I agree my information will be processed in accordance with the ENSEMBLEΒ³ Privacy Policy.
Sign up for our newsletter
I Privacy policy |
Functional Materials Technology Group
Optical Nanocharacterization Group
Inverse Materials Design Group
Next-Generation Energy Systems Group
Biophotonic Applications Group
Solar Energy Conversion Group
Oxide Single Crystals Group
A3B5 Compound Semiconductors Group
Functional Materials Laboratory
Oxide Single Crystals Laboratory
Materials Characterization Laboratory
III-V Compound Semiconductors Laboratory
Contact
Ensemble3 sp. z o.o.
01-919 Warsaw
133 WΓ³lczyΕska St.
NIP 1182211096
KRS 0000858669
Theoretical Calculations of Organic Salts and Their Correlation with Proton Conductivity
Exciting new research alert! π’π¬
π¬π‘οΈ Proton Conductivity in High-Temperature Polymer Electrolyte Membrane Fuel Cells: Theoretical Calculations of Organic Salts and Their Correlation π‘οΈπ¬
π We're thrilled to highlight the newest work of researchers Keiichiro Maegawa, Towa Bunno, Ibuki Yokoyama, Atsunori Matsuda and the leader of the Next-Generation Energy Group at ENSEMBLEΒ³, Atsushi Nagai. Their latest work, published in ACS Applied Polymer Materials in early May, delves into the design and optimization of organic salts for enhanced proton conductivity in high-temperature anhydrous conditions.
π This research opens doors to the development of advanced proton conductors for high-temperature environments, with implications for the future of high-temperature polymer electrolyte membrane fuel cells.
π Congratulations to the authors invaluable contributions to the field! You can read the article here ππ» ππ» ππ» https://pubs.acs.org/doi/abs/10.1021/acsapm.3c00045
