Controllable Triboelectric Series Using Gradient Positive and Negative Charge‐Confinement Layer with Different Particle Sizes of Mesoporous Carbon Materials

Cha, Seokjun; Cho, Yujang; Kim, Jong Gyeong; Choi, Hyeongsub; Ahn, Dahye; Sun, Jingzhe; Dh, Kang; Pak, Chanho; Park, Jong‐Jin

doi:10.1002/smtd.202101545

Cited by 13 publications

(16 citation statements)

References 71 publications

(100 reference statements)

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“…Interestingly, the added MMT helps enhance the triboelectric properties of the polymer matrix, which can be exploited to facilitate a constant buildup of electrons on the fibrous matrix and enhance the filtration efficiency. In this regard, many studies have reported the improvement in the adsorption efficiency of ultrafine dust particles through electrostatic attraction, particularly by using the electrostatic charge on the surface generated by friction between two materials (i.e., triboelectricity). − Similarly, for the polymer–MMT membrane, the stresses exacted on the membrane by constant airflow should be able to provide triboelectricity, constantly supplying the filter membrane with extra surface charge.…”

Section: Introductionmentioning

confidence: 99%

Multifunctional Filter Membranes Based on Self-Assembled Core–Shell Biodegradable Nanofibers for Persistent Electrostatic Filtration through the Triboelectric Effect

et al. 2022

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The massive production of polymer-based respiratory masks during the COVID-19 pandemic has rekindled the issue of environmental pollution from nonrecyclable plastic waste. To mitigate this problem, conventional filters should be redesigned with improved filtration performance over the entire operational life while also being naturally degradable at the end. Herein, we developed a functional and biodegradable polymeric filter membrane consisting of a polybutylene adipate terephthalate (PBAT) matrix blended with cetyltrimethylammonium bromide (CTAB) and montmorillonite (MMT) clay, whose surface properties have been modified through cation exchange reactions for good miscibility with PBAT in an organic solvent. Particularly, the spontaneous evolution of a partial core–shell structure (i.e., PBAT core encased by CTAB-MMT shell) during the electrospinning process amplified the triboelectric effect as well as the antibacterial/antiviral activity that was not observed in naive PBAT. Unlike the conventional face mask filter that relies on the electrostatic adsorption mechanism, which deteriorates over time and/or due to external environmental factors, the PBAT@CTAB-MMT nanofiber membrane (NFM)-based filter continuously retains electrostatic charges on the surface due to the triboelectric effect of CTAB-MMT. As a result, the PBAT@CTAB-MMT NFM-based filter showed high filtration efficiencies (98.3%, PM0.3) even at a low differential pressure of 40 Pa or less over its lifetime. Altogether, we not only propose an effective and practical solution to improve the performance of filter membranes while minimizing their environmental footprint but also provide valuable insight into the synergetic functionalities of organic–inorganic hybrid materials for applications beyond filter membranes.

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Section: Introductionmentioning

confidence: 99%

Multifunctional Filter Membranes Based on Self-Assembled Core–Shell Biodegradable Nanofibers for Persistent Electrostatic Filtration through the Triboelectric Effect

et al. 2022

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“…[76] In addition, some structures may facilitate capture the charge dissipated from the triboelectric material to the electrode if used for intermediate layers of TENGs, which is also called charge trapping and storage layer. [77][78][79][80][81][82] This section presents the design of different structures of electrospun porous materials for TENGs to enhance their electrical properties and obtain mechanical properties, directionality, and air permeability for TENGs. Further, we complement the approach on doping nanomaterials for electrical performance enhancement and functional expansion of TENGs such as mechanical property.…”

Section: Types Of Electrospun Triboelectric Materialsmentioning

confidence: 99%

“…[138] Therefore, the microspheres at present are basically used as filler materials compounded with other structures. [81,137] With the improvement of mechanical properties of microspheres, it will be possible to develop pure microspheres as triboelectric materials. For electrospun honeycomb-based microspheres, the tough preparation process has limited their application in TENG to some extent.…”

Section: Characteristics and Properties Of Electrospun Microspheresmentioning

confidence: 99%

“…[66,283] These methods are expected to be used for microspheres and hierarchically structured materials. Furthermore, multilayer assembly of electrospun materials with complementary properties can significantly improve their barrier or penetration, [81,93] and Janus film via specific electrospinning process (e.g., water-assisted electrospinning, [269] side-by-side electrospinning, [284] etc.) may realize adjustable structures that meet customizable multifunctional requirements.…”

Section: Further Functional Designmentioning

confidence: 99%

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Rational Design of Advanced Triboelectric Materials for Energy Harvesting and Emerging Applications

Duan

Peng

et al. 2022

Small Methods

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The properties of materials play a significant role in triboelectric nanogenerators (TENGs). Advanced triboelectric materials for TENGs have attracted tremendous attention because of their superior advantages (e.g., high specific surface area, high porosity, and customizable macrostructure). These advanced materials can be extensively applied in numerous fields, including energy harvester, wearable electronics, filtration, and self‐powered sensors. Hence, designing triboelectric materials as advanced functional materials is important for the development of TENGs. Herein, the structural modification methods based on electrospinning to improve the triboelectric properties and the latest research progress in this kind of TENGs are systematically summarized. Preparation methods and design trends of nanofibers, microspheres, hierarchical structures, and doping nanomaterials are highlighted. The factors influencing the formation and properties of triboelectric materials are considered. Furthermore, the latest progress on the applications of TENGs is systematically elaborated. Finally, the challenges in the development of triboelectric materials are discussed, thereby guiding researchers in the large‐scale application of TENGs.

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“…With the increase of PO 4 3− concentration, the removal of F − by C-SAA decreased to 94.45%, 91.77%, 87.13%, 83.06%, 81.44 and 81.38%, respectively, while the removal of F − by C-SAAoa decreased to 98.87%, 91.31%, 87.68%, 84.60%, 83.31 and 83.27%, respectively. This phenomenon is mainly due to the high density of negative charge of PO 4 3− (Cha et al, 2022), resulting in its easy adsorption on the surface of positively charged materials. PO 4 3− (3/3.40) and F − (1/ 1.33) possess similar charge radii.…”

Section: Effect Of Coexisting Anionsmentioning

confidence: 99%

Study on Waste Acid Modificated Industrial Solid Waste Aluminum Ash to Prepare Environmental Functional Materials to Remove Fluoride Ions in Wastewater

Ren

Chen

et al. 2022

Front. Environ. Sci.

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C-SAAoa particles synthesized by simple and low-cost calcining industrial solid waste aluminium ash combined with waste oxalic acid modification process show excellent performance in fluoride removal speed and adsorption capacity. Their adsorption capacity on fluoride was determined at about 180.57 mg/g at pH 3.0, which was among the highest reported values in the literature. It was determined that the adsorption mechanism of fluoride on C-SAAoa particles followed mechanisms such as ion exchange, electrostatic action, and the surface - OH groups played a major role in the fluoride removal process. C-SAAoa particles can effectively remove fluoride, even in the presence of a certain concentration of competing anions. At the same time, the material possesses good cycling performance, and can still maintain 78.9% of the initial adsorption capacity in the longitudinal for eight recycles. Therefore, it may have the potential to become a promising adsorbent as a supplement to industrial solid waste resource-based utilization processes and also for fluoride removal in small-scale treatment facilities or wastewater with high fluoride concentrations.

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Controllable Triboelectric Series Using Gradient Positive and Negative Charge‐Confinement Layer with Different Particle Sizes of Mesoporous Carbon Materials

Cited by 13 publications

References 71 publications

Multifunctional Filter Membranes Based on Self-Assembled Core–Shell Biodegradable Nanofibers for Persistent Electrostatic Filtration through the Triboelectric Effect

Multifunctional Filter Membranes Based on Self-Assembled Core–Shell Biodegradable Nanofibers for Persistent Electrostatic Filtration through the Triboelectric Effect

Rational Design of Advanced Triboelectric Materials for Energy Harvesting and Emerging Applications

Study on Waste Acid Modificated Industrial Solid Waste Aluminum Ash to Prepare Environmental Functional Materials to Remove Fluoride Ions in Wastewater

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