Ki Hyun Lee scite author profile

Ti3C2Tx MXene is an emerging class of two-dimensional nanomaterials with exceptional electroconductivity and electrochemical properties, and is promising in the manufacturing of multifunctional macroscopic materials and nanomaterials. Herein, we develop a straightforward, continuously controlled, additive/binder-free method to fabricate pure MXene fibers via a large-scale wet-spinning assembly. Our MXene sheets (with an average lateral size of 5.11 μm2) are highly concentrated in water and do not form aggregates or undergo phase separation. Introducing ammonium ions during the coagulation process successfully assembles MXene sheets into flexible, meter-long fibers with very high electrical conductivity (7,713 S cm−1). The fabricated MXene fibers are comprehensively integrated by using them in electrical wires to switch on a light-emitting diode light and transmit electrical signals to earphones to demonstrate their application in electrical devices. Our wet-spinning strategy provides an approach for continuous mass production of MXene fibers for high-performance, next-generation, and wearable electronic devices.

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Highly Electroconductive and Mechanically Strong Ti₃C₂T_xMXene Fibers Using a Deformable MXene Gel

Shin

et al. 2021

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Self-assembly of two-dimensional MXene sheets is used in various fields to create multiscale structures due to their electrical, mechanical, and chemical properties. In principle, MXene nanosheets are assembled by molecular interactions, including hydrogen bonds, electrostatic interactions, and van der Waals forces. This study describes how MXene colloid nanosheets can form self-supporting MXene hydrogels. Three-dimensional network structures of MXene gels are strengthened by reinforced electrostatic interactions between nanosheets. Stable gel networks are beneficial for fabricating highly aligned fibers because MXene gel can endure structural deformation. During wet spinning of highly concentrated MXene colloids in a coagulation bath, MXene sheets can be transformed into perfectly aligned fibers under a mechanical drawing force. Oriented MXene fibers exhibit a 1.5-fold increase in electrical conductivity (12 504 S cm–1) and Young’s modulus (122 GPa) compared with other fibers. The oriented MXene fibers are expected to have widespread applications, including electrical wiring and signal transmission.

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Analytical Tools and Databases for Metagenomics in the Next-Generation Sequencing Era

et al. 2013

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Metagenomics has become one of the indispensable tools in microbial ecology for the last few decades, and a new revolution in metagenomic studies is now about to begin, with the help of recent advances of sequencing techniques. The massive data production and substantial cost reduction in next-generation sequencing have led to the rapid growth of metagenomic research both quantitatively and qualitatively. It is evident that metagenomics will be a standard tool for studying the diversity and function of microbes in the near future, as fingerprinting methods did previously. As the speed of data accumulation is accelerating, bioinformatic tools and associated databases for handling those datasets have become more urgent and necessary. To facilitate the bioinformatics analysis of metagenomic data, we review some recent tools and databases that are used widely in this field and give insights into the current challenges and future of metagenomics from a bioinformatics perspective.

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EzEditor: a versatile sequence alignment editor for both rRNA- and protein-coding genes

et al. 2014

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EzEditor is a Java-based molecular sequence editor allowing manipulation of both DNA and protein sequence alignments for phylogenetic analysis. It has multiple features optimized to connect initial computer-generated multiple alignment and subsequent phylogenetic analysis by providing manual editing with reference to biological information specific to the genes under consideration. It provides various functionalities for editing rRNA alignments using secondary structure information. In addition, it supports simultaneous editing of both DNA sequences and their translated protein sequences for protein-coding genes. EzEditor is, to our knowledge, the first sequence editing software designed for both rRNA-and protein-coding genes with the visualization of biologically relevant information and should be useful in molecular phylogenetic studies. EzEditor is based on Java, can be run on all major computer operating systems and is freely available from http://sw.ezbiocloud.net/ezeditor/.

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Holey graphene oxide membranes containing both nanopores and nanochannels for highly efficient harvesting of water evaporation energy

Lee

Kang

Eom

et al. 2022

Chemical Engineering Journal

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Ki Hyun Lee

Large-scale wet-spinning of highly electroconductive MXene fibers

Highly Electroconductive and Mechanically Strong Ti₃C₂T_xMXene Fibers Using a Deformable MXene Gel

Analytical Tools and Databases for Metagenomics in the Next-Generation Sequencing Era

EzEditor: a versatile sequence alignment editor for both rRNA- and protein-coding genes

Holey graphene oxide membranes containing both nanopores and nanochannels for highly efficient harvesting of water evaporation energy

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About

Ki Hyun Lee

Large-scale wet-spinning of highly electroconductive MXene fibers

Highly Electroconductive and Mechanically Strong Ti3C2TxMXene Fibers Using a Deformable MXene Gel

Analytical Tools and Databases for Metagenomics in the Next-Generation Sequencing Era

EzEditor: a versatile sequence alignment editor for both rRNA- and protein-coding genes

Holey graphene oxide membranes containing both nanopores and nanochannels for highly efficient harvesting of water evaporation energy

Contact Info

Product

Resources

About

Highly Electroconductive and Mechanically Strong Ti₃C₂T_xMXene Fibers Using a Deformable MXene Gel