Nickel MXene Nanosheet and Heteroatom Self-Doped Porous Carbon-Based Asymmetric Supercapacitors with Ultrahigh Energy Density

Nanda, Om Priya; Prince, Aksha Gilbert; Durai, Lignesh; Badhulika, Sushmee

doi:10.1021/acs.energyfuels.3c00085

Cited by 22 publications

(8 citation statements)

References 29 publications

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“…Moreover, V 2 C possesses a thin atomic layer which stimulates the adsorption and desorption of analytes on the sensing materials. 34,35 To the authors' knowledge, this is the first report on the V 2 C MXene based flexible RT toluene gas sensor. The polyester film based transparent sheet was used to fabricate the flexible sensor.…”

Section: Introductionmentioning

confidence: 92%

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2D V₂C MXene Based Flexible Gas Sensor for Highly Selective and Sensitive Toluene Detection at Room Temperature

Karmakar,

Deepak,

Nanda

et al. 2024

ACS Appl. Electron. Mater.

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While the majority of the reports on toluene gas sensors are on rigid electrodes and based on composite materials, doping with additional noble metals, or a high temperature detection method, this work is the first demonstration of the vanadium carbide (V 2 C) MXene based flexible and roomtemperature (RT) toluene gas sensor. The V 2 C MXene is synthesized by an HF etching route. The field emission scanning electron microscopy (FESEM) and transmission electron microscopy (TEM) images exhibit a typical accordion-like multilayered structure of the V 2 C MXene, where the Fourier-transform infrared spectroscopy (FTIR), Raman, and X-ray photoelectron spectroscopy (XPS) data further ensured its successful growth. The V 2 C (band gap of 3.9 eV) based flexible gas sensor employing a polyester substrate, displays good reproducibility, quick response/recovery time (14 s/34 s), long-term stability, good crossselectivity, and a low detection limit of 47.85 ppb over the linear region of 5−200 ppm toluene at RT (27 ± 1 °C). The effect of relative humidity (RH) toward RT toluene gas sensing has also been investigated here. This sensor shows an excellent response of 775% at 200 ppm toluene, with brilliant selectivity toward toluene over six other hazardous gases. The sensor's plentiful surface functional groups (−F, −OH, −O) and superior electrical characteristics are responsible for its enhanced performance. In light of this, the flexible and RT toluene gas sensor based on the V 2 C MXene can be a smart way to fabricate the next-generation toluene gas sensors.

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Section: Introductionmentioning

confidence: 92%

“…V 2 C is one of the nanomaterials in the MXenes family that comprises two M layers and one C layer, whereas Ti 3 C 2 accommodates three Ti layers and two C layers. Moreover, V 2 C possesses a thin atomic layer which stimulates the adsorption and desorption of analytes on the sensing materials. , …”

Section: Introductionmentioning

confidence: 99%

2D V₂C MXene Based Flexible Gas Sensor for Highly Selective and Sensitive Toluene Detection at Room Temperature

Karmakar,

Deepak,

Nanda

et al. 2024

ACS Appl. Electron. Mater.

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“…Table 3 166–181 demonstrates that supercapacitor electrodes based on a combination of Ni materials and porous carbon materials are widely used to enhance energy storage applications. Porous carbon, such as activated carbon or carbon nanotubes, provides a large surface area for electrochemical reactions and ion adsorption.…”

Section: Materials Manufacturing For Supercapacitorsmentioning

confidence: 99%

“…Due to the ultrathin thickness of LDHs, large specific surface area, low charge transfer resistance, and high wettability with electrolyte, the Ni 2 Co1-LDHs/BC50 electrode revealed an ultra-high S.C. and the Ni 2 Co1-LDHs/BC50//YP-80F HSC delivered a maximum specific energy of 52.47 W h kg −1 . 179 Nanda et al 180 synthesized Ni MXene (cathode) and Euphorbia milii plant leaf-originated and N, S, P self-doped AC (EMAC-700) (anode). NiMX and EMAC-700 delivered high capacitances of 474.3 and 575.8 F g −1 , respectively, attributed to the pseudo nature of NiMX, the presence of heteroatoms, and the large surface area of EMAC-700.…”

Section: Materials Manufacturing For Supercapacitorsmentioning

confidence: 99%

Recent advances in Ni-materials/carbon nanocomposites for supercapacitor electrodes

Pour,

Fard,

Aval

et al. 2023

Mater. Adv.

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“…This process is demonstrated in figure 1(a). was synthesised by a high-temperature synthesis technique as per the previously reported work by other members of group [15]. Using a mortar and pestle, stoichiometric amounts of NiO, Al, and C 3 H 6 N 6 were combined and pounded to a fine powder.…”

Section: Synthesis Of Nylon Nanofibers For Tribo-positive Layermentioning

confidence: 99%

Fabrication of high-performance triboelectric nanogenerator based on Ni₃C nanosheets to self-power thermal patch for pain relief

Kulakarni,

Kumar Das,

Badhulika

2023

Nanotechnology

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In this work, we report a vertical contact-separation mode TENG comprising of Ni3C / PDMS composite and Nylon Nanofibers for self-powering a nichrome wire-based thermal patch for muscular/joint relaxation. An optimised composition of Ni3C (25 wt.%) and PDMS as a tribo-negative material and Nylon Nanofibers synthesised via electrospinning on copper electrode foil as a tribo-positive material were used to fabricate the TENG. The fabricated TENG exhibits outstanding output generating an average open circuit voltage of ~ 252 V, an average short circuit current of ~ 40.87 μA and a peak power of ~ 562.35 μW/cm2 at a matching resistance of 20 MΩ by manual tapping. Enhancement in contact area due to electrospun nylon and micro capacitive Ni3C flakes in dielectric PDMS contribute to the exceptional performance of the TENG. The optimised TENG is then connected to a full bridge rectifier with a 100 nF filtering capacitor to convert the AC voltage to a DC output with a peak voltage of ~ 5.4 V and a ripple voltage of ~ 1.04 V to recharge an ICR 18650 Li-ion battery, which functions as a medium to improve electrical energy flow to the heat patch. The electrical energy is converted into heat energy by a wounded nichrome wire placed inside the heat patch. The nichrome wire of length 3 cm with an appropriate number of windings was employed in the heat patch. An increment of 450F can be observed by switching the charged Li-ion battery-based circuit ON for just 30 seconds. The strategy of self-powering a heat patch using this TENG finds enormous applications in physiotherapy and sports to relieve muscle and joint pains.

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Nickel MXene Nanosheet and Heteroatom Self-Doped Porous Carbon-Based Asymmetric Supercapacitors with Ultrahigh Energy Density

Cited by 22 publications

References 29 publications

2D V₂C MXene Based Flexible Gas Sensor for Highly Selective and Sensitive Toluene Detection at Room Temperature

2D V₂C MXene Based Flexible Gas Sensor for Highly Selective and Sensitive Toluene Detection at Room Temperature

Recent advances in Ni-materials/carbon nanocomposites for supercapacitor electrodes

Fabrication of high-performance triboelectric nanogenerator based on Ni₃C nanosheets to self-power thermal patch for pain relief

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Nickel MXene Nanosheet and Heteroatom Self-Doped Porous Carbon-Based Asymmetric Supercapacitors with Ultrahigh Energy Density

Cited by 22 publications

References 29 publications

2D V2C MXene Based Flexible Gas Sensor for Highly Selective and Sensitive Toluene Detection at Room Temperature

2D V2C MXene Based Flexible Gas Sensor for Highly Selective and Sensitive Toluene Detection at Room Temperature

Recent advances in Ni-materials/carbon nanocomposites for supercapacitor electrodes

Fabrication of high-performance triboelectric nanogenerator based on Ni3C nanosheets to self-power thermal patch for pain relief

Contact Info

Product

Resources

About

2D V₂C MXene Based Flexible Gas Sensor for Highly Selective and Sensitive Toluene Detection at Room Temperature

2D V₂C MXene Based Flexible Gas Sensor for Highly Selective and Sensitive Toluene Detection at Room Temperature

Fabrication of high-performance triboelectric nanogenerator based on Ni₃C nanosheets to self-power thermal patch for pain relief