The TT-2 AFM is ideal for instrument builders who want to use an Atomic Force Microscope as a platform for creating new instrumentation (such as a new imaging mode), or who want to use an Atomic Force Microscope in combination with another analytical instrument. TT-2 AFM customers have access to the systems software, mechanical drawings, and schematics. Because the software is written in LabVIEW, it can be easily modified to meet very specific demands.
TT-2 AFM software was developed in LabVIEW, making it easy for customers with a LabVIEW user license to customize their software. Additionally, National Instrument Data Acquisition Cards can be integrated into the TT-2 AFM to create a customized experiment.
Instrument Innovators are no longer faced with the decision to either create an entirely new AFM, or to live with the limitations of commercial AFMs that have limited documentation and a closed architecture. An engineering documentation package is available as an option to TT-2 AFM customers.
Mechanical Drawings
All the drawings for mechanical parts used to build a TT-2 AFM were created in AutoCAD and are included in the optional documentation package. If you require a .dwg file for a specific part in the TT-2 AFM, AFMWorkshop will provide it to you. Additionally, single parts in the microscope can be purchased if you need to modify a part for your needs. Each part is identified by part numbers on each mechanical drawing.
Software
National Instrument’s LabVIEW instrumentation programming language is setting the standard as the graphical programming environment for developing instrumentation. The TT-2 AFM includes a VI that can be modified for specific needs. The instrument control protocol for addressing functions such as Z feedback, XY scanning and stepper motor control is included with the technical documentation package. The AFMWorkshop does not provide a LabVIEW software development license – this must be purchased from NI.
Electronics
Direct access to TT-2 AFM electronics signals may be gained from a 50 pin ribbon cable at the rear of the TT-2 AFM EBox, or from the mode connector at the front of the microscope stage. For developers who want even more access, the technical guide includes schematics to all electronics in the TT-2 AFM, including: photodetector board, piezo electric control board, controller main board, and even the power supply board. There are several pinned signal access points on the main controller board.
To learn more about afmworkshop’s atomic force microscopes, feel free to visit www.afmworkshop.com.
Learn the theory, design, and operation of atomic force microscopes, as well as hands-on application. You’ll get to build your own AFM including scanner, stage, and light-lever.
TT-2 AFM Assembly Workshop
TT-2 AFM Assembly & Operation Workshop
Attendees to this five day workshop build a TT-2 AFM atomic force microscope and learn how to operate it. Additionally, daily seminars provide attendees with training on the theory, operation and applications of an atomic force microscope. The workshop is primarily geared for customers who have purchased a TT-AFM Kit.
Each day begins with one to two hours of coursework followed by hands-on microscope assembly,testing and operation.
Attendees of the TT-2 AFM Assembly & Operation Workshop:
Are better able to operate, gain optimal performance, and obtain the best images from their TT-AFM. Can repair the microscope whenever needed because they know the assembly process and all the parts used in its construction. May easily modify their instrument to create unique instrumentation designed for their specific research applications.
Atomic force microscopy workshops offer customers an in-depth training experience on the theory, design, and operation of AFMs. The TT-2 Assembly workshop is a five-day intensive workshop giving users a chance to build their own AFM including the scanner, light-lever, and stage, while learning the theory and parameters that affect and make AFM scanning possible. Other workshops offer detailed training sessions on various applications of AFM including Polymers, Nanoparticles, and Bioapplications. In addition to our free AFM School paid AFM Workshops are advanced AFM Classes in specific atomic force microscopy areas.
AFMWorkshop offers multiple AFM courses and atomic force microscopy training opportunities for professionals and students throughout the year. From building your own AFM, to learning advanced techniques and applications, our workshops are intensive, informative, and fun. Learn the best operational scanning practices.
For those AFMWorkshop customers electing On-Site Installation & Training on their AFM, vs. the Assembly and Training program at the AFMWorkshop facility, AFMWorkshop has designed a set of procedures to facilitate optimal installation and function of your new AFM.
Once the new AFMWorkshop AFM is received at your facility, an authorized AFMWorkshop customer service engineer travels to your facility to install the AFM and to train your AFM users on the particular model’s operative techniques.
AFMWorkshop’s on-site training is designed for up to two designated operators of the AFM. These operators are then designated as the primary contact points between AFMWorkshop and the customer’s institution. During the installation and training visit, the focus is on training customers how to make optimal images of standard samples, not on specific applications. We find that this approach yields the best results for future success with the AFM. (If your facility’s AFM operators are interested in continuing their training on specific applications, AFMWorkshop offers five-day advanced applications workshops throughout the year.)
Day 1
The objective is to set up the AFM and ensure it is operating to factory specifications. The AFM’s proposed location is reviewed and remedies to any potential negative ambient impacts on the AFM’s performance are discussed.
Unpack AFM
Set up AFM
Evaluate AFM site for acoustic and structural vibrations
Verify system specifications
Day 2
The objective is to train up to two operators on the skills required to operate the AFM and to make images of standard samples. Skills reviewed include:
Changing samples
Changing probes
Aligning the light lever
Positioning the photo-detector
Selecting resonance (vibrating mode only)
Tip approach
Scanning
Optimizing GPID
High resolution scanning on the AFMWorkshop product
The final component to the AFMWorkshop On-Site Installation and Training is the preparation of a service installation report, completed and signed by both the installation engineer and the customer at the end of Day 2. This report verifies that the instrument is properly functioning and/or makes note of any problems that may need further attention. After the installation, follow-up questions should be primarily directed to the AFMWorkshop service engineer who performed the installation, and come through one of your facility’s two designated AFM users receiving the training.
AFMWorkshop covers all travel costs as well as room and board for the customer service engineer. We request a minimum of two weeks advance notice to schedule the installation.
To learn more about our AFM Installation Training programs, feel free to visit www.afmworkshop.com.
Two day course focusing on atomic force microscopy for nanoparticle characterization. Participants will learn an overview of AFM hardware and software, as well as imaging and data analysis techniques specific to nanoparticle characterization. Lab work mixed with coursework gives students hands-on experience using AFM to measure the properties of nanoparticles.
The Atomic Force Microscope (AFM) allows for 3D characterization of nanoparticles with sub-nanometer resolution. Nanoparticle characterization using Atomic Force Microscopy has a number of advantages over dynamic light scattering, electron microscopy and optical characterization methods. The AFM provides powerful information on size, distribution, and geometries of nanoparticles.
Some of the unique advantages of nanoparticle characterization with an AFM include:
-Characterization of nanoparticles that are .5nm and up. -Nanoparticle mixture distributions below 30 nm. -Characterization of variable geometry nanoparticles. -Direct visualization of hydrated nanoparticles/liquid medium. -Characterization of nanoparticle physical properties such as magnetic fields.
This two day AFMWorkshop course mixes lecture with labwork on atomic force microscopy operation specifically as it applies to characterizing nanoparticles. AFM hardware and software will be reviewed, with special emphasis on the imaging modes and image processing needed to study nanoparticles. We will utilize AFMs from AFMWorkshop to teach basic concepts and demonstrate AFM operation, however attendees with experience on any make of AFM instrument will find the labwork relevant and practical.
Topics to Be Covered:
-Overview of AFM operation and different modes Topography measurements on nanoparticles. -Nanoscale resolution -Overview of AFM hardware -Overview of AFM software -Imaging modes for nanoparticles -Imaging artifacts and best practices -Image processing for important measurements on nanoparticles
Labwork:
-Scanning standard and reference samples. -Nanoparticle imaging and image processing. -AFM calibration
Interested in participating of our workshops?
To learn more about Atomic Force Microscopes Training, feel free to visit www.afmworkshop.com.
This NanoLithography software option enables the AFM probe to alter the physical or chemical properties of the surface. Created in LabVIEW and integrated with the AFMControl software. VI’s are available to customers who want to modify the software and create new capabilities.
Description Model: LITHO
This Lithography Software Option is used for nanolithography. That is, the AFM’s probe is used to alter the physical or chemical properties of the surface.
The software uses a script of commands to move the probe in a pre-determined pattern over a surface. The two commands are: “movement” and “hold”. During a movement and hold command, the voltage and force on the probe can be varied.A MOVEMENT command consists of 5 numbers (no letters) separated by commas:
They represent X, Y, Velocity, Setpoint%, and Z_DAC voltage X and Y are the coordinates in micron from the image plot. Velocity is the speed from one point to the next listed point in nm/sec. Setpoint% is the percent value of the existing setpoint. Z_DAC voltage is a voltage in the range of 0 to +5V which may be applied to the probe.
A HOLD command consists of 3 numbers (no letters) separated by commas:
They represent Setpoint%, Z_DAC voltage, and Delay Time (ms)
Setpoint% is the percent value of the existing setpoint. Z_DAC voltage is a voltage in the range of 0 to +5V which may be applied to the probe. Delay time(ms) is the time in milliseconds that the probe is held in its present position.
A scripting file is a text file that may be created with any program capable of outputting a .txt file. Each motion of the probe required to create the pattern must be added to the .txt file. Complex patterns may be created using a large number of movement and hold commands. As with all AFMWorkshopsoftware products, this software option is created using VI’s in a LabVIEW™ environment and is integrated with the AFM Control software. The VI’s used to create the software are available to customers who want to modify the lithography software and create new capabilities.
Software
The lithography software window allows a user to load a scripting file. Once loaded, the pattern that will be made is displayed in an image window. When the start button is pressed, the script is implemented and the specifics of each step are listed in the window. A green light is displayed when the script is completed.
Included with the option
PMMA sample Manual Plug for rear of unit Two probes: AppNANO: Doped Diamond (DD-ACTA-5) Conductive Diamond Tip – Non-contact mode probe Material: Si, N-Type, 0.01~0.025 Ohm/cm Cantilever: L= 125 μ, W=35 μ, T=4.5 μ Tip Radius: < 150nm, Height: 14-16 μ f: 200-400KHz, K=25~75 N/m
All atomic force microscopes manufactured by AFMWorkshop include standard scanning AFM modes: vibrating (tapping), non-vibrating (contact), phase scanning, and lateral force mode (LFM), and force distance. Optional modes expand the capability of your atomic force microscope. Besides Lithography, it includes: Conductive AFM,Magnetic Force Microscopy (MFM), and Advanced Force Distance modes. Measuring the conductivity, surface magnetic field, force curves, and manipulation of surfaces are possible with these modes.
AFMWorkshopinstruments provide a high level of flexibility for conducting a wide array of tests and experiments, and always include vibrating, non-vibrating, phase and lateral force modes. Additional AFM modes and accessories expand the capabilities of your microscope. Expand the range of your atomic force microscopy imaging by adding modes and accessories to your AFM.
Includes a stepper-motor-driven Z stage, LL-AFM force sensor, and precision X-Y stage. The stage does not include a piezo scanner or video optical microscope. Electrical connections are made at the back of the stage with a 60-pin ribbon cable connector.
Description
Model: MS-3230
The TT-AFM stage has the excellent thermal and mechanical stability required for high-resolution AFM scanning. Additionally, its open design facilitates user modification. This stage is designed to work with the AFMWorkshop Control Station including an Ebox and AFM Control software.
Features and Benefits of the TT-AFM Stage include
Rigid Frame Design
The crossed beam design for the stage support is extremely rigid so the AFM is less susceptible to external vibrations.
Light Lever AFM Force Sensor
Light lever force sensors are used in almost all atomic force microscopes and permit many types of experiments.
Integrated Probe Holder/Probe Exchanger
Probe Exchange is made quick and easy with AFMWorkshop’s unique probe holder and clipping mechanism.
Direct Drive Z stage
A fast probe approach is possible because probe/sample angle alignment is not required. A linear motion stage is used to move the probe in a perpendicular motion to the sample.
Small Footprint
Requires little space and fit easily on a tabletop with stage dimensions of 7.5 x 12″.
Precision XY Stage with Micrometer
The sample can be moved without touch. The sample is moved relative to the probe with a precision XY micrometer stage.
Modes Electric Plug
Capabilities of the TT-AFM are dramatically expanded via a six pole electrical plug at the back of the stage
Laser/Detector Alignment
Laser/detector alignment is simplified via a direct view to both the light lever laser and the photo detector adjustment mechanism.
Video Optical Microscope
A high resolution video optical microscope is used for locating features on a surface, aligning the light lever force sensor, and facilitating probe approach. The video optical microscope includes an XY micrometer stage for moving the video microscope relative to the AFM probe.
Included with the Product
TT-AFM Stage
Video Optical Microscope
60 pin ribbon cable
USB cable
TT-AFM Manual
Besides this, AFM accessories include focus assist and image loggers for AFMs, replacement scanners, probe holders, electronics, dunk and scan and environmental cell scanning options, and documentation packages for all AFM Workshop Products.
You can purchase a standalone AFM stage and customize it as per your requirements using various scanners and light levers. Environmental cells and dunk and scan packages allow AFM scanning for samples submerged in liquids and inert gas.
Additional modes and accessories expand the capabilities of your microscope.
The 15 micron scanner is interchangeable with the 50 micron scanner in the TT-AFM. Extremely high resolution scans are made with the 15 micron scanner.
Description Model: PS-2011
The PS-2010 and PS-2011 piezoelectric scanners are designed for use with the AFMWorkshop TT-AFM, and scan samples in the X, Y, and Z axis. Both products use temperature compensated strain gauges for linearizing scans in the X and Y axis. The PS-2010 has a temperature compensated strain gauge in the Z axis, while the PS-2011 does not. Both scanners use a modified tripod design for creating motion in the XY axis. Motion is generated through a lever arm. The lever arm in the 50 µm scanner is approximately 5:1 and in the 15 µm scanner it is 1:1. Animations on the AFMWorkshop website illustrate how the scanners operate. Each scanner contains a PC board with circuits for measuring ceramic motion with the strain gauge, as well as a 20 pin ribbon cable connector. The scanners are attached to the XY manual positioner with three M6 socket head screws.
Sample Holding Stage Mounted on standard AFM metal disks, samples are held on an aluminum metal plate with two magnets. As shipped, the sample holder is electronically grounded to the microscope stage to help eliminate unwanted effects from sample charging. Included with each scanner is a leveling sample puck. The puck enables samples to be leveled, reducing the AFM image background bow to less than a few nanometers. The leveling sample puck is magnetically held to the sample stage, and has three set screws to level the puck relative to the XY scan axis.
Interchangeable The 15 µm and the 50 µm scanners are interchangeable. The scanners are removed from the TT-AFM stage by simply unscrewing three M6 socket head screws and unplugging a 20 pin ribbon cable. It takes less than 5 minutes to remove one scanner and to replace it with the other scanner.
Want to expand the capabilities of your microscope?
You can add additional modes and accessories to achieve that. AFM accessories include focus assist and image loggers for AFMs, replacement scanners, probe holders, electronics, and stages, dunk and scan and environmental cell scanning options, and documentation packages for all AFMWorkshop products. Customers can purchase a standalone AFM stage and customize it to their needs using various scanners and light levers. Environmental cells and dunk and scan packages allow AFM scanning for samples submerged in liquids and inert gas.
This compact, second generation high resolution tabletop Atomic Force Microscope (AFM) has all the important features and benefits expected from a light lever AFM. The TT-2 AFM includes a stage, control electronics, probes, manuals, and a video microscope.
Key Features and Benefits of the TT-2 AFM
Low Noise Floor
With a noise floor <80 picometers, the TT-2 AFM is capable of measuring samples with features from nano-meters to microns.
Direct Drive Tip Approach
A linear motion stage moves the probe relative to the sample. The probe sample angle does not change, and samples of many thicknesses are readily scanned.
Research Grade Video Optical Microscope
With a mechanical 7:1 zoom and a resolution of 2 µm the video optical microscope facilitates locating features, tip approach, and laser alignment.
Multiple Scanners
Linearized piezoelectric scanners with several ranges are available to optimize scanning conditions.
LabView Software
The TT-2 uses industry standard lab view software. For customization, the systems VI’s are readily available.
Modular Design
Once you buy the TT-2 AFM you can add options and modes such as focus assist, image logger, lithography and liquid scanning when you are ready.
Simple Probe Exchange
With the removable probe holder, exchanging probes is simple, and takes less than a minute.
Light Lever Large Adjustment Range
Because the TT-2 has a large adjustment range on the laser and photodetector, probes from all major manufacturers can be used.
Applications
Research
With over 200 TT-2 AFMs in laboratories throughout the world, researchers have published 100s of publications in all types of science and engineering journals.
Instrument Innovators
The TT-2 AFM serves as an ideal platform for creating new and innovative instruments. AFMWorkshop facilitates instrument innovation with an open architecture.
Education
With its open design the TT-2 is ideal for colleges and universities that teach students about AFM design, applications, and operation.
The TT-2 AFM meets a wide variety of applications. More details on the use of the TT-2 AFM for educators, industry, and research can be found by clicking on www.afmworkshop.com or call at (888)671-5539 any queries.
The B-AFM is a complete system that includes a computer with software, a stage, and control electronics; everything needed for AFM scanning. The electronics are located at the rear of the B-AFM stage, and only a single USB cable is connected between the computer and the stage. For scientists and engineers with bigger ideas than budgets.
Key Features and Benefits of the B-AFM
7-Step Scanning Software The B-AFM 7-Step Scanning Software is designed for casual AFM users that want to obtain AFM images without in depth AFM expertise. A user-friendly design makes the B-AFM ideal for teaching students the basics of AFM theory and operation.
Intuitive Light Lever Design A unique design of the light lever makes aligning the system a routine procedure for users with limited experience. A removable probe holder makes changing probes quick and easy.
Linearized X, Y, and Z Scanners Piezoelectric X, Y (50 µm) and Z (17 µm) scanners incorporate strain gauges that provide linear scans and rapid zoom-to-feature capabilities.
Standard AFM Scanning Modes Scanning modes for the B-AFM include vibrating (tapping), non-vibrating (contact), phase, and LFM (Force/Distance). These modes will allow users to scan the most common types of samples.
Acoustic Enclosure The B-AFM is encased in an acoustic cabinet made from ¾” MDF and acoustic foam, creating a vibration isolation environment that will provide high-quality scans on almost any lab bench. B-AFM’s Applications
Education The B-AFM is ideal for educating students on the theory, operation and applications of an atomic force microscope. One of the advantages of the B-AFM for education is the open design of the light lever force sensor.
Routine Scanning Routine scanning of samples that are not challenging to scan is a common application for the B-AFM. If a noise floor below 300pM is required, we suggest purchasing the AFMControl software and a vibration table.
If our AFMs can’t run your application, we will refund the full purchase price. Additionally, our AFMs are now backed by a two-year, return-to-factory warranty.
Contact us to take advantage of this offer (888)671-5539 or visit www.afmworkshop.com to learn more about Basic Atomic Force Microscope.
One of our most popular instruments used in university settings is the TT-AFM. Because the TT-AFM is similar to 99% of the Atomic Force Microscopes used in research labs throughout the world, students can use skills developed on the TT-AFM to operate AFMs with more complex instrumentation.
On a TT-AFM, students learn how to operate all of the key modes such as contact, vibrating, lateral force, and phase modes. For example, the TT-AFM and AFMWorkshop was selected as instrument and trainer of choice by Hiroshi Yokoyama, Ph.D., director of Kent State University’s Glenn H. Brown Liquid Crystal Institute.
AFMWorkshop can work with your institution to create your own optimal training program.
AFM Training Programs
TT-2 Assembly Workshop
The ultimate in comprehensive knowledge of Atomic Force Microscope design and function can be gained through AFMWorkshop’s TT-AFM Assembly Workshop. Participants build their own AFM and participate in numerous workshops on AFM theory, operation, and applications. Attendees learn the components of an Atomic Force Microscope, how an AFM operates, key AFM design points, light lever design, scanner design/construction, and how to maximize image signal-to-noise ratio.
AFM Applications Workshop
AFMWorkshop’s five-day AFM Applications Workshop provides access to an AFM for each attendee for extensive hands-on labs. Participants spend time in group lectures on the theory of Atomic Force Microscopy, and put theory into practice by preparing and measuring images for a wide variety of metallurgic and life sciences samples. Participants have time for expert guidance in troubleshooting their particular applications.
For more information on creating a tailored workshop to meet your students’ needs, please contact AFMWorkshop.
Free Atomic Force Microscopy Webinars
AFMWorkshop provides a series of free live-streaming seminars for educators and professionals. Key skills to help all AFM users’ gain the most from their AFM are covered, including effective utilization of image processing software, techniques for successful sample preparation, detecting artifacts, and selecting the right probes. To view pre-recorded webinars, visit the AFMWorkshop Webinar Page.
Animated AFM Tutorials
Learning how an atomic force microscope works is an essential part of proper AFM training. AFMWorkshop provides a series of animations that illuminate key operating principles and efficiently introduce new users to Atomic Force Microscopes.
While minimal training is needed to measure basic AFM images, gaining optimal performance requires greater insight into the operating principles and design of atomic force microscopes. This depth of understanding is especially necessary when users need to measure high-quality images with only a few angstroms of resolution.
Concepts essential to understanding how to optimize AFM performance, such as the design of piezoelectric scanners, light lever design, probe sample interactions, and feedback control can be readily understood by the AFM user and are clearly illustrated in the AFMWorkshop Animated.
AFM Tutorials
Our tutorials act as a starting point for anyone interested in learning about the theory and operation of atomic force microscopes. For example, in the section of animations describing the “Design of the Light Lever AFM,” we:
First show that a photodetector can convert photons to electrical energy;
Then demonstrate how 2 photodetectors are used to create a position-sensitive detector;
Finally show how the motion of a cantilever is measured with a light lever.
Researchers, educators, and students around the globe have voiced their appreciation for the unique and immediately useful knowledge communicated through the AFMWorkshop animated tutorials.
Atomic Force Microscopy Textbook
The book Atomic Force Microscopy, written by Dr. Peter Eaton and Paul West and published by Oxford University Press, is available from Amazon.com, or Oxford University Press. Atomic Force Microscopy has become the leading text for AFM education and is a great resource for both professionals and students.
Presentations
AFMWorkshop customers have access to a complete library of PowerPoint® presentations, including over 500 slides on subjects ranging from AFM image analysis, instrument design, quantitative AFM measurements, and Atomic Force Microscope image artefacts. These presentations may be used for teaching courses to undergraduate and graduate students. Additionally, a trained instructor from the AFMWorkshop is available to lead a three day course derived from these PowerPoint® presentations.
Training for AFM Success
Pick up any scientific journal or click through a website and you’ll see beautiful images produced by scientists and engineers on atomic force microscopes. What’s not so easy to see is the amount of time and effort that went into producing these amazing images.
Training, education, and time on the instrument are the keys to successful AFM imaging. Although basic operation of the instrument is straightforward, acquiring beautiful nano-scale images like those seen in scientific publications requires theoretical knowledge as well as actual practice time on the instrument.
AFMWorkshop is committed to helping our customers develop the strong AFM skill sets necessary to produce world-class AFM images.
To learn more about uses of Atomic Force Microscopyfor Education, feel free to visit www.afmworkshop.com.
AFM Workshop 