhancing the image. The side-illumination technique negates the need for more expensive thin-film interference filters typically used in fluorescent microscopy; an inexpensive plastic color filter can be used for this purpose.
The compact and inexpensive cell phone add-on, with its ability to quickly and accurately test large sample sizes, could serve as a vital telemedicine tool in underdeveloped areas of the globe where conventional health care services are not available.
While the device does not achieve the resolution of conventional microscopes, its resolution is high enough to screen for labeled pathogens in drinking water or food and to image various body fluid samples to search for disease markers. The device easily fits on most cell phones and can be repeatedly attached and detached without fine alignment or tuning.
Study authors are Hongying Zhu, Oguzhan Yaglidere, Ting-Wei Su, Derek Tseng, and Aydogan Ozcan.
Ozcan, the inventor of the fluorescent microscope cell phone attachment and an assistant professor of electrical engineering at the UCLA Henry Samueli School of Engineering and Applied Science, is available for interviews. Ozcan is also a researcher at UCLA's California NanoSystems Institute. For more on his work, visit
The research was funded by grants from the National Science Foundation, the Office of Naval Research and the National Institutes of Health and was supported by the Gates Foundation, the Vodafone Americas Foundation, the Defense Advanced Research Projects Agency and the U.S. Air Force Office of Scientific Research.
This research was recently published in the peer-reviewed journal Lab on a Chip and is available online at
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