NanoWizard PURE
NanoWizard® PURE
The NanoWizard PURE atomic force microscope combines functionality and performance in a high-value instrument. Based on the renowned NanoWizard technology platform, it delivers high-resolution imaging and nanomechanical analysis capabilities that can be seamlessly combined with advanced optical microscopy techniques.
Performance in its Essence
Renowned quality
NanoWizard PURE delivers state-of-the-art functionality:
- Unique 3D tip-scanning with capacitive sensor technology
- PeakForce Tapping and QI modes for high-resolution imaging and advanced force control on delicate samples
- Intuitive operation and automated routines, analysis, and data processing capabilities provided by latest V8 software environment
Unrivalled excellence in its class
Equipped with innovative hardware and software features, the NanoWizard PURE is ideal for laboratories wishing to expand their research capabilities with cutting-edge correlated microscopy techniques, whether for experienced users or those new to AFM.
The unparalleled modularity of the NanoWizard platform provides outstanding versatility. Its easy handling and user-friendliness make it deal for multi-user imaging facilities.
- Discover attractive default configurations for biological and standard applications that offer best value solutions and capabilities
- Keep apace of technological advances with new modules and features that match your research requirements
- Upgrade paths to Bruker BioAFM premium NanoWizard product lines
Superior flexibility
NanoWizard PURE provides innovative research capabilities across a range of scientific fields, from the investigation of highly delicate biological samples, living cells, single molecules, and tissues, to the quantification of nanomechanical properties and study of polymers, soft matter, and advanced materials.
DNA nanostructures imaged with PeakForce Tapping in buffer using Bruker PEAKFORCEHIRS-F-B probe.
Scan size: 300nm × 300nm; Height range: 2nm.
Scan size: 650nm × 240nm; Height range: 10nm.
"NanoWizard PURE is a powerful system that can be seamlessly integrated with optical techniques. Its versatility makes it ideal for the routine and advanced nanomechanical analysis of samples as diverse as hydrogels, soft tissues, bone, and exoskeletons in our laboratory. It is a robust solution that provides reliable results and advances our understanding of mechanobiology in biological matter."
Asst. Prof. Meisam Asgari, University of South Florida, Tampa, USA
Outstanding Versatility and Range of Accessories
Maximum functionality
An extensive choice of modes, add-ons, and accessories provide additional capabilities over a wide variety of applications. NanoWizard PURE can be seamlessly combined with advanced optical techniques, such as confocal and super-resolution microcopy, and structured illumination techniques (SIM) for precise correlated measurements and enhanced analysis capabilities.
Explore a broad spectrum of features and options, such as:
- Extensive optical integration options, e.g., DirectOverlay 2, DirectTiling, and accessories for operation on inverted optical microscopes
- PeakForce QNM and QI advanced options for quantitative nanomechanical analysis
- Force spectroscopy ramp designer
- ExperimentPlanner
- Nanolithography and Nanomanipulation
- MFM, EFM
- Latest ease-of-use features
Enhanced adaptability
NanoWizard PURE can be customized to meet the specific demands of individual users, samples, and applications. It is ideal for interdisciplinary research facilities and collaborative scientific environments. Extend your research capabilities with options, such as:
- Kelvin Probe Microscopy
- Conductive AFM
- Piezoresponse Force Microscopy
- Cytosurge FluidFM® technology
- Contact Resonance AFM
- Scanning Tunneling Microscopy
- Scanning Thermal AFM
- Electrochemistry and SECM with temperature control and full optical access
- Micropipette capabilities
Piezoresponse Force Microscopy (PFM) of a ferroelectric polymer thin film (P(VDF-TrFE)) on a gold back electrode on silicon. A sequence of voltage pulses was generated from a bitmap template (black = +20V, white = 0V) to write the logo into the piezoelectric polarization of the sample. Scan size: 45μm × 10μm. Vertical PFM-amplitude range: 150pm.
Selected Publications Using NanoWizard PURE Predecessor Systems:
- Nasra, S. et al., Targeted Macrophage Re‐Programming: Synergistic Therapy With Methotrexate and RELA siRNA Folate‐Liposome in RAW264.7 Cells and Arthritic Rats. Adv Healthcare Materials 2400679 (2024).
- Wu, M. et al., Sustainable Microalgae Extraction for Proactive Water Bloom Prevention. Nat Water 2 (2), 172–182 (2024).
- Muralidharan, V. et al., Preparation and Evaluation of Novel Biodegradable Kombucha Cellulose-Based Multi-Layered Composite Tableware. Industrial Crops and Products 215, 118629 (2024).
- Barot, R. B. et al., Nanoparticles Derived from Bougainvillea Modulate Vegetative Growth via Auxin–Cytokinin Signaling in Arabidopsis. Chem. Pap. 2024.
- Zhang, E. et al., Mechanism Analysis of Lignin’s Effect on Asphalt’s Resistance to Moisture Damage. Journal of Cleaner Production, 434, 139425 (2024).
- Louros, N. et al, Local Structural Preferences in Shaping Tau Amyloid Polymorphism. Nat Commun 15 (1), 1028 (2024).
- Bhadane, P. et al., Hydrolytically Stable Nanosheets of Cu-Imidazolate MOF for Selective Trapping and Simultaneous Removal of Multiple Heavy Metal Ions. Environ. Sci.: Nano 10.1039.D3EN00754E (2024).
- Han, M. et al., Calcium Ions Have a Detrimental Impact on the Boundary Lubrication Property of Hyaluronic Acid and Lubricin (PRG-4) Both Alone and in Combination. Colloids and Surfaces B: Biointerfaces 234, 113741 (2024).
- Nasra, S. et al., Bortezomib-Loaded Immunoliposomes against CD44 Expressing Macrophages: An Interplay for Inflammation Resolution. Nanoscale 16 (10) (2024).
- Desroches, P. E. et al., Biphasic Nanocomposite Films of Polypyrrole and Poly(3,4-Ethylene Dioxythiophene) Using a Surface-Tethered Dopant Strategy. Electrochimica Acta 489, 144227 ( 2024).
- Abid, K. et al, A Study of Screen-Printed Electrodes Modified with MoSe2 and AuNPs-MoSe2 Nanosheets for Dopamine Sensing. Electrochimica Acta 475, 143371 (2024).
- Singh, S. et al., Synergistic Effect of Yb 3+ , Tm 3+ , Nd 3+ Doped NaYF 4 Nanoparticles and MoS 2 Nanosheets for Enhanced Photocatalytic Dye Degradation under Visible Light. ACS Appl. Nano Mater. 6 (12), 10441–10452 (2023).
- Kang, M. et al., Surface and Conductivity Characterization of Layered Organic Ionic Plastic Crystal (OIPC)-Polymer Films. ACS Appl. Mater. Interfaces 15 (49), 57750–57759 (2023).
- Newman, P. L. H. et al., Programming of Multicellular Patterning with Mechano‐Chemically Microstructured Cell Niches. Advanced Science 10 (15), 2204741 (2023).
- Zhang, C. et al., Mechanistic Formulation of Inorganic Membranes at the Air–Liquid Interface. Nature 616 (7956), 293–299 (2023).
The Widest Range of Accessories in the Market
Optical systems/accessories, electrochemistry solutions, electrical sample characterization, environmental control options, software modules, temperature control, acoustic and vibration isolation solutions and more. Bruker provides you with the right accessories to control your sample conditions and to perform successful experiments.
观看近期的BioAFM网络研讨会
我们的网络研讨会涵盖了最佳的操作方法,介绍新的产品,为棘手的问题提供快速解决方案,并为新的应用、模式或技术提供思路。