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5 Current news of Kyoto University
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'Opposite action' could improve industrial gas separation
A design concept changes how materials separate gaseous mixtures
22-Mar-2021
A more energy-efficient method improves how an industrial gas is purified by reversing the traditional process. The concept was developed and successfully tested by scientists at Kyoto University's Institute for Integrated Cell-Material Sciences (iCeMS) in Japan and colleagues.Acetylene is a gas ...
Making an eye for you
The underlying mechanisms of 3D tissue formation
27-Nov-2018
If you want to build an organ, such as for transplant, you need to think in 3D. Using stem cells, scientists for some time have been able to grow parts of organs in the lab, but that is a far cry from constructing an actual, fully-formed, functioning, three-dimensional organ. For students of ...
An Elastic Puff of Air
Superflexible aerogels are highly efficient absorbents, thermal insulators, and pressure sensors
27-Jul-2018
Airy, Airier, Aerogel. Until now, brittleness has limited the practical application of these delicate solids, which consist almost entirely of air-filled pores. This may now change: Japanese researchers have now introduced extremely elastic aerogels that are easy to process and can be produced at ...
A new 'periodic table' for nanomaterials
New simulation helps scientists to decide what molecules best interact with each other
25-Jul-2018
The approach was developed by Daniel Packwood of Kyoto University's Institute for Integrated Cell-Material Sciences (iCeMS) and Taro Hitosugi of the Tokyo Institute of Technology. It involves connecting the chemical properties of molecules with the nanostructures that form as a result of their ...
A nanofiber matrix for healing
15-Feb-2017
A new nanofiber-on-microfiber matrix could help produce more and better quality stem cells for disease treatment and regenerative therapies. A matrix made of gelatin nanofibers on a synthetic polymer microfiber mesh may provide a better way to culture large quantities of healthy human stem ...
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