MXenes: promising 2D materials for wound dressing applications – a perspective review

Hada, Vaishnavi; Malvi, Deeksha; Mili, Medha; Khan, Manal M; Chaturvedi, Gaurav; Hashmi, S. A. R.; Srivastava, A. K.; Verma, Sarika

doi:10.1039/d1ma01199e

Cited by 10 publications

(4 citation statements)

References 166 publications

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“…MXene-based composites can be engineered to possess desired mechanical properties, such as flexibility and elasticity, effectively improving wound healing and providing necessary support for tissue regeneration. 80 One study found that MXene-based composites had a high mechanical strength and could maintain their mechanical properties even after immersing in simulated body fluids for up to seven days. 81 MXenes can be utilized as conductive elements in wound dressings, allowing for the delivery of electrical signals to the wound site.…”

Section: Advanced Wound Dressing/healing Applicationsmentioning

confidence: 99%

MXene-based composites in smart wound healing and dressings

Zarepour,

Rafati,

Khosravi

et al. 2024

Nanoscale Adv.

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Section: Advanced Wound Dressing/healing Applicationsmentioning

confidence: 99%

MXene-based composites in smart wound healing and dressings

Zarepour,

Rafati,

Khosravi

et al. 2024

Nanoscale Adv.

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“…The composite dressings are integrated with electrical signal measuring tools and bridged to smartphone for continuous monitoring of the healing progress 117 , 118 . MXenes are recent exploration in this direction of electroactive wound dressing, embedded in bacterial cellulose to promote cellular proliferation and migration at the wound site 119 , 120 . In a typical fabrication, as shown in Figure 4 B (a), the bacterial cellulose (BC) pellicles were resolved using NaOH and epichlorohydrin (ECH) cross linker to obtain regenerated bacterial cellulose (rBC).…”

Section: Nanotechnology and Theranosticsmentioning

confidence: 99%

Current Trends in Nanotheranostics: A Concise Review on Bioimaging and Smart Wearable Technology

Sharma¹

2023

Nanotheranostics

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The area of interventional nanotheranostics combines the use of interventional procedures with nanotechnology for the detection and treatment of physiological disorders. Using catheters or endoscopes, for example, interventional techniques make use of minimally invasive approaches to diagnose and treat medical disorders. It is feasible to increase the precision of these approaches and potency by integrating nanotechnology. To visualize and target various parts of the body, such as tumors or obstructed blood veins, one can utilize nanoscale probes or therapeutic delivery systems. Interventional nanotheranostics offers targeted, minimally invasive therapies that can reduce side effects and enhance patient outcomes, and it has the potential to alter the way that many medical illnesses are handled. Clinical enrollment and implementation of such laboratory scale theranostics approach in medical practice is promising for the patients where the user can benefit by tracking its physiological state. This review aims to introduce the most recent advancements in the field of clinical imaging and diagnostic techniques as well as newly developed on-body wearable devices to deliver therapeutics and monitor its due alleviation in the biological milieu.

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“…Previous studies have demonstrated that incorporating 2D nanosheets into electrospun nanofibers enhances the mechanical properties of membranes and improves biocompatibility, which makes them suitable for wound dressing and scaffold applications [ 140 , 141 , 142 , 143 ]. Many researchers have investigated the significance of MXenes in wound dressing applications [ 144 , 145 ]. Among many elements, titanium carbide (Ti 2 C 2 Tx) has been used mainly for wound healing due to the antimicrobial and biocompatible nature of titanium [ 145 ].…”

Section: Biomedical Applications Of Electrospun Mxenes/polymeric Nano...mentioning

confidence: 99%

“…Many researchers have investigated the significance of MXenes in wound dressing applications [ 144 , 145 ]. Among many elements, titanium carbide (Ti 2 C 2 Tx) has been used mainly for wound healing due to the antimicrobial and biocompatible nature of titanium [ 145 ]. However, the direct use of MXene sheets in surgical incisions may create some problems.…”

Section: Biomedical Applications Of Electrospun Mxenes/polymeric Nano...mentioning

confidence: 99%

MXene-Embedded Electrospun Polymeric Nanofibers for Biomedical Applications: Recent Advances

2023

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Recently MXenes has gained immense attention as a new and exciting class of two-dimensional material. Due to their unique layered microstructure, the presence of various functional groups at the surface, earth abundance, and attractive electrical, optical, and thermal properties, MXenes are considered promising candidates for various applications such as energy, environmental, and biomedical. The ease of dispersibility and metallic conductivity of MXene render them promising candidates for use as fillers in polymer nanocomposites. MXene–polymer nanocomposites simultaneously benefit from the attractive properties of MXenes and the flexibility and facile processability of polymers. However, the potentiality of MXene to modify the electrospun nanofibers has been less studied. Understanding the interactions between polymeric nanofibers and MXenes is important to widen their role in biomedical applications. This review explores diverse methods of MXene synthesis, discusses our current knowledge of the various biological characteristics of MXene, and the synthesis of MXene incorporated polymeric nanofibers and their utilization in biomedical applications. The information discussed in this review serves to guide the future development and application of MXene–polymer nanofibers in biomedical fields.

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MXenes: promising 2D materials for wound dressing applications – a perspective review

Abstract: Role of MXene in wound dressing applications.

Cited by 10 publications

References 166 publications

MXene-based composites in smart wound healing and dressings

MXene-based composites in smart wound healing and dressings

Current Trends in Nanotheranostics: A Concise Review on Bioimaging and Smart Wearable Technology

MXene-Embedded Electrospun Polymeric Nanofibers for Biomedical Applications: Recent Advances

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