Vertical oxide nanotubes connected by subsurface microchannels

Henrik Persson; Jason Beech; Lars Samuelson; Stina Oredsson; Christelle Prinz; Jonas Tegenfeldt

doi:10.1007/s12274-012-0199-0

Vertical oxide nanotubes connected by subsurface microchannels

Henrik Persson, Jason Beech, Lars Samuelson, Stina Oredsson, Christelle Prinz, Jonas Tegenfeldt

Forskningsoutput: Tidskriftsbidrag › Artikel i vetenskaplig tidskrift › Peer review

Sammanfattning

We describe the fabrication of arrays of oxide nanotubes using a combination of bottom up and top down nanofabrication. The nanotubes are made from epitaxially grown semiconductor nanowires that are covered with an oxide layer using atomic layer deposition. The tips of the oxide-covered nanowires are removed by argon sputtering and the exposed semiconductor core is then selectively etched, leaving a hollow oxide tube. We show that it is possible to create fluidic connections to the nanotubes by a combination of electron beam lithography to precisely define the nanotube positions and controlled wet under-etching. DNA transport is demonstrated in the microchannel. Cells were successfully cultured on the nanotube arrays, demonstrating compatibility with cell-biological applications. Our device opens up the possibility of injecting molecules into cells with both spatial and temporal control.

Originalspråk	engelska
Sidor (från-till)	190-198
Tidskrift	Nano Reseach
Volym	5
Nummer	3
DOI	https://doi.org/10.1007/s12274-012-0199-0
Status	Published - 2012

Ämnesklassifikation (UKÄ)

Den kondenserade materiens fysik (Här ingår: Materialfysik, nanofysik)
Zoologi

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10.1007/s12274-012-0199-0

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title = "Vertical oxide nanotubes connected by subsurface microchannels",

abstract = "We describe the fabrication of arrays of oxide nanotubes using a combination of bottom up and top down nanofabrication. The nanotubes are made from epitaxially grown semiconductor nanowires that are covered with an oxide layer using atomic layer deposition. The tips of the oxide-covered nanowires are removed by argon sputtering and the exposed semiconductor core is then selectively etched, leaving a hollow oxide tube. We show that it is possible to create fluidic connections to the nanotubes by a combination of electron beam lithography to precisely define the nanotube positions and controlled wet under-etching. DNA transport is demonstrated in the microchannel. Cells were successfully cultured on the nanotube arrays, demonstrating compatibility with cell-biological applications. Our device opens up the possibility of injecting molecules into cells with both spatial and temporal control.",

keywords = "Nanotube, cell injection, nanowire, gallium phosphide, reactive ion, etching, wet etching, cell",

author = "Henrik Persson and Jason Beech and Lars Samuelson and Stina Oredsson and Christelle Prinz and Jonas Tegenfeldt",

year = "2012",

doi = "10.1007/s12274-012-0199-0",

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journal = "Nano Reseach",

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T1 - Vertical oxide nanotubes connected by subsurface microchannels

AU - Persson, Henrik

AU - Beech, Jason

AU - Samuelson, Lars

AU - Oredsson, Stina

AU - Prinz, Christelle

AU - Tegenfeldt, Jonas

PY - 2012

Y1 - 2012

N2 - We describe the fabrication of arrays of oxide nanotubes using a combination of bottom up and top down nanofabrication. The nanotubes are made from epitaxially grown semiconductor nanowires that are covered with an oxide layer using atomic layer deposition. The tips of the oxide-covered nanowires are removed by argon sputtering and the exposed semiconductor core is then selectively etched, leaving a hollow oxide tube. We show that it is possible to create fluidic connections to the nanotubes by a combination of electron beam lithography to precisely define the nanotube positions and controlled wet under-etching. DNA transport is demonstrated in the microchannel. Cells were successfully cultured on the nanotube arrays, demonstrating compatibility with cell-biological applications. Our device opens up the possibility of injecting molecules into cells with both spatial and temporal control.

AB - We describe the fabrication of arrays of oxide nanotubes using a combination of bottom up and top down nanofabrication. The nanotubes are made from epitaxially grown semiconductor nanowires that are covered with an oxide layer using atomic layer deposition. The tips of the oxide-covered nanowires are removed by argon sputtering and the exposed semiconductor core is then selectively etched, leaving a hollow oxide tube. We show that it is possible to create fluidic connections to the nanotubes by a combination of electron beam lithography to precisely define the nanotube positions and controlled wet under-etching. DNA transport is demonstrated in the microchannel. Cells were successfully cultured on the nanotube arrays, demonstrating compatibility with cell-biological applications. Our device opens up the possibility of injecting molecules into cells with both spatial and temporal control.

KW - Nanotube

KW - cell injection

KW - nanowire

KW - gallium phosphide

KW - reactive ion

KW - etching

KW - wet etching

KW - cell

U2 - 10.1007/s12274-012-0199-0

DO - 10.1007/s12274-012-0199-0

M3 - Article

SN - 1998-0124

VL - 5

SP - 190

EP - 198

JO - Nano Reseach

JF - Nano Reseach

IS - 3

ER -

Vertical oxide nanotubes connected by subsurface microchannels

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