Research of the nanomaterials is actively studying. In nanomaterials, 1-D nanostructures have various properties and have diverse applications. For instance, nanowires of 1-D can be applied to nanoelectromechanical systems(NEMS), high density memories, semiconductor, fuel cells, biosensors and cell ...
Research of the nanomaterials is actively studying. In nanomaterials, 1-D nanostructures have various properties and have diverse applications. For instance, nanowires of 1-D can be applied to nanoelectromechanical systems(NEMS), high density memories, semiconductor, fuel cells, biosensors and cell separations. Also, synthesis methods of nanowire are consist of chemical vapor deposition(CVD), electro spinning, nanotemplate. Nanowires are widely pursued one-dimensional nanosystems and promise immense opportunities in nanotechnology, ranging from nanoelectronic devices to cell-separation and magnetic labeling in biomedicine. A variety of methods are devised to synthesize them from magnetic, semiconductor, inorganic, organic, polymer and metallic to dielectric materials, proving novel optic, electrical, catalytic, and magnetic functionalities. Among these methods, synthesis of using the nanotemplate can easily manipulate the size, shape and crystallinity. In addition to these factors, it has also uniformly growth, mass production and cost effect. In this ways, nanowire synthesis using the nanotemplate has a robust application. Though research area of semiconductor of the using nanowires already much studied, studies of biofunctional Ni/Au multilayered nanowires are not properly made out. In here, we focused on manipulating of biofunctional Ni/Au multilayered nanowires for the bio applications. Au was well known for biocompatible material and Ni has a soft magnetic property. Using the properties of Au and Ni, we could apply to bio research with multifunctional biocompatible Ni/Au core shell nanowires.
In this way, these metal Ni/Au multilayered nanowires with multiple functionalities were preferred from a single solution bath. Synthesis of Ni/Au multilayered nanowires is appealing not only to magnetic devices but also to bio-applications as a result of magnetic and optical multifunctionality. In this work, such Ni/Au multilayered nanowires were successfully prepared and characterized from a single solution bath.
Research of the nanomaterials is actively studying. In nanomaterials, 1-D nanostructures have various properties and have diverse applications. For instance, nanowires of 1-D can be applied to nanoelectromechanical systems(NEMS), high density memories, semiconductor, fuel cells, biosensors and cell separations. Also, synthesis methods of nanowire are consist of chemical vapor deposition(CVD), electro spinning, nanotemplate. Nanowires are widely pursued one-dimensional nanosystems and promise immense opportunities in nanotechnology, ranging from nanoelectronic devices to cell-separation and magnetic labeling in biomedicine. A variety of methods are devised to synthesize them from magnetic, semiconductor, inorganic, organic, polymer and metallic to dielectric materials, proving novel optic, electrical, catalytic, and magnetic functionalities. Among these methods, synthesis of using the nanotemplate can easily manipulate the size, shape and crystallinity. In addition to these factors, it has also uniformly growth, mass production and cost effect. In this ways, nanowire synthesis using the nanotemplate has a robust application. Though research area of semiconductor of the using nanowires already much studied, studies of biofunctional Ni/Au multilayered nanowires are not properly made out. In here, we focused on manipulating of biofunctional Ni/Au multilayered nanowires for the bio applications. Au was well known for biocompatible material and Ni has a soft magnetic property. Using the properties of Au and Ni, we could apply to bio research with multifunctional biocompatible Ni/Au core shell nanowires.
In this way, these metal Ni/Au multilayered nanowires with multiple functionalities were preferred from a single solution bath. Synthesis of Ni/Au multilayered nanowires is appealing not only to magnetic devices but also to bio-applications as a result of magnetic and optical multifunctionality. In this work, such Ni/Au multilayered nanowires were successfully prepared and characterized from a single solution bath.
주제어
#Nanowires
※ AI-Helper는 부적절한 답변을 할 수 있습니다.