Prisma E SEM
Talos F200i TEM
Explore MyScope Outreach
The 2016 Image Contest Grand Prize Winner
Learn how to engage in cryo-EM SPA
2017 Nobel Prize for Chemistry
Krios G3i Cryo-TEM
Webcast: How Image Accuracy Impacts Your Research
What's new in PerGeos 1.1
Platey crystals of kaolinite clay and quartz crystal (RHS)
Courtesy of Dr. jim buckman , Heriot-Watt University
Taken by Quanta SEM microscope
YMnO3 thin film grown by MOCVD on silicon substrate at 850°C. Image taken by Ionela Iliescu and Patrick Chaudouet.
Courtesy of IONELA ILIESCU
Glomerular loops from human kidney responsible for blood filtering.
Courtesy of Kinulpe Honorato-Sampaio
Taken by Tecnai microscope
charging around a tungsten wire
Courtesy of Martina Dienstleder
Taken by DualBeam microscope
Cross sections through high-pressure frozen Nucella lamellosa sperm tails showing the classic 9+2 arrangement of microtubules, and amazing plasma membrane detail.
Courtesy of Mr. Garnet Martens , BioImaging Facility
the beginning crystal in geomineral
Courtesy of Claudia Montanari
SEM images of the fractured surface of PU foams. The foam exhibites polygon closed-cell structures with hexagonal faces.
Courtesy of Ms. NAYELY PINEDA , Cimav
Taken by Nova NanoSEM microscope
CdSCu nanowires imaged with a 2keV landing energy at very high magnification Courtesy of AMOLF Product: Verios SEM
Taken by Verios XHR SEM microscope
Standard AFM tip with University of Utah Logo written on it and probe tip modified. Quanta 3D for logo patterening and NovaNanoSEM for imaging.
Courtesy of randy polson
pentagonal dodecahedron IN ALLOY Al-Fe-Cu
Courtesy of FRANC ZUPANIC
Formation of glandular trichomes on lower leaf surface of a young leaf of basil (Ocimum basilicum). The smaller trichomes with four evident cells have just formed and the cuticles covering their four glandular cells still adhere to the glandular cells. Three of the larger trichomes are more mature and essential oils secreted from the glandular cells of these trichomes have caused the cuticles covering them to separate from the cells and balloon outward, hiding the glandular cap cells below. This unfixed leaf was imaged with an FEI Quanta 200F SEM in environmental mode at Washington State University’s Franceschi Microscopy and Imaging Center. Scale bar = 150 µm.
Courtesy of Glenn Turner
Courtesy of Dr. Maurício Paiva , INT - Instituto Nacional de Tecnologia
ZnO has large exciton binding energy of about 60 meV so they can be used as transparent electrodes in displays and metal oxide semiconductor in optoelectronic devices. ZnO also is an attractive piezoelectric materials mainly used in surface accuostic waves components and piezoelectric devices.
Courtesy of Mrs. Seydanur Kaya , Kastamonu University
Artifact of FIB milling
Courtesy of Alex Lahav
The picture was taken after the growth by CVD of silicon nanowires on a copper foil with gold on top. When I saw it I remembered the perturbation caused by sun storms on magnetic field of the earth. These nanowires will be used to manufacture anodes of ion-Li batteries.
Courtesy of Isidoro Ignacio Poveda Barriga
Taken by SEM microscope
ZnO structures grown on Si substrate.
Courtesy of Peter Heß
Staphylococcus aureus bacteria
Courtesy of Mrs. MARIA LÁZARO DÍEZ , IDIVAL
Taken by Inspect microscope
This Arabidopsis leaf was taken from a seedling grown in total darkness. Note the crystalline prolamellar bodies within the etioplasts.
Courtesy of Ms. Pat Kysar , University of California, Davis
Taken by TEM microscope
3 Slice Surface - VolumeScope
Taken by VolumeScope microscope
ZnO nanowire bundle in cross section, prepared by Helios FIB. ZnO supplied by Kathy Han from Oregon State University. Imaging and FIB work performed by Jeff Ditto at CAMCOR (University of Oregon).
Courtesy of Kurt Langworthy
Taken by Helios NanoLab microscope
The roots of an offshoot from a cactus plant.
Courtesy of Matt Sharp
Courtesy of Mr. MUHAMMET AYDIN , Namık kemal university
Unusual carbon rods formed on carbon aerogel during conversion to graphite aerogel.
Courtesy of Dr. Clarissa Wisner , MS&T
Courtesy of Mr. FRANCISCO RANGEL , MCTI/INT
Gold Nanorods are electrochemically grown to produce SERS active surfaces. Each rod has a diameter of approximately 200nm, however, the length is dependent on the deposition time. If the deposition time is too long, then rods become longer than the template. Without site directed growth, the gold forms larger aggregates, which resulted in the formation of the gold mushroom after the template was removed.
Courtesy of Jay Leitch