Silicon VLSI backplanes which shows cracking in the Al mirror Image provided by Dr Neil Collings.

Slides:

Advertisements

Similar presentations

1 Vjachslav Ksenofontov PhD senior researcher National Scientific Centre Kharkov Institute of Physics and Technology, Kharkov,

Advertisements

Reference Bernhard Stojetz et al. Phys.Rev.Lett. 94, (2005)

Room Temperature Tunneling Behaviors of Boron Nitride Nanotubes Functionalized with Gold Quantum Dots CNMS User Project Highlight Scientific Achievement.

S A N T A C L A R A U N I V E R S I T Y Center for Nanostructures September 25, 2003 Surface Phenomena at Metal-Carbon Nanotube Interfaces Quoc Ngo Dusan.

The Synthesis of Carbon Nanotube on Activated Carbon Prof. Dr. Sharifah Bee Abd Hamid, Imran Syakir Mohamad, Norli Abdullah, Ali Rinaldi Combinatorial.

2 August 2007 Jon Brame Fabrication and Testing of a Strain-Based Carbon Nanotube Magnetometer Structure Jon A. Brame, Johnathan Goodsell, Stephanie A.

Nanowire Presentation Alexandra Ford 4/9/08 NSE 203/EE 235.

Metal-free-catalyst for the growth of Single Walled Carbon Nanotubes P. Ashburn, T. Uchino, C.H. de Groot School of Electronics and Computer Science D.C.

Lateral Asymmetric Channel (LAC) Transistors

TECHNIQUES OF SYNTHESIZING CARBON NANOTUBE FETS FOR INTEGRATED CIRCUITS GAO, Feng S.I.D

Charge-Based Biosensor Using Carbon Nanotube Transistors Array Presenter: Jui-Ping Chiang.

Silicon VLSI backplanes which shows cracking in the Al mirror Image provided by Dr Neil Collings.

Strain-Based Resistance of Single-Walled Carbon Nanotubes Abstract The goal of this project is to fabricate devices to test the strain-based change in.

Interconnect Focus Center e¯e¯ e¯e¯ e¯e¯ e¯e¯ SEMICONDUCTOR SUPPLIERS Goal: Fabricate and perform electrical tests on various interconnected networks of.

Dr. Mansour Al Hoshan TiO 2 Nanotubes Arrays fabricated by anodizing process.

Mork Family Department of Chemical Engineering and Materials Science Si JFET-Controlled Carbon Nanotube Field Emitter Arrays Qiong Shui 1, Martin Gundersen.

Selectively Grown Silicon Nano-Wires for Transistor Devices Abstract The goal of this project is to fabricate a transistor device using silicon nano-wires.

Solid state Physics Measurements Xiaodong Cui Department of Physics The University of Hong Kong.

Microstructured Vertically Aligned Carbon Nanotube Composites Dr. Robert Davis & Group Brigham Young University Physics and Astronomy (presented.

Institute of Optics, University of Rochester1 Carbon Nanotubes: theory and applications Yijing Fu 1, Qing Yu 2 1 Institute of Optics, University of Rochester.

Chemical Vapor Deposition ( CVD). Chemical vapour deposition (CVD) synthesis is achieved by putting a carbon source in the gas phase and using an energy.

Nanoscale memory cell based on a nanoelectromechanical switched capacitor EECS Min Hee Cho.

Acknowledgements: Dr. Anthony Wagner and Dr. Jill Ferguson Synthesis and Characterization of Silicon-carbide Nanowires Jacob Pederson, Kelsey Steinke,

Technologies for Realizing Carbon Nano-Tube (CNT) Vias Clarissa Cyrilla Prawoto 26 November 2014.

Unit 3 Nanomaterials.

Report by Prof. Olga E. Glukhova Saratov State University, Physics Departament National Research University: “Saratov State University”,

NanotechnologyNanoscience Modeling and Simulation Develop models of nanomaterials processing and predict bulk properties of materials that contain nanomaterials.

Nanomaterial for Sensors Science & Technology Objective(s): To use the aligned nanotube array as sensor for monitoring gas flow rate To fabricate.

Highly Ordered Nano-Structured Templates: Enabling New Devices, Sensors, and Transducers Student:Gilad A. Kusne (1st Year PhD) Professors:D. N. Lambeth.

Fabrication of Silicon Nanocones Using RF Microplasma Jet at Atmospheric Pressure 18th SYMPOSIUM ON PLASMA SCIENCE FOR MATERIALS (SPSM-18) ○ Zhongshi Yang.

Waveguide High-Speed Circuits and Systems Laboratory B.M.Yu High-Speed Circuits and Systems Laboratory 1.

M. CuffianiIPRD04, Siena, May A novel position detector based on nanotechnologies: the project M. Cuffiani M. C., G.P. Veronese (Dip. di Fisica,

J.Byrne Draw the outer shape of the room to sizes given. J.Byrne

Module A-3 Carbon Nanotubes. Space Elevators First elevator: 20 ton capa city (13 ton payload) Constructed with existing or near-term technology.

Apex Target Marco Oriunno, April 23, Design and fabrication by: Marco Oriunno, Dieter Walz, Jim McDonald, Clive Field, Douglas Higginbotham, and.

Background about Carbon Nanotubes CAR Seminar 5 November 2010 Meg Noah.

Nanoprobe Arrays for Controlled and Massively Parallel Nanofabrication

S. E. Thompson EEL 6935 Today’s Subject Continue on some basics on single-wall CNT---- chiral length, angle and band gap; Other properties of CNT; Device.

Layer-by-Layer Assembly of Gold Nanoparticles into Monolayers Daniel Witter Chemical Engineering U of A.

Tutorial 4 Derek Wright Wednesday, February 9 th, 2005.

EE235 Presentation I CNT Force Sensor Ting-Ta YEN Feb Y. Takei, K. Matsumoto, I. Shimoyama “Force Sensor Using Carbon Nanotubes Directly Synthesized.

POSTER TEMPLATE BY: Fabrication of Nanobiosensors Tom Fitzgerald, Nathan Howell, Brian Maloney Oregon State University, Department.

Presenter Name Facility Name Ultra Thin CCD detectors for particle physics experiments.

Growth of low defect density III-N on Nanowires S. M. Bedair, North Carolina State University, DMR Gallium Nitride (GaN) is a pivotal material.

Motivation There has been increasing interest in the fabrication and characterization of 1D magnetic nanostructures because of their potential applications.

ADVANCED HIGH DENSITY INTERCONNECT MATERIALS AND TECHNIQUES DIVYA CHALLA.

Growth of Multiwalled Carbon Nanotubes on Carbon Fabric P.A. Lacasse, K.L. Kepple, G.P. Sanborn, K.M. Gruenberg, W.J. Ready Georgia Tech Research Institute.

Manufacture of High Aspect Ratio Carbon Nanotube Atomic Force Microscopy Probes Y.N. Emirov 1, J.D. Schumacher 1, M. M. Beerbom 1, B. Lagel 1 B.B. Rossie.

March 3rd, 2008 EE235 Nanofabrication, University of California Berkeley Hybrid Approach of Top Down and Bottom Up to Achieve Nanofabrication of Carbon.

El-Mul Technologies Ltd – Confidential & Proprietary El-Mul Technologies El-Mul Technologies Ltd – Confidential & Proprietary Prof. Eli Cheifetz, Chairman.

The International Conference of Metallurgical Coating and Thin Films ICMCTF 2003 Tae-Young Kim a)b), Kwang-Ryeol Lee a), Seung-Cheol Lee a), Kwang Yong.

Optimization of T-Cell Trapping in a Microfluidic Device Group #19

Nanotechnology Ninad Mehendale.

Molecular and Electronic Devices Based on Novel One-Dimensional Nanopore Arrays NSF NIRT Grant# PIs: Zhi Chen 1, Bruce J. Hinds 1, Vijay Singh.

Carbon Nanotubes.

Shaping Carbon Nanotube Forests for Field Emission Ben Pound and T.-C. Shen Department of Physics Background Elastocapillary Self-Assembly Method to Make.

Scanning Electron Microscopy

Pt-Ox Test Results Wafer Processing and SEM by Kenneth Leedle

Internally sealed compartments BN nanotube and Ta/B/N catalytic particle.

SEMICAPS DIFFRACTIVE SIL

Introduction Methods Results Conclusions

Enhanced Growth and Field Emission of Carbon Nanotube by Nitrogen Incorporation: The First Principle Study Hyo-Shin Ahn*, Seungwu Han†, Do Yeon Kim§, Kwang-Ryeol.

Date of download: 11/9/2017 Copyright © ASME. All rights reserved.

Characterization of CNT using Electrostatic Force Microscopy

VLSI System Design LEC3.1 CMOS FABRICATION REVIEW

Field Emission Measurement

[CII] observations of the Ring nebula (NGC 6720)

[CII] observations of the Ring nebula (NGC 6720)

by Sanha Kim, Yijie Jiang, Kiera L. Thompson Towell, Michael S. H

Presentation transcript:

Silicon VLSI backplanes which shows cracking in the Al mirror Image provided by Dr Neil Collings

Silicon VLSI backplanes showing "punch through" of the transistor underlying the mirror. Image provided by Dr Neil Collings

Wafer1.tif: From Mark Mann. First image of CNTs grown by a new type of furnace. This shows morphology and size distribution of the grown nanotubes. SEM was used to compare this across the width of the 4" wafer.

Yps42c1.tif: from Mark Mann. Checking for CNTs grown on the top of sharply etched tungsten contained within a Schottky module. The CNT operates as a field emission source. The SEM is used to check the CNT's length & rough diameter. It also checks for alignment.

Images provided by: Husnu Emrah Unalan Demonstrating supergrowth Further details awaited

Lewis06secondchipTT: Provided by Mark Mann. Fabrication of aligned, sparse arrays of multi-walled carbon nanotubes for use as a field ionizer for mass spectroscopy. Taken at 25 deg. tilt - some tips are >20 um high. They have spacing twice their height for optimum field v current density. The SEM is vital to help achieve a greater uniformity in the grown CNTs.

Vertically aligned Multiwalled Carbon Nanotubes Contributed by Shupei Oei We check by SEM for a) alignment b) growth c) morphology- height, width d) identify tip or base- growth, by observing position of catalyst particle. Resolution is not quite sufficient for for imaging of single walled carbon nanotubes.