Park NX7 - Atomic Force Microscope

Overview

The most affordable research grade AFM with flexible sample handling

Park NX7 has all the state-of-the-art technology you have come to expect from Park Systems, at a price your lab can afford. Designed with the same attention to detail as our more advanced models, NX7 allows you to do your research on time and within budget.

Accurate XY Scan by Crosstalk Elimination

• Two independent, closed-loop XY and Z flexure scanners
• Flat and orthogonal XY scan with low residual bow
• Accurate height measurements without any need for software processing

The Most Extensible AFM Solution

• The most comprehensive range of SPM modes
• Advanced nanomechanical measurement modes are supported as default enabled by NX electronic controller
• The best option compatibility and upgradeability in the industry

User Experience-Driven Software and Hardware Features

• Open side access for easy sample or tip exchange
• Easy, intuitive laser alignment with pre-aligned tip mount
• Park SmartScan^TM - AFM operating software versatile enough to empower both novices and power users alike toward great nanoscale research

Technical Info

Flat Orthogonal XY Scanning without Scanner Bow

Park's Crosstalk Elimination scanner structure removes scanner bow, allowing flat orthogonal XY scanning regardless of scan location, scan rate, and scan size. It shows no background curvature even on flattest samples, such as an optical flat, and with various scan offsets. This provides you with a very accurate height measurement and precision nanometrology for the most challenging problems in research and engineering.

Decoupled XY and Z Scanners

The fundamental difference between Park and its closest competitor is in the scanner architecture. Park’s unique flexure based independent XY scanner and Z scanner design allows unmatched data accuracy in nano resolution further improved with NX AFM Head (Z scanner) powered by NX AFM electronic controller.

Industry Leading Low Noise Z Detector

Park AFMs are equipped with the most effective low noise Z detectors in the field, with a noise of 0.02 nm over large bandwidth. This produces highly accurate sample topography and no edge overshoot. Just one of the many ways Park NX series saves you time and gives you better data.

Accurate Sample Topography Measured by Low Noise Z Detector

• Uses low noise Z detector signal for topography
• NX electronic controller provides low Z detector noise of 0.02 nm over large bandwidth
• Has no edge overshoot at the leading and trailing edges
• Needs calibration done only once at the factory

Sample: 1.2 μm Nominal Step Height (9 μm x 1 μm, 2048 pixels x 128 lines)

Better tip life, sample preservation, and accuracy with True Non-Contact™ Mode

True Non-Contact™ Mode is a scan mode unique to Park AFM systems that produces high resolution and accurate data by preventing destructive tip-sample interaction during a scan.

Unlike in contact mode, where the tip contacts the sample continuously during a scan, or in tapping mode, where the tip touches the sample periodically, a tip used in non-contact mode does not touch the sample. Because of this, use of non-contact mode has several key advantages. Scanning at the highest resolution throughout imaging is now possible as the tip’s sharpness is maintained. Non-contact mode avoids damaging soft samples as the tip and sample surface avoid direct contact.

Accurate Feedback by Faster Z-servo enables True Non-Contact AFM

• Less tip wear → Prolonged high-resolution scan
• Non-destructive tip-sample interaction → Minimized sample modification
• Maintains non-contact scan over a wide range of samples and conditions

Furthermore, non-contact mode senses tip-sample interactions occurring all around the tip. Forces occurring laterally to tip approach to the sample are detected. Therefore, tips used in non-contact mode can avoid crashing into tall structures that may suddenly appear on a sample surface. Contact and tapping modes only detect the force coming from below the tip and are vulnerable to such crashes.

AFM Modes

The Most Extensible AFM Solution

Supports Park’s most extensive range of SPM modes and options in the industry

Today's researchers need to characterize a wide range of physical properties under diverse measurement conditions and sample environments. Park Systems provides the most extensive range of SPM modes, the largest number of AFM options, and the best option compatibility and upgradeability in the industry for advanced sample characterization.

Park NX7 has the most extensive range of SPM modes

Topography Imaging

• Non-Contact
• Contact
• Tapping

Dielectric/Piezoelectric Properties

• Piezoelectric Force Microscopy (PFM)
• PFM with High Voltage
• Piezoresponse Spectroscopy

Magnetic Properties

• Magnetic Force Microscopy (MFM)

Electrical Properties

• Conductive AFM (C-AFM)
• IV Spectroscopy
• Kelvin Probe Force Microscopy (KPFM)
• KPFM with High Voltage
• Scanning Capacitance Microscopy (SCM)
• Scanning Spreading-Resistance Microscopy (SSRM)
• Scanning Tunneling Microscopy (STM)
• Photo Current Mapping (PCM)
• Electrostatic Force Microscopy (EFM)

Mechanical Properties

• Force Modulation Microscopy (FMM)
• Nanoindentation
• Nanolithography
• Nanolithography with High Voltage
• Nanomanipulation
• Lateral Force Microscopy (LFM)
• Force Distance (F/d) Spectroscopy
• Force Volume Imaging

Chemical Properties

• Chemical Force Microscopy with Functionalized Tip
• Electrochemical Microscopy (EC-AFM)

Specifications

Scanner

Z Scanner

flexure guided high-force scanner
Scan range: 15 μm (optional 30 μm)

XY Scanner

single module flexure with closed-loop control
Scan range: 50 µm × 50 µm
(optional 10 μm × 10 μm or 100 μm × 100 μm)

Stage

Z stage range: 26 mm

XY stage range: 13 mm X 13 mm

Sample Mount

Sample size : Up to 50 mm
Thickness: Up to 20 mm

Software

SmartScan^TM

AFM system control and data acquisition software
Auto mode for quick setup and easy imaging
Manual mode for advanced use and finer scan control

SmartAnalysis^TM

AFM data analysis software
Stand-alone design—can install and analyze data away from AFM
Capable of producing 3D renders of acquired data