Seminar Date: 17 October 2014 Copyright OIST (Okinawa Institute of Science and Technology Graduate University, 沖縄科学技術大学院大学). Creative Commons Attribution 4.0 International License (CC BY 4.0). Download full-resolution image Share on: Related Images Professor Evan Economo Professor Evan Economo and researchers in the Biodiversity and Biocomplexity Unit compared genetic sequences from hundreds species of Pheidole, a group of ants with mysteriously high diversity. They used these sequences to construct a Pheidole evolutionary tree that suggests Pheidole evolved the same way twice, to take over the New World and then the Old World. Plankton Researcher Mary Grossmann identified more than fifty thousand plankton images. This figure shows the diversity of her findings, including diatoms (c), radiolarians (d), copepods (f), isopods (g), shrimp (k), and fish (l). Zebra Finches Zebra finches are used as models for the study of vocalization as their song patterns are well understood by researchers. Pinholes Atomic Force Microscopy (AFM) images show pinholes in the spiro-MeOTAD when it is first prepared (top) and after air exposure for 24 hours (bottom). The average diameter of the pinholes is about 135 nanometers, with some as large as two microns. Members of OIST Energy Materials and Surface Sciences Unit (From left) Dr. Luis Ono, OIST PhD student Zafer Hawash, Professor Yabing Qi and Dr. Michael Lee aim to improve the efficiency and lifetime of perovskite solar cells.
Professor Evan Economo Professor Evan Economo and researchers in the Biodiversity and Biocomplexity Unit compared genetic sequences from hundreds species of Pheidole, a group of ants with mysteriously high diversity. They used these sequences to construct a Pheidole evolutionary tree that suggests Pheidole evolved the same way twice, to take over the New World and then the Old World.
Professor Evan Economo Professor Evan Economo and researchers in the Biodiversity and Biocomplexity Unit compared genetic sequences from hundreds species of Pheidole, a group of ants with mysteriously high diversity. They used these sequences to construct a Pheidole evolutionary tree that suggests Pheidole evolved the same way twice, to take over the New World and then the Old World.
Plankton Researcher Mary Grossmann identified more than fifty thousand plankton images. This figure shows the diversity of her findings, including diatoms (c), radiolarians (d), copepods (f), isopods (g), shrimp (k), and fish (l).
Plankton Researcher Mary Grossmann identified more than fifty thousand plankton images. This figure shows the diversity of her findings, including diatoms (c), radiolarians (d), copepods (f), isopods (g), shrimp (k), and fish (l).
Zebra Finches Zebra finches are used as models for the study of vocalization as their song patterns are well understood by researchers.
Zebra Finches Zebra finches are used as models for the study of vocalization as their song patterns are well understood by researchers.
Pinholes Atomic Force Microscopy (AFM) images show pinholes in the spiro-MeOTAD when it is first prepared (top) and after air exposure for 24 hours (bottom). The average diameter of the pinholes is about 135 nanometers, with some as large as two microns.
Pinholes Atomic Force Microscopy (AFM) images show pinholes in the spiro-MeOTAD when it is first prepared (top) and after air exposure for 24 hours (bottom). The average diameter of the pinholes is about 135 nanometers, with some as large as two microns.
Members of OIST Energy Materials and Surface Sciences Unit (From left) Dr. Luis Ono, OIST PhD student Zafer Hawash, Professor Yabing Qi and Dr. Michael Lee aim to improve the efficiency and lifetime of perovskite solar cells.
Members of OIST Energy Materials and Surface Sciences Unit (From left) Dr. Luis Ono, OIST PhD student Zafer Hawash, Professor Yabing Qi and Dr. Michael Lee aim to improve the efficiency and lifetime of perovskite solar cells.