Influence of polymer binder structure on the properties of the graphite anode for lithium-ion batteries

Osińska-Broniarz, M.; Martyła, Agnieszka; Majchrzycki, Łukasz; Nowicki, Marek; Sierczyńska, Agnieszka

doi:10.5155/eurjchem.7.2.182-186.1396

Cited by 10 publications

(4 citation statements)

References 26 publications

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“…Corresponding stretches on pure PVA spectrum were observed as C–O stretching vibration in the region of 1000–1250 cm −1 and CH 2 bonding at around 1400 cm −1 . In addition, the peak at around 2900 cm −1 on PVA spectrum was observed due to CH/CH 2 bonding [48]. When the FT-IR spectrum of β–CD was observed in Figures 3, the broad peak around the wavelength of 3300 cm −1 (OH stretching) and the characteristic peaks of β–CD were observed at around 1000–1200 cm −1 assigned to the coupled C−C/C−O stretching vibrations and the asymmetric stretching vibration of the C−O−C glycosidic bridge [49,50].…”

Section: Resultsmentioning

confidence: 99%

Functionalized polyvinyl alcohol nanofiber webs containing β–cyclodextrin/Vitamin C inclusion complex

Okur

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Göcek

et al. 2019

Journal of Industrial Textiles

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In the present study, the electrospinning method was used to develop β–cyclodextrin functionalized polyvinyl alcohol nanofiber webs. The electrospinning parameters were adjusted in order to obtain uniform nanofiber webs by incorporation of varying concentrations of polyvinyl alcohol and β–cyclodextrin in the solutions. Subsequently, β–cyclodextrin/Vitamin C inclusion complexes were added into the polyvinyl alcohol solution, and adjusted parameters were used in the electrospinning process of functionalized polyvinyl alcohol nanofiber webs containing β–cyclodextrin/Vitamin C inclusion complexes. The formation of nanofiber webs was demonstrated by using Scanning Electron Microscopy. The presence of the inclusion complex in the functionalized electrospun polyvinyl alcohol nanofiber webs was proven by using ultraviolet–visible spectroscopy and Fourier Transform-Infrared Spectroscopy. Consequently, it was achieved to functionalize polyvinyl alcohol electrospun nanofiber webs by incorporating β–cyclodextrin/Vitamin C inclusion complex, which might be considered to have useful applications in cosmetics, personal-care products, and topical drug delivery.

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Section: Resultsmentioning

confidence: 99%

Functionalized polyvinyl alcohol nanofiber webs containing β–cyclodextrin/Vitamin C inclusion complex

Okur

Sarıçam

Göcek

et al. 2019

Journal of Industrial Textiles

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“…It was shown with EDX measurements and SEM imaging that the spatial distribution and size of the components play a role in the successful application of electrodes in Li-ion cells; therefore, the slurry preparation will be revised, and the lateral distribution of the components will be characterized with laser induced breakdown spectroscopy. It was also shown [45][46][47][48] that the use of different binders (Na-CMC, SBR, PVDF) with different molecular weights and degrees of substitution plays a major role; hence, the amount and type of binder will also be amended. An overlithiation of the cathode or prelithiation of the anode may also increase the capacity of cells with silicon/graphite composite electrodes, which was shown in [49,50], and will also be examined in future studies.…”

Section: Discussionmentioning

confidence: 99%

The Effect of Silicon Grade and Electrode Architecture on the Performance of Advanced Anodes for Next Generation Lithium-Ion Cells

2021

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To increase the specific capacity of anodes for lithium-ion cells, advanced active materials, such as silicon, can be utilized. Silicon has an order of magnitude higher specific capacity compared to the state-of-the-art anode material graphite; therefore, it is a promising candidate to achieve this target. In this study, different types of silicon nanopowders were introduced as active material for the manufacturing of composite silicon/graphite electrodes. The materials were selected from different suppliers providing different grades of purity and different grain sizes. The slurry preparation, including binder, additives, and active material, was established using a ball milling device and coating was performed via tape casting on a thin copper current collector foil. Composite electrodes with an areal capacity of approximately 1.70 mAh/cm² were deposited. Reference electrodes without silicon were prepared in the same manner, and they showed slightly lower areal capacities. High repetition rate, ultrafast laser ablation was applied to these high-power electrodes in order to introduce line structures with a periodicity of 200 µm. The electrochemical performance of the anodes was evaluated as rate capability and operational lifetime measurements including pouch cells with NMC 622 as counter electrodes. For the silicon/graphite composite electrodes with the best performance, up to 200 full cycles at a C-rate of 1C were achieved until end of life was reached at 80% relative capacity. Additionally, electrochemical impedance spectroscopies were conducted as a function of state of health to correlate the used silicon grade with solid electrolyte interface (SEI) formation and charge transfer resistance values.

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“…Poly(vinylidene) fluoride (PVdF), carboxymehtyl cellulose (CMC), and polyvinyl alcohol (PVA) are common polymers used as binders in battery applications 30,31 and a proton conducting polymer (e.g., perfluorosulfonic acid (PFSA)) 32 or hydroxideconducting ionomer is used in catalyst layers. A good polymer for electrochemical applications is characterized by a high adhesion strength in order to avoid delamination and an ability to swell and uptake electrolyte for effective ionic transport 19 .…”

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confidence: 99%

“…There have been significant efforts to optimize and innovate the polymer in terms of properties (conductivity), structure, molecular weight, durability, and cost. 19 In addition, recent research efforts include discerning the effect of the solvent on the structure and functional properties in electrode systems 31 . Specifically, the mobility of the polymer in a solvent, 40 the degree of chain entanglement in the solvent, 41 and the colloidal morphological form of the polymer 42 have all been identified as important properties for creating effective catalyst layers.…”

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confidence: 99%

Understanding inks for porous-electrode formation

et al. 2017

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Influence of polymer binder structure on the properties of the graphite anode for lithium-ion batteries

Cited by 10 publications

References 26 publications

Functionalized polyvinyl alcohol nanofiber webs containing β–cyclodextrin/Vitamin C inclusion complex

Functionalized polyvinyl alcohol nanofiber webs containing β–cyclodextrin/Vitamin C inclusion complex

The Effect of Silicon Grade and Electrode Architecture on the Performance of Advanced Anodes for Next Generation Lithium-Ion Cells

Understanding inks for porous-electrode formation

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