Fabrication of next generation transistors calls for new technological requirements, such as reduced size and increased density of structures. Development of cost‐effective processing techniques to fabricate small‐pitch vertical III–V nanowires over large areas will be an important step toward realizing dense gate all‐around transistors, having high electron mobility, and low power consumption. It is demonstrated here, how arrays of III–V nanowires with a controllable number of rows, ranging from one single row up to bands of 500 nm, can be processed by directed self‐assembly (DSA) of block copolymer (BCP). Furthermore, it is shown that the DSA‐orientation with respect to the substrate's crystal direction affects the nanowire facet configur...
The process for the fabrication of devices based on a single silicon nanowire with a triangular sect...
Vertical III−V nanowires are of great interest for a large number of applications, but their integra...
This chapter focuses on two emerging nanotechnologies developed to fabricate, organize and integrate...
Silicon nanowires have received considerable attention as transistor components because they represe...
We report on the recent achievement of III-V nanowire applications for a vertical FET and steep subt...
Abstract in Undetermined Extreme down-scaling of nanoelectronic devices by top-down fabrication meth...
As high technology device patterns are continuing to move towards decreasing critical dimensions and...
III-V MOSFETs are candidates for extension of the scaling roadmap beyond 10 nm. In the vertical dire...
A simple top down method to fabricate an array of vertically stacked nanowires is presented. By taki...
Nanowire (NW) based devices provide bright possibilities for many different applications [1]. The us...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
International audienceVertical III−V nanowires are of great interest for a large number of applicati...
A simple technique is demonstrated to fabricate horizontal, uniform, and hexagonally arranged Sinano...
We describe the fabrication of vertically stacked Silicon Nanowire Field Effect Transistors (SiNWFET...
This paper discusses the newly introduced vertically-stacked silicon nanowire gate-all-around fielde...
The process for the fabrication of devices based on a single silicon nanowire with a triangular sect...
Vertical III−V nanowires are of great interest for a large number of applications, but their integra...
This chapter focuses on two emerging nanotechnologies developed to fabricate, organize and integrate...
Silicon nanowires have received considerable attention as transistor components because they represe...
We report on the recent achievement of III-V nanowire applications for a vertical FET and steep subt...
Abstract in Undetermined Extreme down-scaling of nanoelectronic devices by top-down fabrication meth...
As high technology device patterns are continuing to move towards decreasing critical dimensions and...
III-V MOSFETs are candidates for extension of the scaling roadmap beyond 10 nm. In the vertical dire...
A simple top down method to fabricate an array of vertically stacked nanowires is presented. By taki...
Nanowire (NW) based devices provide bright possibilities for many different applications [1]. The us...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
International audienceVertical III−V nanowires are of great interest for a large number of applicati...
A simple technique is demonstrated to fabricate horizontal, uniform, and hexagonally arranged Sinano...
We describe the fabrication of vertically stacked Silicon Nanowire Field Effect Transistors (SiNWFET...
This paper discusses the newly introduced vertically-stacked silicon nanowire gate-all-around fielde...
The process for the fabrication of devices based on a single silicon nanowire with a triangular sect...
Vertical III−V nanowires are of great interest for a large number of applications, but their integra...
This chapter focuses on two emerging nanotechnologies developed to fabricate, organize and integrate...