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biosphere: Now available with 5 micron radius
Posted 22-02-27 07:55
Green Line product update:biosphere™: new 5 µm sphere radius on your preferred cantilever upon request
- Controlled tip radius: precisely fabricated spherical tips available with 12 different radii from 20 nm - 2 µm + now also with 5 µm.
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Pre-calibrated cantilevers: individually pre-calibrated cantilever spring constant using Laser Doppler Vibrometer.
Standard with 40, 2.8, and 0.2 N/m (other k available) - Diamond-like hardness and durability: HDC/DLC sphere hardness (Young’s Modulus ≥ 800 GPa) for repeatable and long-lasting deformation measurements and nanomechanical studies.
- Chemical resistant and hydrophobic
- Au reflex coating: other coatings available.
- Provided with TrueDimensions™: 24/7 online availability of sphere radius, cantilever k and f for each individual probe.
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nanotools AFM probes available on NanoAndMore webstore
Posted 22-02-25 18:11
Product update:
nanotools products like biotool, NanoIndentation, HighAspectRatio, SuperSharp and other AFM probes available on NanoAndMore webstore
Discover more than 45 nanotools high quality AFM probes through www.nanoandmore.com and www.nanoandmore.jp for a hugh variety of AFM tip solutions:
- NanoAndMore Europe/USA/SE Asia: www.nanoandmore.com
- NanoAndMore Japan: www.nanoandmore.jp
- biotool: biotool cell, biotool high resolution, biotool cell XXL
- NanoIndentation: biosphere B20-B2000
- HighAspectRatio: AR15T, AR20T, EBD-HAR, M1-HAR, M-CIS
- SuperSharp: SuperSharp Standard, SuperSharp Enhanced
- Universal: EBD universal
© 2022 NanoAndMore. All rights reserved.
Studying Morphology, Actin Distribution and Stiffness Changes of Live Mature Epithelial Cells
Posted 22-01-28 07:12
Publication update:
nanotools biotool cell XXL featured in research article
Discover how nanotools 15 µm long, conical biotool cell XXL with 25 nm radius was applied for topographical imaging of live human cells.
- Title: Human mammary epithelial cells in a mature, stratified epithelial layer flatten and stiffen compared to single and confluent cells
DOI: 10.1016/j.bbagen.2021.129891 - Authors: Hyunsu Lee, Keith Bonin, Martin Guthold
- Publication: Biochimica et Biophysica Acta (BBA)
- Publisher: Elsevier
- Date: June 2021
© 2021 Elsevier B.V. All rights reserved.
QUANTUM-AC10: Extremely Low Wear for Super-Fast AFM's
Posted 21-11-30 07:05
Green Line product highlight:QUANTUM-AC10: Sturdy Carbon Tip for High Speed, Fast Scanning and
Video-Rate Applications
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Consistent Sharpness
Tip radius 6-7 nm guaranteed. For reliable scanning performance and unmatched tip to tip repeatability - Controlled orientation
Tilt compensation within ±1° ensuring tip-sample perpendicularity for your specific AFM model - Scan location finder aid
Tip position mark on cantilever backside - Consistent Tuning
1.2 MHz rectangular quartz cantilevers (> 1.1 MHz guaranteed) - Diamond-like hardness and durability
Exceptional wear resistance guarantees negligible tip shape changes during high-speed scanning for consistent performance
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MCNT-300: 18nm cylindrical tip for durable and consistent bottom access of finest features
Posted 21-10-30 09:04
Blue Line product highlight:MCNT-300™: Amorphous CNT solution for demanding depth metrology applications
- Controlled shape:
Precisely controlled length of 300 nm and uniform width of 18 nm - Controlled orientation: 3° or 12°
Tilt compensation within ±0.5° for enhanced access capabilities to bottom trench features - Optimized cantilevers:
Standard with k: 40 N/m, f: 320 KHz
Softer cantilevers for force-controlling scanning modes available upon request - Diamond-like hardness and durability:
Exceptional wear resistance of diamond-like carbon for consistent
performance and reduced cost per measurement - Delivered with TrueDimensions™:
Datasheet for every single probe available online 24/7 via QR code
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German National Metrology Institute (PTB) Scientists Present Nanomechanical Head with Exchangeable AFM Probes As Indenter
Posted 21-09-28 19:16
Publication update:
nanotools biosphere™ probes featured in research article
Discover how nanotools biosphere™ with precisely controlled 2 µm radius is applied to measure the mechanical properties of ultra-soft PDMS samples.
- Title: A MEMS nanoindenter with an integrated AFM cantilever gripper for nanomechanical characterization of compliant materials
DOI: 10.1088/1361-6528/ab88ed - Authors: Z Li, S Gao, U Brand, K Hiller and H Wolff
- Publication: Nanotechnology
- Publisher: IOP Publishing
- Date: 11 May 2020
Distributed under Creative Commons Attribution 4.0 International License.
Copyright © 2020 The Author(s).
BOSCH and KIT Researchers Explore Tip Wear and Tip Shape Impact on Measurement Uncertainty During Thermal Grooving AFM Study
Posted 21-08-24 03:29
Publication update:
nanotools SuperSharpStandard-NCHR probes featured in research article
Discover how nanotools SuperSharpStandard-NCHR with 2-3 nm radius was applied to accurately measure nickel grain boundary grooves of solid oxide fuel cell (SOFC) anodes.
- Title: A thermal grooving study of relative grain boundary energies of nickel in polycrystalline Ni and in a Ni/YSZ anode measured by atomic force microscopy
DOI: 10.1016/j.actamat.2021.116936 - Authors: Patricia Haremski, Lars Epple, Matthias Wieler, Piero Lupetin, Richard Thelen, Michael J. Hoffmann
- Publication: Acta Materialia
- Publisher: Elsevier
- Date: 1 August 2021
© 2021 The Authors. Published by Elsevier Ltd on behalf of Acta Materialia Inc.
Beetles Elytra, a model structure for next-generation bioinspired synthetic materials
Posted 21-07-29 23:51
Publication update:
nanotools biotool hi-res, SSS-FMR and biosphere™ featured in research article
Discover how nanotools biotool hi-res, SSS-FMR with 2-3 nm radius and biosphere™ with 50 nm radius are applied for imaging and indentation measurements.
- Title: A matter of size? Material, structural and mechanical strategies for size adaptation in the elytra of Cetoniinae beetles
DOI: 10.1016/j.actbio.2020.12.039 - Authors: Meisam Asgari, Nicolas A. Alderete, Zhaowen Lin, Ryan Benavides, Horacio D. Espinosa
- Publication: Acta Biomaterialia
- Publisher: Elsevier
- Date: 1 March 2021
© 2020 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.
EBD-16: Semi Fab proven solution for extreme deep trench metrology
Posted 21-06-30 07:09
Blue Line product highlight:EBD-16™: World's longest high-performance AFM tip.
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Optimized conical shape for enhanced stability
Precisely controlled DLC spike length > 16 µm (Total tip length > 26 µm) -
Controlled orientation: 12°, 13° or 3°
Tilt compensation for enhanced access to bottom trench features -
Diamond-like hardness and durability
Unmatched wear resistance for consistent depth data, enhanced throughput, and reduced cost per measurement -
Optimized cantilevers
Standard with k: 40 N/m, f: 320 kHz. Softer cantilevers available. - Delivered with TrueDimensions™
Datasheet for every single probe available online 24/7 via QR code
Flat Tip Effectively Avoids Tip-derived Youngs Modulus Errors Introduced by Conventional Tips
Posted 21-05-31 23:14
Publication update:
nanotools custom-made Flat Tip featured in research article
Discover how nanotools Flat Tip with precisely controlled indentation area is applied to effectively measure Young's modulus of a whole yeast cell.
- Title: Evaluating Young's Modulus of Single Yeast Cells Based on Compression Using an Atomic Force Microscope with a Flat Tip
DOI: 10.1017/S1431927620024903 - Authors: Di Chang, Takahiro Hirate, Chihiro Uehara, Hisataka Maruyama, Nobuyuki Uozumi, Fumihito Arai
- Publication: Microscopy and Microanalysis
- Publisher: Cambridge University Press
- Date: Jan 15, 2021
Copyright © The Author(s), 2021. Published by Cambridge University Press
