Lab On A Chip Collection

MEMS factory C013 / 5614
MEMS factory. Close-up of a MEMS (microelectromechanical systems) device in a furnace at a MEMS factory. MEMS devices are constructed on a microscopic scale using technologies such as wet

MEMS devices, artwork C013 / 5615
MEMS devices. MEMS (microelectromechanical systems) devices are constructed on a microscopic scale using technologies such as wet and dry etching and thin film deposition

MEMS chip, composite artwork C013 / 5611
MEMS chip. Composite artwork of a person holding a MEMS (microelectromechanical systems) device mounted on a CD. MEMS devices are constructed on a microscopic scale using technologies such as wet

MEMS factory C013 / 5612
MEMS factory. Workers in a cleanroom at a factory that makes MEMS (microelectromechanical systems) devices. MEMS devices are constructed on a microscopic scale using technologies such as wet

MEMS chip C013 / 5610
MEMS chip. Person holding a MEMS (microelectromechanical systems) device mounted on a CD. MEMS devices are constructed on a microscopic scale using technologies such as wet and dry etching

Lab on a chip, LOCAD-PTS system C016 / 4199
Lab on a chip being held in a gloved hand. These devices are used for numerous applications, from medical tests to water quality monitoring to detecting the signatures of life on other planets

Protein research device, SEM
Lab on a chip. Coloured scanning electron micrograph (SEM) of a section through a " lab on a chip", a microfluidic device used for analysing proteins

Worm trapped inside a lab-on-a-chip, fluorescence light micrograph. This lab-on-a-chip, created by Mehmet Fatih Yanik, from the Massachusetts Institute of Technology (MIT), USA, can sort

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"Revolutionizing Science: The Lab on a Chip" Meet Dr. Lisa Monaco, the brilliant mind behind the groundbreaking project known as Lab-on-a-Chip Applications at Marshall Space Flight Center (MSFC). With her expertise and passion for innovation, she is spearheading a new era in scientific research. Labs on chips are not limited to one shape or size; they come in various forms tailored for diverse applications. From protein research devices to worm trapping mechanisms, these miniature laboratories hold immense potential for advancing our understanding of the world around us. Working alongside Dr. Monaco is Helen Cole, the dedicated project manager for Lab-on-a-Chip Applications Development program. Together, they strive to push boundaries and unlock endless possibilities within this field. Andy Jenkins, an engineer with the same program, plays a crucial role in designing and developing these remarkable MEMS (Micro-Electro-Mechanical Systems) devices that make lab-on-a-chip technology possible. His expertise ensures that each chip meets high standards of precision and functionality. Step inside MEMS factory C013 / 5614 where cutting-edge technology comes to life. Witness firsthand how intricate artwork such as C013 / 5615 composite artwork brings forth extraordinary MEMS chips like C013 / 5611 - marvels of engineering that fit into the palm of your hand. The LOCAD-PTS system (Lab on a Chip Application Development Point-of-Care Testing System), represented by C016 / 4199 image, showcases how this revolutionary technology can be applied directly in medical diagnostics and has the potential to transform healthcare delivery by providing rapid results with minimal resources required. But it doesn't stop there. These tiny powerhouses have even captured nature's wonders within their confines. Imagine observing a worm trapped inside a lab-on-a-chip - an incredible feat made possible through this innovative approach to scientific exploration.