ABSTRACT: Functional kinked nanowires (KNWs) repre-sent a new class of nanowire building blocks, in which functional devices, for example, nanoscale field-effect tran-sistors (nanoFETs), are encoded in geometrically controlled nanowire superstructures during synthesis. The bottom-up control of both structure and function of KNWs enables construction of spatially isolated point-like nanoelectronic probes that are especially useful for monitoring biological systems where finely tuned feature size and structure are highly desired. Here we present three new types of functional KNWs including (1) the zero-degree KNW structures with two parallel heavily doped arms of U-shaped structures with a nanoFET at the tip of the “U”, (2) series multiplexed...
Semiconductor nanowires configured as the active channels of field-effect transistors (FETs) have be...
This dissertation is a continuation of an earlier work on the theory and fabrication of a massively ...
Nanostructures, which have sizes comparable to biological functional units involved in cellular comm...
Functional kinked nanowires (KNWs) represent a new class of nanowire building blocks, in which funct...
Semiconductor nanowire materials and devices provide unique opportunities in the frontier between na...
(Article begins on next page) The Harvard community has made this article openly available. Please s...
For the last decade, semiconducting nanowires synthesized by bottom-up methods have opened up new op...
Nanoelectronic devices offer substantial potential for interrogating biological systems, although ne...
Given its interdisciplinary nature, nanomaterials research is conducted in a virtuous cycle. In this...
Nanowire FETs (NWFETs) are promising building blocks for nanoscale bioelectronic interfaces with cel...
Recent advance in free-standing nanowire transistor bioprobes opens up new opportunities of accurate...
Nanomaterials provide unique opportunities at the interface between nanoelectronics and biology. “Bo...
Semiconductor nanowires display a wide range of structural and functional diversity, and as such pro...
Branched nanostructures represent unique, 3D building blocks for the “bottom-up” paradigm of nanosca...
The interface between nanoscale electronic devices and biological systems enables interactions at le...
Semiconductor nanowires configured as the active channels of field-effect transistors (FETs) have be...
This dissertation is a continuation of an earlier work on the theory and fabrication of a massively ...
Nanostructures, which have sizes comparable to biological functional units involved in cellular comm...
Functional kinked nanowires (KNWs) represent a new class of nanowire building blocks, in which funct...
Semiconductor nanowire materials and devices provide unique opportunities in the frontier between na...
(Article begins on next page) The Harvard community has made this article openly available. Please s...
For the last decade, semiconducting nanowires synthesized by bottom-up methods have opened up new op...
Nanoelectronic devices offer substantial potential for interrogating biological systems, although ne...
Given its interdisciplinary nature, nanomaterials research is conducted in a virtuous cycle. In this...
Nanowire FETs (NWFETs) are promising building blocks for nanoscale bioelectronic interfaces with cel...
Recent advance in free-standing nanowire transistor bioprobes opens up new opportunities of accurate...
Nanomaterials provide unique opportunities at the interface between nanoelectronics and biology. “Bo...
Semiconductor nanowires display a wide range of structural and functional diversity, and as such pro...
Branched nanostructures represent unique, 3D building blocks for the “bottom-up” paradigm of nanosca...
The interface between nanoscale electronic devices and biological systems enables interactions at le...
Semiconductor nanowires configured as the active channels of field-effect transistors (FETs) have be...
This dissertation is a continuation of an earlier work on the theory and fabrication of a massively ...
Nanostructures, which have sizes comparable to biological functional units involved in cellular comm...
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