• 제목/요약/키워드: MXenes

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연료전지용 MXenes의 등장 (Emergence of MXenes for Fuel Cell)

  • 마노즈 카라코티;남상용
    • 공업화학
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    • 제34권2호
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    • pp.99-105
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    • 2023
  • Recently, 2D materials greatly impact in the various applications especially in the energy conversion and storage devices. Among the 2D materials, nowadays researchers are showing their propensity towards the MXenes due to their potential structural and physical properties as well as their use in various applications. Recently, MXenes have been used as filler in polymer electrolytes membranes and as catalytic support to increase the performance of fuel cells (FCs). But this review covers only recent progress and application of MXenes in proton and anion exchange membranes for FCs. Also, this review will provide a significant guidance and broad overview for future research in MXenes based polymer electrolyte membrane for FCs.

차세대 2차원 소재, MXenes의 연구 동향 (Research trends of MXenes as the Next-generation Two-dimensional Materials)

  • 이호준;윤예준;장진광;변종민
    • 한국분말재료학회지
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    • 제28권2호
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    • pp.150-163
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    • 2021
  • Interest in eco-friendly materials with high efficiencies is increasing significantly as science and technology undergo a paradigm shift toward environment-friendly and sustainable development. MXenes, a class of two-dimensional inorganic compounds, are generally defined as transition metal carbides or nitrides composed of few-atoms-thick layers with functional groups. Recently MXenes, because of their desirable electrical, thermal, and mechanical properties that emerge from conductive layered structures with tunable surface terminations, have garnered significant attention as promising candidates for energy storage applications (e.g., supercapacitors and electrode materials for Li-ion batteries), water purification, and gas sensors. In this review, we introduce MXenes and describe their properties and research trends by classifying them into two main categories: transition metal carbides and nitrides, including Ti-based MXenes, Mo-based MXenes, and Nb-based MXenes.

Crossover from weak anti-localization to weak localization in inkjet-printed Ti3C2Tx MXene thin-film

  • Jin, Mi-Jin;Um, Doo-Seung;Ogbeide, Osarenkhoe;Kim, Chang-Il;Yoo, Jung-Woo;Robinson, J. W. A.
    • Advances in nano research
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    • 제13권3호
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    • pp.259-267
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    • 2022
  • Two-dimensional (2D) transition metal carbides/nitrides or "MXenes" belong to a diverse-class of layered compounds, which offer composition- and electric-field-tunable electrical and physical properties. Although the majority of the MXenes, including Ti3C2Tx, are metallic, they typically show semiconductor-like behaviour in their percolated thin-film structure; this is also the most common structure used for fundamental studies and prototype device development of MXene. Magnetoconductance studies of thin-film MXenes are central to understanding their electronic transport properties and charge carrier dynamics, and also to evaluate their potential for spin-tronics and magnetoelectronics. Since MXenes are produced through solution processing, it is desirable to develop deposition strategies such as inkjet-printing to enable scale-up production with intricate structures/networks. Here, we systematically investigate the extrinsic negative magnetoconductance of inkjetprinted Ti3C2Tx MXene thin-films and report a crossover from weak anti-localization (WAL) to weak localization (WL) near 2.5K. The crossover from WAL to WL is consistent with strong, extrinsic, spin-orbit coupling, a key property for active control of spin currents in spin-orbitronic devices. From WAL/WL magnetoconductance analysis, we estimate that the printed MXene thin-film has a spin orbit coupling field of up to 0.84 T at 1.9 K. Our results and analyses offer a deeper understanding into microscopic charge carrier transport in Ti3C2Tx, revealing promising properties for printed, flexible, electronic and spinorbitronic device applications.

Pathogen-Imprinted Polymer Film Integrated probe/Ti3C2Tx MXenes Electrochemical Sensor for Highly Sensitive Determination of Listeria Monocytogenes

  • Xiaohua, Jiang;Zhiwen, Lv;Wenjie, Ding;Ying, Zhang;Feng, Lin
    • Journal of Electrochemical Science and Technology
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    • 제13권4호
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    • pp.431-437
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    • 2022
  • As one of the most hazardous and deadliest pathogens, Listeria monocytogenes (LM) posed various serious diseases to the human being, thus designing effective strategy for its detection is of great significance. In this work, by preparing Ti3C2Tx MXenes nanoribbon (Ti3C2TxR) as carrier and selecting thionine (Th) acted simultaneously as signal probe and functional monomer, a LM pathogen-imprinted polymers (PIP) integrated probe electrochemical sensor was design to monitor LM for the first time, that was carried out through the electropolymerization of Th on the Ti3C2TxR/GCE surface in the existence of LM. Upon eluting the templates from the LM imprinted cavities, the fabricated PIP/Ti3C2TxR/GCE sensor can rebound LM cells effectively. By recording the peak current of Th as the response signal, it can be weakened when LM cell was re-bound to the LM imprinted cavity on PIP/Ti3C2TxR/GCE, and the absolute values of peak current change increase with the increasement of LM concentrations. After optimizing three key parameters, a considerable low analytical limit (2 CFU mL-1) and wide linearity (10-108 CFU mL-1) for LM were achieved. In addition, the experiments demonstrated that the PIP/Ti3C2TxR sensor offers satisfactory selectivity, reproducibility and stability.

재활용 산화물로부터 고부가가치 탄화물(맥신) 소재 합성 (Synthesis of High Value-added Carbide Materials (MXenes) from Recycled Oxides)

  • 권한중
    • 자원리싸이클링
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    • 제33권4호
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    • pp.29-35
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    • 2024
  • 폐촉매 등 폐자원에 대한 재활용은 대부분 제련 공정을 통해 금속 성분을 침출 및 추출하는 과정이며 금속 성분은 황산염, 질산염과 같은 염 형태로 회수된다. 회수된 염에 대한 하소를 통해 염은 산화물로 변화하며 산화물은 환원 과정을 거쳐 금속 혹은 세라믹 소재가 된다. 산화물 환원 과정에서 사용되는 환원제는 수소, 탄소 등이 있으며 환원을 통해 금속 분말이 얻어지게 되는데 재활용된 원소가 전이 금속이고 탄소를 환원제로 사용하는 경우 탄화물 합성이 가능하다. 전이 금속 탄화물의 경우 세라믹 물질임에도 불구하고 금속 결합으로 인해 전도성이 우수한 것으로 알려져 있으며 최근 이차원 전이 금속 탄화물인 맥신(MXene)은 전기 전도성뿐 아니라 넓은 표면적이라는 구조적 특징으로 인해 전자파 차폐, 이차전지 전극, 수 처리용 소재로 주목받고 있다. 본 연구에서는 폐자원으로부터 고부가가치 맥신 소재를 합성하기 위한 공정을 개발하고자 하였으며 결과적으로 폐자원을 원료로 합성된 맥신의 특성을 평가하여 폐자원의 맥신 원료 적용 가능성을 확인하였다.

Three-dimensional MXene (Ti3C2Tx) Film for Radionuclide Removal From Aqueous Solution

  • Jang, Jiseon;Lee, Dae Sung
    • 한국방사성폐기물학회:학술대회논문집
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    • 한국방사성폐기물학회 2018년도 추계학술논문요약집
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    • pp.379-379
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    • 2018
  • MXenes are a new family of 2D transition metal carbide nanosheets analogous to graphene (Lv et al., 2017; Sun et al., 2018). Due to the easy availability, hydrophilic behavior, and tunable chemistry of MXenes, their use in applications for environmental pollution remediation such as heavy metal adsorption has recently been explored (Li et al., 2017). In this study, three-dimensional (3D) MXene ($Ti_3C_2T_x$) films with high adsorption capacity, good mechanical strength, and high selectivity for specific radionuclide from aquose solution were successfully fabricated by a polymeric precursor method using vacuum-assisted filtration. The highest removal efficiency on the films was 99.54%, 95.61%, and 82.79% for $Sr^{2+}$, $Co^{2+}$, and $Cs^+$, respectively, using a film dosage of 0.06 g/ L in the initial radionuclide solution (each radionuclide concentration = 1 mg/L and pH = 7.0). Especially, the adsorption process reached an equilibrium within 30 min. The expanded interlayer spacing of $Ti_3C_2T_x$ sheets in MXene films showed excellent radionuclide selectivity ($Cs^+$ and/or $Sr^{2+}/Co^{2+}$) (Simon, 2017). Besides, the MXene films was not only able to be easily retrieved from an aqueous solution by filtration after decontamination processes, but also to selectively separate desired target radionuclides in the solutions. Therefore, the newly developed MXene ($Ti_3C_2T_x$) films has a great potential for radionuclide removal from aqueous solution.

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카본우븐패브릭 기반 2D 구조의 Ti3C2Tx 배터리음극소재 (2D Layered Ti3C2Tx Negative Electrode based Activated Carbon Woven Fabric for Structural Lithium Ion Battery)

  • 남상희;시마 엄라오;오세웅;오일권
    • Composites Research
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    • 제32권5호
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    • pp.296-300
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    • 2019
  • 2D 전이금속 탄화물(MXenes) 가운데, 타이타늄 기반의 $Ti_3C_2$는 뛰어난 전기전도성과 전기화학적 특성 및 표면작용기의 영향으로 이차 전지와 슈퍼캐패시터와 같은 에너지저장장치의 유망한 전극 물질로 각광받고 있다. 전극으로서 $Ti_3C_2$의 사용은 이온이 반응할 수 있는 표면적을 넓혀줄 뿐만 아니라, 이온의 확산 거리를 줄여주고, 전하의 운동을 향상시켜준다. 이 연구에서, 효율적으로 MAX phase로부터 $Ti_3C_2$를 합성하는 방법을 통해 리튬이온배터리에서 MXene기반의 전극 물질을 위한 새로운 방향을 제시하고자 한다.