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Selective Interfacial Barriers Drive High‐Performance GeTe Thermoelectrics
Advanced Science, EarlyView.Carrier‐phonon decoupling is the key to developing high‐performance thermoelectric materials. Here, we demonstrate that selective interfacial barriers can decouple carrier and phonon transport, thus achieving an exceptional peak ZT of ∼2.7 at 773 K, along with a record‐high average ZT of 1.9 across 300–773 K in the (Ge0.82Mn0.04Bi0.04Pb0.1Te)0.99(VSe2 ...
Liang‐Cao Yin +12 more
wiley +1 more source
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Environmental Science & Technology, 1982
Problems associated with safe disposal of spent fuel rods, uranium mill tailings, high and low-level nuclear waste are reviewed. The pros and cons of reprocessing, low-level sites, geologic repositories and use of borosilicate waste forms are discussed. (JMT)
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Problems associated with safe disposal of spent fuel rods, uranium mill tailings, high and low-level nuclear waste are reviewed. The pros and cons of reprocessing, low-level sites, geologic repositories and use of borosilicate waste forms are discussed. (JMT)
+10 more sources
Nuclear Waste: Knowledge Waste?
Science, 2010A stalled nuclear waste program, and possible increase in wastes, beg for social science input into acceptable solutions.
Eugene A, Rosa +15 more
openaire +2 more sources
2014
I gazed over the railing into the crystal clear cooling pool glowing with blue Cherenkov light caused by particulate radiation traveling faster than the speed of light in water. I can see a matrix of square objects through the water, filling more than half of the pool.
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I gazed over the railing into the crystal clear cooling pool glowing with blue Cherenkov light caused by particulate radiation traveling faster than the speed of light in water. I can see a matrix of square objects through the water, filling more than half of the pool.
+5 more sources
Journal of Materials Science, 1986
Glass and polycrystalline materials for high-level radioactive waste immobilization are discussed. Borosilicate glass has been selected as the waste form for defence high-level radwaste in the US. Since release of the radionuclides to the biosphere is the major concern, this paper focuses on the potential interactions between the waste form and its ...
L. L. Hench, D. E. Clark, A. B. Harker
openaire +1 more source
Glass and polycrystalline materials for high-level radioactive waste immobilization are discussed. Borosilicate glass has been selected as the waste form for defence high-level radwaste in the US. Since release of the radionuclides to the biosphere is the major concern, this paper focuses on the potential interactions between the waste form and its ...
L. L. Hench, D. E. Clark, A. B. Harker
openaire +1 more source
Molecular imaging in oncology: Current impact and future directions
Ca-A Cancer Journal for Clinicians, 2022Steven P Rowe, Martin G Pomper
exaly
Recent Advances in Corrosion Science Applicable To Disposal of High-Level Nuclear Waste
Chemical Reviews, 2021Gerald S Frankel +2 more
exaly