Nanovie. Scanning Tunnelling Microscope

Similar documents
Measurement of Microscopic Three-dimensional Profiles with High Accuracy and Simple Operation

Unit-25 Scanning Tunneling Microscope (STM)

Scanning Tunneling Microscopy

A Project Report Submitted to the Faculty of the Graduate School of the University of Minnesota By

A scanning tunneling microscopy based potentiometry technique and its application to the local sensing of the spin Hall effect

LOW TEMPERATURE STM/AFM

Optical Microscope. Active anti-vibration table. Mechanical Head. Computer and Software. Acoustic/Electrical Shield Enclosure

Nanotechnology, the infrastructure, and IBM s research projects

Investigate in magnetic micro and nano structures by Magnetic Force Microscopy (MFM)

Nanosurf easyscan 2 FlexAFM

INTRODUCTION We believe that every laboratory working in the field of nanotechnology needs an SEM, therefore we would like to introduce to you our IEM

CHAPTER 2 POLARIZATION SPLITTER- ROTATOR BASED ON A DOUBLE- ETCHED DIRECTIONAL COUPLER

Scanning Tunneling Microscopy

Micro-manipulated Cryogenic & Vacuum Probe Systems

Advanced Nanoscale Metrology with AFM

A Brief Introduction to Single Electron Transistors. December 18, 2011

Outline: Introduction: What is SPM, history STM AFM Image treatment Advanced SPM techniques Applications in semiconductor research and industry

Innovative Technology for Innovative Science Hands-on in a Nanoscience Classroom

Introduction of New Products

Supporting Information. Atomic-scale Spectroscopy of Gated Monolayer MoS 2

Optical Requirements

January, 2004 Jeju Island. Acknowledgements OTFL

UNIVERSITY OF WATERLOO Physics 360/460 Experiment #2 ATOMIC FORCE MICROSCOPY

Etch-stop method for reliably fabricating sharp yet. mechanically stable scanning tunneling microscope. tips

Resistive Switching Mechanisms on TaO x and SrRuO 3 Thin Film Surfaces Probed by Scanning Tunneling Microscopy

Nano-structured superconducting single-photon detector

Non-Volatile Memory Based on Solid Electrolytes

SUPPLEMENTARY INFORMATION

Supplementary Information

Atomic Force Microscopy (Bruker MultiMode Nanoscope IIIA)

INDIAN INSTITUTE OF TECHNOLOGY BOMBAY

Etch, Deposition, and Metrology Options for Cost-Effective Thin-Film Bulk Acoustic Resonator (FBAR) Production

Electric polarization properties of single bacteria measured with electrostatic force microscopy

NANO MODIFICATION OF THE W(100)/ZrO ELECTRON EMITTER TIP USING REACTIVE ION ETCHING

Development of Orderly Micro Asperity on Polishing Pad Surface for Chemical Mechanical Polishing (CMP) Process using Anisotropic Etching

Quick and simple installation and no maintenance needed. 3 Times More affordable Than a normal SEM. Obtaining results in less than 4 minutes

Asia Microreactors Datasheet

A process for, and optical performance of, a low cost Wire Grid Polarizer

NanoFabrication Kingston. Seminar and Webinar January 31, 2017 Rob Knobel Associate Professor, Dept. of Physics Queen s University

Profile Measurement of Resist Surface Using Multi-Array-Probe System

Parameter Optimization Of GAA Nano Wire FET Using Taguchi Method

NanoFocus Inc. Next Generation Scanning Probe Technology. Tel : Fax:

; A=4π(2m) 1/2 /h. exp (Fowler Nordheim Eq.) 2 const

Nanosurf easyscan 2 Your Modular Scanning Probe Microscopy System

X-ray generation by femtosecond laser pulses and its application to soft X-ray imaging microscope

Supporting Information. Silicon Nanowire - Silver Indium Selenide Heterojunction Photodiodes

A New Profile Measurement Method for Thin Film Surface

In this lecture we will begin a new topic namely the Metal-Oxide-Semiconductor Field Effect Transistor.

SUPPLEMENTARY INFORMATION

Supplementary Information: Nanoscale. Structure, Dynamics, and Aging Behavior of. Metallic Glass Thin Films

Ion beam etch and deposition systems

Electrical Functions Notes

Supporting Information. for. Visualization of Electrode-Electrolyte Interfaces in LiPF 6 /EC/DEC Electrolyte for Lithium Ion Batteries via In-Situ TEM

Tip-induced band bending and its effect on local barrier height measurement studied by light-modulated scanning tunneling spectroscopy

Effect of Corona Treatment on Spreading Behavior of UV Ink over Inkjet Printed Silver Nano-Particle Layer

Controller Design for Z Axis Movement of STM Using SPM Control Software

Analysis of the process of anodization with AFM

UVISEL. Spectroscopic Phase Modulated Ellipsometer. The Ideal Tool for Thin Film and Material Characterization

Sensors and Metrology - 2 Optical Microscopy and Overlay Measurements

Monolithically integrated InGaAs nanowires on 3D. structured silicon-on-insulator as a new platform for. full optical links

Design Rules for Silicon Photonics Prototyping

The Department of Advanced Materials Engineering. Materials and Processes in Polymeric Microelectronics

Raman Spectroscopy and Transmission Electron Microscopy of Si x Ge 1-x -Ge-Si Core-Double-Shell Nanowires

Scanning Ion Conductance Microscope ICnano

A Laser-Based Thin-Film Growth Monitor

IMAGING SILICON NANOWIRES

ATOMIC FORCE MICROSCOPY

Electrical Components and their Functions

Optics Communications

Author(s) Issue Date Text Version author. DOI / /18/9/095501

Lecture 20: Optical Tools for MEMS Imaging

High Precision Positioning Mechanisms for a Hard X-ray Nanoprobe Instrument. Abstract

Supplementary Information. The origin of discrete current fluctuations in a fresh single molecule junction

Imaging Carbon Nanotubes Magdalena Preciado López, David Zahora, Monica Plisch

Ion Beam Lithography next generation nanofabrication

Microscopy Techniques that make it easy to see things this small.

Supporting Information. Vertical Graphene-Base Hot-Electron Transistor

High-Speed Scalable Silicon-MoS 2 P-N Heterojunction Photodetectors

- Near Field Scanning Optical Microscopy - Electrostatic Force Microscopy - Magnetic Force Microscopy

Integrated Focusing Photoresist Microlenses on AlGaAs Top-Emitting VCSELs

I-V, C-V and AC Impedance Techniques and Characterizations of Photovoltaic Cells

Supplementary Figure 1 Reflective and refractive behaviors of light with normal

Conductance switching in Ag 2 S devices fabricated by sulphurization

CMOS Digital Integrated Circuits Lec 2 Fabrication of MOSFETs

MICROBUMP CREATION SYSTEM FOR ADVANCED PACKAGING APPLICATIONS

From Sand to Silicon Making of a Chip Illustrations May 2009

Indentation Cantilevers

I-V, C-V and Impedance Characterization of Photovoltaic Cells using Solartron Instrumentation

Scientific Instruments to the Future. Angstrom Advanced Inc.

Major Fabrication Steps in MOS Process Flow

Supplementary Information

Supporting Information. Superluminescence from an optically pumped. molecular tunneling junction by injection of plasmon

3D SOI elements for System-on-Chip applications

Atomic-layer deposition of ultrathin gate dielectrics and Si new functional devices

Options and Accessories for Asylum Research MFP-3D AFMs

Fast Laser Raman Microscope RAMAN

Conference Paper Cantilever Beam Metal-Contact MEMS Switch

PHYSICS OF SEMICONDUCTOR DEVICES

Park NX20 The leading nano metrology tool for failure analysis and large sample research.

College of Engineering Department of Electrical Engineering and Computer Sciences University of California, Berkeley

Transcription:

Nanovie Scanning Tunnelling Microscope

Nanovie STM Always at Hand Nanovie STM Lepto for Research Nanovie STM Educa for Education Nanovie Auto Tip Maker

Nanovie STM Lepto Portable 3D nanoscale microscope A compact portable 3D nanoscale microscope for imaging in liquid as well as in air. With a laptop, research can be done anytime anywhere under ambient conditions, without the need of a vacuum chamber and a vibration isolation table.

Nanovie STM Lepto Feature highlights Feature Highlights Optimal resolution: horizontal 2 nm, vertical 0.1 nm In-liquid scan Lithography nanoscale manipulation & in-situ rescan I-V Curve - electrical characteristics analysis (STS) Automatic tip-to-sample approach Restoration of the damaged tip during scan

Nanovie STM Lepto Imaging capability & 3D rendering The following 3D images demonstrate the details of the groove structure on the DVD surface that is coated with gold thin film, from the scan of a large area to that of a higher resolution. With our dedicated software N-image, the obtained images can be rendered into three dimensional display with various lighting effects and colouring. 1000 X 1000 nm 600 X 600 nm 400 X 400 nm 200 X 200 nm Groove cycle length ~ 750 nm and depth ~ 25 nm / Gold particle diameter ~ 20nm and height ~ 2 nm

Nanovie STM Lepto Image processing & analysis A comprehensive set of image processing & analysis tools Visualisation: De-slope, noise reduction, Fourier transform, a variety of filters and 3D rendering. Analysis: Line profiling, height histogram, roughness estimation, volume/perimeter calculation, island number counting, etc Line profiling of Pt thin film deposited on silicon wafer. Heights: 1 ~ 2 nm / Diameters: 40 ~ 70 nm Two-dimensional Fourier transform of the triangular steps on Au (111) surface

Nanovie STM Lepto In-liquid scan with a liquid cell In-liquid imaging is useful for wet chemistry and electrochemistry. The procedures are the same as the in-air scan except the use of the liquid cell as the sample holder and the use of the insulated tip. The following scans are proceeded in the deionised (DI) water. Sample in the liquid cell Gold particles on DVD surface 1600 nm X 1600 nm 850 mv / 5.9 na Gold particles on DVD surface 560 nm X 560 nm 550 mv / 3.8 na Atomic-scale graphite steps 1500 nm X 1500 nm 560 mv / 5.1 na

Nanovie STM Lepto Scanning Tunnelling Spectroscopy Prescan for STS Low data points & quick scan settings Scan area: 1160 nm X 1160 nm STS (I-V Curve) Procedures: (1) Make a first scan (2) Pin the points for measurement (3) Adjust the voltage range Intuitive scanning control interface: (1) Scan area, direction & data points (2) Bias voltage, set current & scan speed (3) Automatic tip-to-surface approach (4) Real-time image processing & line profiling

Nanovie STM Lepto Scanning Tunnelling Spectroscopy Three points were selected for measurement (marked in different colours). Three I-V curves are obtained with the voltage range from - 6000 mv to + 6000 mv. STS Panel

Nanovie STM Lepto Nano-lithography and in-situ rescan Lithography procedures: (1) Make a first scan (2) Draw the paths (3) Adjust the parameters Lithography parameters: (1) Writing voltage (2) Writing speed (3) Pulse Period Sublimation and chemical reaction induced by tunnelling electrons S.Kondn, S.Heike, M.Lutwyche and Y.Wada, J.Appl.Phys. 78(1), 155(1995)

Nanovie STM Lepto Nano-lithography and in-situ rescan Writing paths: Raised triangle formed by atomic emission Writing speed: 5 nm/s Scan area: 800 nm X 800 nm Two concave grooves etched on graphite surface Scan area: 600 nm X 600 nm Width: ~ 20 nm Depth: ~ 2 nm

Nanovie STM Lepto Real-time tip restoration The noises or blurry images may indicate the tip is damaged. Replacing the tip result in the missing of the current scan area. The first band of the white dots (noises) indicates the tip apex was degraded. With the real-time tip restoration function, the image quality of the graphite surface was improved immediately, and noticeably. Tip restoration is important to in-situ rescan after lithography, where the tip is more susceptible to degradation due to the high voltage pulses.

Nanovie STM Lepto Application APPLICATION Nanotechnology, Surface Materials, Electrochemistry, Wet Chemistry, Physics, Molecular Electronics, Optoelectronics, Semiconductor, Pre-test prior to UHV STM scan, Training prior to UHV STM operation

STM NANOVIE Always at Hand

2024 © hobbydocbox.com Privacy Policy | Terms of Service | Feedback