Universality of periodicity as revealed from interlayer-mediated cracks

Cho, Michael; Jung, Jong Hyun; Seo, Min Key; Cho, Sung Un; Kim, Young Duck; Lee, Jae Hyun; Kim, Yong Seung; Kim, Pilkwang; Hone, James; Ihm, Jisoon; Park, Yun Daniel

doi:10.1038/srep43400

Cited by 16 publications

(12 citation statements)

References 43 publications

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“…Out of five Raman active vibrational modes, the F2g (197 cm -1 ) vibration mode corresponding to CoO6 scissoring vibration mode, whereas Eg (484 cm -1 ), 2F2g (524, 621 cm -1 ) and A1g (690 cm -1 ) are exhibit Co-O symmetric stretching vibration. [38][39][40]…”

Section: Scheme 1: Schematic Illustration For Metal-organic-frameworkmentioning

confidence: 99%

Metal–organic-framework derived Co–Pd bond is preferred over Fe–Pd for reductive upgrading of furfural to tetrahydrofurfuryl alcohol

et al. 2019

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Section: Scheme 1: Schematic Illustration For Metal-organic-frameworkmentioning

confidence: 99%

Metal–organic-framework derived Co–Pd bond is preferred over Fe–Pd for reductive upgrading of furfural to tetrahydrofurfuryl alcohol

et al. 2019

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“…The Co 3 O 4 NFs@rGO flexible electrode showed a high reversible capacity of 615 mAh g À1 , excellent rate capability, and 92% capacity retention after 400 cycles at 4.0 A g À1 . [111] As one of the alternative candidates for the widely studied lithiumion batteries, sodium-ion batteries are more promising for large-scale applications due to the natural abundance and much lower cost of sodium. Compared with lithium ion, sodium ion needs more space for motion intercalation, because of its larger radius.…”

Section: Flexible Metal-ion Batteriesmentioning

confidence: 99%

Electrospun Nanofibers for New Generation Flexible Energy Storage

Liu

Yan

et al. 2020

Energy & Environ Materials

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As one of the essential components for flexible electronics, flexible electrochemical energy storage (EES) has garnered extensive interests at all levels of materials, devices, and systems. The successful implementation of high‐performance flexible EES devices relies on exploring of suitable electrode/electrolyte materials that have both superior electrochemical and mechanical properties. For this function, one‐dimensional electrospun nanofibers have emerged as a class of promising building blocks for the key components of flexible EES devices. In this overview, the fundamental principles and technical advances of electrospinning are examined, for both their successes and challenges in controllable fabrication of nanofibers with the desirable chemical compositions, micro/meso‐/nanostructures, and therefore resultant properties. The advances in applications of electrospun nanofibers for various key flexible EES devices are critically looked into, including those in supercapacitors, metal‐ion batteries, and metal‐air batteries. The existing challenges and prospects of these electrospun nanofiber‐based flexible EES are discussed, aiming to inspire continued efforts in developing the optimal high‐performance and low cost flexible EES devices for long‐awaited practical applications.

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“…However, the performance of such conversion anodes is limited by several factors, including low electronic conductivity, structural instability, slow Li + diffusion, and slow reaction kinetics . Previously reported methods to address these issues to include (i) nanosizing the active material, (ii) applying coatings (e.g., carbon coatings), (iii) doping with foreign materials (e.g., nitrogen, sulfur), and (iv) optimizing the conductive carbon and polymer binder used in composite anodes …”

Section: Introductionmentioning

confidence: 99%

Synthesizing High‐Capacity Oxyfluoride Conversion Anodes by Direct Fluorination of Molybdenum Dioxide (MoO₂)

et al. 2020

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High‐capacity metal oxide conversion anodes for lithium‐ion batteries (LIBs) are primarily limited by their poor reversibility and cycling stability. In this study, a promising approach has been developed to improve the electrochemical performance of a MoO2 anode by direct fluorination of the prelithiated MoO2. The fluorinated anode contains a mixture of crystalline MoO2 and amorphous molybdenum oxyfluoride phases, as determined from a suite of characterization methods including X‐ray diffraction, Raman spectroscopy, and X‐ray photoelectron spectroscopy, and scanning transmission electron microscopy. Electrochemical measurements indicate that fluorination facilitates the conversion reaction kinetics, which leads to increased capacity, higher coulombic efficiency, and better cycling stability as compared to the nonfluorinated samples. These results suggest that fluorination after prelithiation not only favors formation of the oxyfluoride phase but also improves the lithium‐ion diffusivity and reversibility of the conversion reaction, making it an attractive approach to address the problems of conversion electrodes. These findings provide a new route to design high‐capacity negative electrodes for LIBs.

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Universality of periodicity as revealed from interlayer-mediated cracks

Cited by 16 publications

References 43 publications

Metal–organic-framework derived Co–Pd bond is preferred over Fe–Pd for reductive upgrading of furfural to tetrahydrofurfuryl alcohol

Metal–organic-framework derived Co–Pd bond is preferred over Fe–Pd for reductive upgrading of furfural to tetrahydrofurfuryl alcohol

Electrospun Nanofibers for New Generation Flexible Energy Storage

Synthesizing High‐Capacity Oxyfluoride Conversion Anodes by Direct Fluorination of Molybdenum Dioxide (MoO₂)

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Universality of periodicity as revealed from interlayer-mediated cracks

Cited by 16 publications

References 43 publications

Metal–organic-framework derived Co–Pd bond is preferred over Fe–Pd for reductive upgrading of furfural to tetrahydrofurfuryl alcohol

Metal–organic-framework derived Co–Pd bond is preferred over Fe–Pd for reductive upgrading of furfural to tetrahydrofurfuryl alcohol

Electrospun Nanofibers for New Generation Flexible Energy Storage

Synthesizing High‐Capacity Oxyfluoride Conversion Anodes by Direct Fluorination of Molybdenum Dioxide (MoO2)

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Synthesizing High‐Capacity Oxyfluoride Conversion Anodes by Direct Fluorination of Molybdenum Dioxide (MoO₂)