Hierarchical design of waterproof, highly sensitive, and wearable sensing electronics based on MXene-reinforced durable cotton fabrics

Wang, Shuang; Du, Xiaosheng; Luo, Yaofa; Lin, Shiyu; Zhou, Mi; Du, Zongliang; Cheng, Xu; Wang, Haibo

doi:10.1016/j.cej.2020.127363

Cited by 98 publications

(79 citation statements)

References 63 publications

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“…The obtained results are promising, and there are plenty of effects to be explained. MXenes have remarkable mechanical properties with an ultra-high elastic modulus and excellent electrical conductivity that makes them the leading materials for smart fibers and textiles so far [208].…”

Section: Discussionmentioning

confidence: 99%

MXenes—A New Class of Two-Dimensional Materials: Structure, Properties and Potential Applications

et al. 2021

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A new class of two-dimensional nanomaterials, MXenes, which are carbides/nitrides/carbonitrides of transition and refractory metals, has been critically analyzed. Since the synthesis of the first family member in 2011 by Yury Gogotsi and colleagues, MXenes have quickly become attractive for a variety of research fields due to their exceptional properties. Despite the fact that this new family of 2D materials was discovered only about ten years ago, the number of scientific publications related to MXene almost doubles every year. Thus, in 2021 alone, more than 2000 papers are expected to be published, which indicates the relevance and prospects of MXenes. The current paper critically analyzes the structural features, properties, and methods of synthesis of MXenes based on recent available research data. We demonstrate the recent trends of MXene applications in various fields, such as environmental pollution removal and water desalination, energy storage and harvesting, quantum dots, sensors, electrodes, and optical devices. We focus on the most important medical applications: photo-thermal cancer therapy, diagnostics, and antibacterial treatment. The first results on obtaining and studying the structure of high-entropy MXenes are also presented.

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Section: Discussionmentioning

confidence: 99%

MXenes—A New Class of Two-Dimensional Materials: Structure, Properties and Potential Applications

et al. 2021

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“…Maintaining the same washing protocol, a negligible change in the water contact angle (q c : larger than 130 ) was found in an HDTMS-assembled MXene-SiNP-coated cotton fabric. 272 This superhydrophobic -Si-O-Si-linked micro-nano structure sensor was extremely washable (even aer 40 wash cycles) and exhibited exceptional water repellency, anti-dirty, and corrosion resistance in wet and harsh environments (Fig. 11c).…”

Section: Ensuring the Standard Washer Environmentmentioning

confidence: 97%

Emerging washable textronics for imminent e-waste mitigation: strategies, reliability, and perspectives

Liman

Islam

2022

J. Mater. Chem. A

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“…Wang et al reported the use of zero-dimensional silicon nanoparticles with MXene in cotton fabric to form superhydrophobic textile sensor with broad sensing range. [69] This material exhibited superior sensitivity (S = 12.23 kPa -1 ), a stable response under press-relaxing cycles, and broad sensing ranges (pressure: 8.8Pa -70 kPa, bending: 0 -180°, torsion: 0 -628 radm -1 ). Also, the conductivity is sustained under wet and corrosive conditions.…”

Section: Mxene Based Sensorsmentioning

confidence: 98%

MXene Based Sensing Materials: Current Status and Future Perspectives

Sivasankarapillai¹,

Sharma²,

Hwa³

et al. 2022

ES Energy Environ.

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MXenes are a family of two-dimensional multifunctional materials in a rapid development phase since their discovery in 2011. MXenes possess excellent features like high conductivity and surface area, improved mechanical properties, hydrophilicity, and ability to tune the surface properties with modifying functional groups. These features make MXenes suitable candidates for a wide range of applications, including biomedical and energy storage. This review is focused on various types of MXenes which are recently reported for sensor applications. The current scenario regarding fabrication and properties of MXenes are initially described, followed by a discussion of their applications as piezoresistive and biochemical sensors. This involves mechanical strain detection and detection of biomolecules, biomarkers, and drug molecules relevant to biomedical applications. Finally, the future perspectives are briefly discussed, which will help the researchers identify the limitations for the current scenario and develop new strategies that focus on developing novel, efficient and sensitive MXene based sensors.

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Hierarchical design of waterproof, highly sensitive, and wearable sensing electronics based on MXene-reinforced durable cotton fabrics

Cited by 98 publications

References 63 publications

MXenes—A New Class of Two-Dimensional Materials: Structure, Properties and Potential Applications

MXenes—A New Class of Two-Dimensional Materials: Structure, Properties and Potential Applications

Emerging washable textronics for imminent e-waste mitigation: strategies, reliability, and perspectives

MXene Based Sensing Materials: Current Status and Future Perspectives

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