Type: PNP-TR-TL-Au

Pyrex-Nitride AFM Probe – TRiangular AFM Cantilevers - TipLess – Gold Coating (Au)

Logo
Cantilever Data* Cant. 1 Cant. 2
Shape Triangle
Resonance Frequency 67 kHz 17 kHz
Force Constant 0.32 N/m 0.08 N/m
Length 100 µm 200 µm
Mean Width 13.5 µm 28 µm
Thickness 500 nm 500 nm

*Typical values

How to optimize AFM scan parameters
Pyrex-Nitride Triangular Tipless Cantilever

Pyrex-Nitride Triangular Tipless Cantilever More images

Product Description

Leading edge in sharpness and durability

NanoWorld® Pyrex-Nitrid AFM probes are designed for various imaging applications in contact or dynamic mode. Tipless AFM cantilevers are often used for applications that require functionalization of the AFM cantilever surface or attaching objects (like spheres or particles) to the end of the AFM cantilever. These and various other applications are especially interesting for the fields of life science and biology.

The Pyrex-Nitrid AFM probes have silicon nitride AFM cantilevers with very low force constants. The AFM probe series features a support chip that is made of Pyrex. The TR series features two different triangular AFM cantilevers.

All chips are pre-separated prior to shipment and come in Gel-Pak containers.

Tip shape: Tipless

Coating: Gold Overall

Gold Coating / Gold Reflex Coating

The gold coating consists of a 35 nm thick gold layer deposited on the front side of the AFM cantilevers.

The gold reflex coating deposited on the detector side of the AFM cantilevers enhances the reflectance of the laser beam. As the coating is almost stress-free the bending of the AFM cantilevers due to stress is less than 2 degrees.

Order Codes

Order Code Quantity Data Sheet
PNP-TR-TL-Au-20 20 yes
PNP-TR-TL-Au-50 50 yes

NanoWorld® Pyrex-Nitride AFM Probes (PNP) Screencast

Subscribe to NanoWorld® Youtube Channel

Guaranteed values

Bruker® is a trademark of Bruker Corporation

Scientific publications mentioning use of this AFM probe


Laura Martínez-Vidal, Valentina Magno, Petra B. Welzel, Jens Friedrichs, Martin Bornhäuser and Carsten Werner
Combining Cryogel Architecture and Macromolecular Crowding-Enhanced Extracellular Matrix Cues to Mimic the Bone Marrow Niche
Macromolecular Chemistry and Physics, Volume 224, Issue 1, Special Issue: In Celebration of Brigitte Voit's 60th Birthday, January 2023, 2200348
DOI: https://doi.org/10.1002/macp.202200348


Quan Yang
Determination of Hamaker constant for CNT and AFM probe configuration inside SEM
Micro & Nano Letters, Volume 15, Issue 13, November 2020, Pages 883-886
DOI: https://doi.org/10.1049/mnl.2020.0108


William W. Dickinson, S.S. Jyothirmayee Aravind, Steven R. Higgins , Steffen Berg,
Bart M.J.M. Suijkerbuijk and Hannes C. Schniepp
Using atomic force spectroscopy to study oil/mineral interactions at reservoir temperatures and pressures
Fuel, Volume 259, 1 January 2020, 116194
DOI: https://doi.org/10.1016/j.fuel.2019.116194


Siyoung Choi, Jens Friedrichs, Young Hye Song, Carsten Werner, Lara Estroff and Claudia Fischbach
Intrafibrillar, bone-mimetic collagen mineralization regulates breast cancer cell adhesion and migration
Biomaterials. 2019 Apr; 198: 95–106
DOI: https://doi.org/10.1016/j.biomaterials.2018.05.002


Poh Soo Lee, Ricarda Hess, Jens Friedrichs, Vanessa Haenchen, Hagen Eckert, Gianaurelio Cuniberti, Derrick Rancourt, Roman Krawetz, Vera Hintze, Michael Gelinsky and Dieter Scharnweber
Recapitulating bone development events in a customised bioreactor through interplay of oxygen tension, medium pH, and systematic differentiation approaches
Journal of Tissue Engineering and Regenerative Medicine, Volume 13, Issue 9, September 2019, Pages 1672-1684
DOI: https://doi.org/10.1002/term.2921


Ralf Zimmermann, Christoph Hentschel, Felix Schrön, Denise Moedder, Teresa Büttner, Passant Atallah, Thomas Wegener, Thomas Gehring, Steffen Howitz, Uwe Freudenberg and Carsten Werner
High resolution bioprinting of multi-component hydrogels
Biofabrication (2019) 11 045008
DOI: 10.1088/1758-5090/ab2aa1


Chaoyu Huang, Yuhui Li and Hao Wang
The observation of high hypotonicity manipulating cell division
Heliyon, Volume 5, Issue 8, August 2019, e02095
DOI: https://doi.org/10.1016/j.heliyon.2019.e02095


Michael A. Davis, Marian R. Fairgrieve, Andreas Den Hartigh, Olga Yakovenko, Bhargavi Duvvuri, Christian Lood, Wendy E. Thomas, Susan L. Fink and Michael Gale Jr
Calpain drives pyroptotic vimentin cleavage, intermediate filament loss, and cell rupture that mediates immunostimulation
PNAS (2019), 116 (11) 5061-50
DOI: https://doi.org/10.1073/pnas.1818598116


Jana Sievers, Stefan Zschoche, Ron Dockhorn, Jens Friedrichs, Carsten Werner and Uwe Freudenberg
Temperature-Induced Mechanomodulation of Interpenetrating Networks of Star Poly(ethylene glycol)–Heparin and Poly(N-isopropylacrylamide)
ACS Applied Materials & Interfaces 2019, 11, 45, 41862–41874
DOI: https://doi.org/10.1021/acsami.9b11719


Xian Li, Tengfei Zhang and Shugang Wang
Measuring detachment of Aspergillus niger spores from colonies with an atomic force microscope
Indoor Air, Volume 28, Issue 5, September 2018, Pages 744-753
DOI: https://doi.org/10.1111/ina.12486


Dawei Ding, Binu Kundukad, Ambika Somasundar, Sindhu Vijayan, Saif A. Khan and Patrick S. Doyle
Design of Mucoadhesive PLGA Microparticles for Ocular Drug Delivery
ACS Applied Bio Materials 2018, 1, 561−571
DOI: https://doi.org/10.1021/acsabm.8b00041


Christos Papadimitriou, Hilal Celikkaya, Mehmet I. Cosacak, Violeta Mashkaryan, Laura Bray, Prabesh Bhattarai, Kerstin Brandt, Heike Hollak, Xin Chen, Shuijin He, Shuijin He, Christopher L. Antos, Weilin Lin, Alvin Kuriakose Thomas, Andreas Dahl, Thomas Kurth, Jens Friedrichs, Yixin Zhang, Uwe Freudenberg, Carsten Werner and Caghan Kizil
3D Culture Method for Alzheimer's Disease Modeling Reveals Interleukin-4 Rescues Aβ42-Induced Loss of Human Neural Stem Cell Plasticity
Developmental Cell, Volume 46, Issue 1, 2 July 2018, Pages 85-101.e8
DOI: https://doi.org/10.1016/j.devcel.2018.06.005


Katherine R. Long, Ben Newland, Marta Florio, Nereo Kalebic, Barbara Langen, Anna Kolterer, Pauline Wimberger and Wieland B. Huttner
Extracellular Matrix Components HAPLN1, Lumican, and Collagen I Cause Hyaluronic Acid-Dependent Folding of the Developing Human Neocortex
Neuron, Volume 99, Issue 4, 22 August 2018, Pages 702-719.e6
DOI: https://doi.org/10.1016/j.neuron.2018.07.013

Print

For more information contact: info@nanoworld.com

Pointprobe® is a registered trademark of NanoWorld AG

All data are subject to change without notice.

NanoWorld AG
Rue des Saars 10
CH-2000 Neuchâtel,
Switzerland
www.nanoworld.com

For detailed information about our AFM probe product series please see below:

POINTPROBE® POINTPROBE®
ARROW™™ ARROW™
ULTRA-SHORT CANTILEVERS ULTRA-SHORT CANTILEVERS
PYREX-NITRIDE PYREX-NITRIDE
COATINGS COATINGS
Videos Brochure Downloads How to optimize AFM scan parameters