Naoki Nitta
Naoki Nitta
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Zitiert von
Zitiert von
Li-ion battery materials: present and future
N Nitta, F Wu, JT Lee, G Yushin
Materials today 18 (5), 252-264, 2015
High‐capacity anode materials for lithium‐ion batteries: choice of elements and structures for active particles
N Nitta, G Yushin
Particle & Particle Systems Characterization 31 (3), 317-336, 2014
Lithium iodide as a promising electrolyte additive for lithium–sulfur batteries: mechanisms of performance enhancement
F Wu, JT Lee, N Nitta, H Kim, O Borodin, G Yushin
Advanced Materials 27 (1), 101-108, 2015
In situ formation of protective coatings on sulfur cathodes in lithium batteries with LiFSI‐based organic electrolytes
H Kim, F Wu, JT Lee, N Nitta, HT Lin, M Oschatz, WI Cho, S Kaskel, ...
Advanced energy materials 5 (6), 1401792, 2015
Freestanding macroporous silicon and pyrolyzed polyacrylonitrile as a composite anode for lithium ion batteries
M Thakur, RB Pernites, N Nitta, M Isaacson, SL Sinsabaugh, MS Wong, ...
Chemistry of Materials 24 (15), 2998-3003, 2012
A Hierarchical Particle–Shell Architecture for Long‐Term Cycle Stability of Li2S Cathodes
F Wu, JT Lee, F Fan, N Nitta, H Kim, T Zhu, G Yushin
Advanced Materials 27 (37), 5579-5586, 2015
Comparative study of the solid electrolyte interphase on graphite in full Li-ion battery cells using X-ray photoelectron spectroscopy, secondary ion mass spectrometry, and …
JT Lee, N Nitta, J Benson, A Magasinski, TF Fuller, G Yushin
Carbon 52, 388-397, 2013
Stabilization of selenium cathodes via in situ formation of protective solid electrolyte layer
JT Lee, H Kim, N Nitta, K Eom, DC Lee, F Wu, HT Lin, B Zdyrko, WI Chod, ...
Journal of Materials Chemistry A 2 (44), 18898-18905, 2014
In Situ Small Angle Neutron Scattering Revealing Ion Sorption in Microporous Carbon Electrical Double Layer Capacitors
S Boukhalfa, D Gordon, L He, YB Melnichenko, N Nitta, A Magasinski, ...
Acs Nano 8 (3), 2495-2503, 2014
Lithographically patterned thin activated carbon films as a new technology platform for on-chip devices
L Wei, N Nitta, G Yushin
Acs Nano 7 (8), 6498-6506, 2013
Degradation and stabilization of lithium cobalt oxide in aqueous electrolytes
A Ramanujapuram, D Gordon, A Magasinski, B Ward, N Nitta, C Huang, ...
Energy & Environmental Science 9 (5), 1841-1848, 2016
Carbon Nanotube–CoF2 Multifunctional Cathode for Lithium Ion Batteries: Effect of Electrolyte on Cycle Stability
X Wang, W Gu, JT Lee, N Nitta, J Benson, A Magasinski, MW Schauer, ...
Small 11 (38), 5164-5173, 2015
Lithium–iron fluoride battery with in situ surface protection
W Gu, O Borodin, B Zdyrko, HT Lin, H Kim, N Nitta, J Huang, A Magasinski, ...
Advanced Functional Materials 26 (10), 1507-1516, 2016
Aqueous solutions of acidic ionic liquids for enhanced stability of polyoxometalate-carbon supercapacitor electrodes
C Hu, E Zhao, N Nitta, A Magasinski, G Berdichevsky, G Yushin
Journal of Power Sources 326, 569-574, 2016
Enhancing cycle stability of lithium iron phosphate in aqueous electrolytes by increasing electrolyte molarity
D Gordon, MY Wu, A Ramanujapuram, J Benson, JT Lee, A Magasinski, ...
Advanced Energy Materials 6 (2), 1501805, 2016
Influence of binders, carbons, and solvents on the stability of phosphorus anodes for Li-ion batteries
N Nitta, D Lei, HR Jung, D Gordon, E Zhao, G Gresham, J Cai, I Luzinov, ...
ACS Applied Materials & Interfaces 8 (39), 25991-26001, 2016
Toward a long-chain perfluoroalkyl replacement: Water and oil repellency of polyethylene terephthalate (PET) films modified with perfluoropolyether-based polyesters
T Demir, L Wei, N Nitta, G Yushin, PJ Brown, I Luzinov
ACS applied materials & interfaces 9 (28), 24318-24330, 2017
Electrodeposition of nanostructured magnesium coatings
W Gu, JT Lee, N Nitta, G Yushin
Nanomaterials and Nanotechnology 4, 30, 2014
Conversion Cathodes: Lithium–Iron Fluoride Battery with In Situ Surface Protection (Adv. Funct. Mater. 10/2016)
W Gu, O Borodin, B Zdyrko, HT Lin, H Kim, N Nitta, J Huang, A Magasinski, ...
Advanced Functional Materials 26 (10), 1490-1490, 2016
Solid electrolyte technology with rearrangeable bonds for metal and metal-ion batteries
G Yushin, K Turcheniuk, X Yiran, AY Song, O Borodin, N Nitta
US Patent 10,892,486, 2021
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