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( a ) Scanning electron microscope image of a porous transport layer manufa...
Published Online: August 8, 2022
Fig. 1 ( a ) Scanning electron microscope image of a porous transport layer manufactured by Toray, (Reproduced with permission from Ref. [ 16 ]. © 2014 Springer.) ( b ) cylinders oriented randomly in y-z planes, ( c ) ordered inline-square array of cylinders s x = s y = s , and ( d ) ... More
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Comparison of analytical values of microstructural factor for ordered inlin...
Published Online: August 8, 2022
Fig. 2 Comparison of analytical values of microstructural factor for ordered inline and staggered geometries based on Eq. (5) , with the random porous media correlations of Bruggeman [ 5 ], and Tomadakis and Sotirchos [ 8 ]. More
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Verification of the solution: Sample values for analytical results for micr...
Published Online: August 8, 2022
Fig. 3 Verification of the solution: Sample values for analytical results for microstructural parameter, M , based on Eq. (5) , compared to numerical calculations obtained using a finite-volume method, as well as those of Perrins et al. [ 25 ] for inline-square geometry. More
Journal Articles
Journal Articles
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( a ) and ( b ) SEM images of HCNFs, ( c ) TEM image of HCNFs, ( d ) HRTEM ...
Published Online: August 4, 2022
Fig. 2 ( a ) and ( b ) SEM images of HCNFs, ( c ) TEM image of HCNFs, ( d ) HRTEM image of HCNFs, ( e ) XRD pattern of HCNFs, and ( f ) Raman spectra of HCNFs More
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( a ) CV curves of HCNFs at a scan rate of 0.1 mV/s, ( b ) charge and disch...
Published Online: August 4, 2022
Fig. 3 ( a ) CV curves of HCNFs at a scan rate of 0.1 mV/s, ( b ) charge and discharge curves of HCNFs electrodes at 50 mA/g, ( c ) cycle performance curves of HCNFs at 200 mA/g, ( d ) rate performance curves of HCNFs, ( e ) the electrochemical impedance spectra of HCNFs and GP, and ( f ) SEM imag... More
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Structural transformations of individual lattices generate at the atomic sc...
Published Online: August 4, 2022
Fig. 1 Structural transformations of individual lattices generate at the atomic scale (∼10 −9 m) generate a significant lattice misfit at the continuum scale (∼100 nm). These structural transformations manifest in various forms and are directly linked to the structural degradation of intercalatio... More
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( a ) We analyze structural transformations in over 5000 intercalation comp...
Published Online: August 4, 2022
Fig. 2 ( a ) We analyze structural transformations in over 5000 intercalation compounds documented on the Materials Project database and identify candidate compounds that satisfy crystallographic design rules to form self-accommodating or highly reversible microstructures. ( b ) Our analysis shows... More
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Phase separation microstructures form to reduce the chemo-mechanical energy...
Published Online: August 4, 2022
Fig. 3 Phase separation microstructures form to reduce the chemo-mechanical energy of the system. Intrinsic lattice misfit generates a wide range of microstructures: ( a ) For small lattice misfit spinodal decomposition patterns (such as in Li x FePO 4 ) form during intercalation. Reprinted with... More
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Commonly observed crystal defects in intercalation compounds can be categor...
Published Online: August 4, 2022
Fig. 4 Commonly observed crystal defects in intercalation compounds can be categorized into (Clockwise) point defects (e.g., dopants, vacancies), line defects (e.g., edge-dislocations), and planar defects (e.g., twin boundaries, grain boundaries). These crystal defects can form either during manuf... More
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Select crystal defects can be engineered into intercalation compounds to im...
Published Online: August 4, 2022
Fig. 5 Select crystal defects can be engineered into intercalation compounds to improve its properties. ( a ) By designing a polycrystalline Ni–Mn–Co intercalation cathode with radially oriented grains Xu et al. [ 16 ] create less tortuous ion-diffusion pathways. © 2020 by [ 16 ] under the Creativ... More
Journal Articles
Journal Articles
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( a ) XRD patterns of Samples 2# and 16# electrolytic products and ( b ) N ...
Published Online: July 22, 2022
Fig. 2 ( a ) XRD patterns of Samples 2# and 16# electrolytic products and ( b ) N 2 adsorption–desorption isotherms at 77 K of raw material and electrolysis product More
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( a ) XRD patterns of Samples 9# and 10# products, ( b ) and ( c ) XPS spec...
Published Online: July 22, 2022
Fig. 4 ( a ) XRD patterns of Samples 9# and 10# products, ( b ) and ( c ) XPS spectra of the electrolytic product obtained from Sample 9# More