Humidity-Controlled Preparation of Flexible Porous Carbon Fibers from Block Copolymers

Serrano, Joel M.; Spiering, Glenn A.; Zhao-yu, XU; Croft, Zacary L.; Guo, Dong; Cao, Ke; Moore, Robert B.; Liu, Guoliang

doi:10.1021/acsapm.2c00534

Cited by 9 publications

(7 citation statements)

References 68 publications

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“…The usual materials used in capacitor electrodes should have a large surface area to improve the electrochemical performance of supercapacitors. Recently, mesoporous carbons garnered much attention as electrodes of supercapacitors because of their ease of operation, high chemical stability, large pore sizes, and high specific surface areas [72]. In this regard, many studies have been conducted [73][74][75][76][77][78][79][80][81][82], and descriptions of selected ones are the subject of the following section: Lufrano et al [78] prepared mesoporous CMK-3-type carbon using SBA-15 silica as a template material and sucrose as the carbon source and used them as electrodes for solid-state supercapacitors.…”

Section: Supercapacitorsmentioning

confidence: 99%

Mesoporous Carbon-Based Materials: A Review of Synthesis, Modification, and Applications

Mehdipour‐Ataei

Aram

2022

Catalysts

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Mesoporous carbon materials have attracted both academic and industrial interests because of their outstanding physical and chemical properties, such as high surface area, large pore-volume, good thermostability, improved mass transport, and diffusion. Mesoporous carbon materials with various pore sizes and pore structures can be synthesized via different methods. Their unique properties have made them a suitable choice for various applications, such as energy-storage batteries, supercapacitors, biosensors, fuel cells, adsorption/separation of various molecules, catalysts/catalyst support, enzyme immobilization, and drug delivery, in different fields. This review covers the fabrication techniques of mesoporous carbon structures and their typical applications in various fields and features a brief introduction of the functionalization and modification of mesoporous carbons.

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Section: Supercapacitorsmentioning

confidence: 99%

Mesoporous Carbon-Based Materials: A Review of Synthesis, Modification, and Applications

Mehdipour‐Ataei

Aram

2022

Catalysts

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“…95 The heteroatoms affect the surface energy, hydrophobicity, ion/surface interactions, and electrochemical properties. The processing conditions, including solvents, temperature, pressure, and even humidity, 94 can affect porous carbon fibers' structure, properties, and functionality.…”

Section: ■ Precursors For Porous Carbonmentioning

confidence: 99%

“…Fiber spinning conditions and thermal processing also play essential roles in controlling the pore size and fiber properties. 94,95 Figure 3. Representative synthesis of porous carbon fibers from (A) SiO 2 @PAN, 78 (B) the cryogenic method, 79 and (C) polymer blends.…”

Section: ■ Precursors For Porous Carbonmentioning

confidence: 99%

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Block Copolymer Derived Porous Carbon Fiber: An Emerging Structural Functional Material

Liu

2023

Macromolecules

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“…There are various approaches to preparing micro/nanofibers, such as stretching method, microphase separation, solution method, spin-coating method, and electrospinning process. [58][59][60][61] In the case of ion-gel fibrous membrane, the most commonly used methods are spin-coating and electrospinning. Although the spin-coating method is simple to operate, the formed film is poorly uniform and generally has some morphological defects.…”

Section: Introductionmentioning

confidence: 99%

Versatile Ion‐Gel Fibrous Membrane for Energy‐Harvesting Iontronic Skin

Liu

Zhao

Xiong

et al. 2023

Adv Funct Materials

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Developing versatile and high sensitivity sensors is beneficial for promoting flexible electronic devices and human‐machine interactive systems. Researchers are working on the exploration of various active sensing materials toward broad detection, multifunction, and low‐power consumption. Here, a versatile ion‐gel fibrous membrane is presented by electrospinning technology and utilized to construct capacitive sensors and triboelectric nanogenerator (TENG). The iontronic capacitive sensor exhibits inherently favorable sensitivity and repeatability, which retains long‐term stability after 5000 cycles. The capacitive sensor can also detect a clear pulse waveform at the human wrist and enable the mapping of pressure distribution by a capacitive sensory matrix. For the iontronic TENG, the maximum peak power is 54.56 µW and can be used to power commercial electronics. In addition, the prepared iontronic TENG array can achieve interactive, rapidly responsive, and accurate dynamic monitoring, which broadens the exploration to direct and effective sensory devices. The versatile ion‐gel fibrous membrane is promising to provide an outstanding approach for physiological detection, biomechanical energy harvesting, human‐machine interaction, and self‐powered monitoring systems.

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Humidity-Controlled Preparation of Flexible Porous Carbon Fibers from Block Copolymers

Cited by 9 publications

References 68 publications

Mesoporous Carbon-Based Materials: A Review of Synthesis, Modification, and Applications

Mesoporous Carbon-Based Materials: A Review of Synthesis, Modification, and Applications

Block Copolymer Derived Porous Carbon Fiber: An Emerging Structural Functional Material

Versatile Ion‐Gel Fibrous Membrane for Energy‐Harvesting Iontronic Skin

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