Feasibilities and electrochemical performance of surface-modified polyester separator for Lead-acid battery applications

Thangarasu, Sadhasivam; Seo, Hoon; Jung, Ho‐Young

doi:10.1016/j.electacta.2021.138390

Cited by 10 publications

(3 citation statements)

References 56 publications

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“…The surface of the prepared NCs has the most acid carboxyl functional groups, indicating that NC has a certain hydrophilicity. [ 25 ] Due to the incomplete combustion of n‐hexane and cyclohexane with oxygen in the air, the oxygen content of NC and CC carbon materials increases, but the difference in the structure of n‐hexane and cyclohexane makes the two materials in incomplete combustion difference in binding capacity to oxygen. During incomplete combustion, the linear structure of n‐hexane is more capable of trapping oxygen than the cyclic structure of cyclohexane, resulting in more oxygen‐containing carboxyl functional groups on the resulting carbon material NC surface.…”

Section: Resultsmentioning

confidence: 99%

Rapid Preparation of New Carbon Materials from Pure Six‐Carbon Alkane and Their Use as a Negative Electrode Additive for Lead‐Carbon Batteries

Yang

Cao

Liu³

et al. 2023

Energy Tech

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In this article, different carbon materials (NC, CC) are obtained by burning two kinds of six‐carbon alkane, n‐hexane, and cyclohexane, respectively. They are used as negative electrode additives for lead‐carbon batteries (LCBs) that could considerably improve the performance of LCB cycle life. 0.1 wt% NC (0.1NC) shows the best high rate partial state of charge cycle performance (5350) which is 3.6 times of CC and 1.2 times of commercial conductive carbon black. Furthermore, in the charging acceptance test, the initial instantaneous constant voltage charging receiving current of 0.1NC is 7.81 A, which is increased by 167% compared with 0.1EC (2.92 A). The synergistic effect of high graphitization structure, small specific surface area, and abundant carboxyl functional groups may be the reason for NC's good performance.

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Section: Resultsmentioning

confidence: 99%

Rapid Preparation of New Carbon Materials from Pure Six‐Carbon Alkane and Their Use as a Negative Electrode Additive for Lead‐Carbon Batteries

Yang

Cao

Liu³

et al. 2023

Energy Tech

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“…The ionic conductivities (σ, S cm –1 ) of PGW-SINCH electrolytes were characterized by an electrochemical workstation (CHI660E) and calculated from the following eq : σ = L R b × S where L (cm) represents the thickness of the electrolyte, R b (Ω) is the bulk resistance of the electrolyte, and S (cm 2 ) is the effective interface area between the electrolyte and stainless-steel electrode. The swelling ratios ( TSR represents thickness swelling ratio and VSR is the volume swelling ratio) of PG-SINH and PGW-SINCH were calculated according to the following eqs and : T S R = T 1 − T 0 T 0 × 100 % V S R = V 1 − V 0 V 0 × 100 % where T 0 (cm) and V 0 (cm 3 ) are the thickness and volume of PG-SINH and PGW-SINCH before immersing in 1 M Li 2 SO 4 ; T 1 (cm) and V 1 (cm 3 ) are the thickness and volume of PG-SINH and PGW-SINCH after immersing in 1 M Li 2 SO 4 .…”

Section: Experimental Sectionmentioning

confidence: 99%

Flexible Wood Enhanced Poly(acrylic acid-co-acrylamide)/Quaternized Gelatin Hydrogel Electrolytes for High-Energy-Density Supercapacitors

Gao

Wei

et al. 2023

ACS Appl. Mater. Interfaces

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Hydrogels with good flexibility and strong hydrophilicity can be candidates for excellent flexible electrolyte materials. However, the poor structural stability, uncontrollable swelling, and lower potential window of hydrogel electrolytes need to be improved. This work combined quaternized gelatin with cross-linked poly(acrylic acid-co-acrylamide) to form a semiinterpenetrating network and gelatinized in situ in a flexible porous wood skeleton. The flexible wood (FW) skeleton enhances the hydrogel and limits the swelling of the hydrogel. In addition, quaternary ammonium groups and FW act synergistically to provide the composite hydrogel electrolyte with a high ionic conductivity of 5.57 × 10 −2 S cm −1 . The composite hydrogel electrolyte can enable the flexible supercapacitor to operate safely in a potential window of 0−2 V. The optimized supercapacitor has a high specific capacitance of 286.74 F g −1 and provides an outstanding energy density of 39.09 W h kg −1 . The flexible supercapacitor shows a capacitance retention of up to 94.6% after 10,000 charge−discharge cycles, indicating dramatic cycling stability. Simultaneously, a capacitance retention of nearly 90% can be maintained by the flexible supercapacitor after 180°bends for 1000 times. A viable idea for developing high-performance hydrogel electrolytes and flexible supercapacitors is provided in this research.

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“…Therefore, it is unfeasible to dye polyester fibers after extrusion. [24][25][26][27] Plasma curing of textile fibers has been described as an eco-friendly technique to stimulate the fabric topmost layer to improve its colorimetric properties. [28][29][30][31] The preparation of multifunctional luminescent polyester textile materials has not been described yet.…”

Section: Introductionmentioning

confidence: 99%

An anticounterfeiting strategy based on photochromic nonwoven polyester fabric by plasma‐assisting spray coating with ultraviolet‐responsive silica@strontium aluminate nanoparticles

Al‐Ahmed

Alzahrani

AlJohani

et al. 2023

Applied Organom Chemis

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Photochromism is an interesting method to enhance the anticounterfeiting activity of commercial products. Polyester fibers have been significant polymers for a variety of applications; however, they have been known to resist staining due to the absence of reactive dyeing site on their fibrous surface. Herein, we present recycled nonwoven polyester immobilized with rare‐earth activated aluminate nanoparticles for anticounterfeiting applications. Using the heterogeneous precipitation method, the lanthanide‐doped aluminate pigment was firstly coated with silica to give phosphor‐encapsulated within silica nanoparticles (Silica@Phosphor). The produced Silica@Phosphor particles were mixed with an adhesive binder in an aqueous medium, which was then spray‐coated directly onto plasma‐pretreated nonwoven polyester fabric. The fibrous composite demonstrated ultraviolet‐induced photochromism. Both phosphor and Silica@Phosphor morphologies demonstrated particle diameter of 4–12 and 90–105 nm, respectively. Various techniques were utilized to examine both morphologies and compositions of the photochromic nonwoven fabrics. The antibacterial activity, cytotoxicity, comfortability, colorfastness, and ultraviolet shielding of the prepared polyesters immobilized with Silica@Phosphor were also reported. The luminescent fabrics demonstrated two emission wavelengths at 435 and 514 nm (green) upon excitation at 369 nm (colorless). The nonwoven fabrics showed an enhanced superhydrophobicity as an improved contact angle up to 129.9° was detected upon increasing the Silica@Phosphor ratio.

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Feasibilities and electrochemical performance of surface-modified polyester separator for Lead-acid battery applications

Cited by 10 publications

References 56 publications

Rapid Preparation of New Carbon Materials from Pure Six‐Carbon Alkane and Their Use as a Negative Electrode Additive for Lead‐Carbon Batteries

Rapid Preparation of New Carbon Materials from Pure Six‐Carbon Alkane and Their Use as a Negative Electrode Additive for Lead‐Carbon Batteries

Flexible Wood Enhanced Poly(acrylic acid-co-acrylamide)/Quaternized Gelatin Hydrogel Electrolytes for High-Energy-Density Supercapacitors

An anticounterfeiting strategy based on photochromic nonwoven polyester fabric by plasma‐assisting spray coating with ultraviolet‐responsive silica@strontium aluminate nanoparticles

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