Nanoscope 7

Manufactured by Bruker

The Nanoscope 7.30 is a scanning probe microscope system developed by Bruker. It is designed to provide high-resolution imaging and analysis of surface topography and other properties at the nanoscale level. The system utilizes advanced scanning probe techniques to capture detailed information about the sample surface.

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Lab products found in correlation

Nanoscope 5, by Bruker (2 mentions) Cary 630, by Agilent Technologies (1 mentions) Nanoscope analysis 1, by Bruker (1 mentions) Arrow ncr, by NanoWorld (1 mentions) Miracle atr, by PIKE Technologies (1 mentions)

2 protocols using nanoscope 7

Structural Characterization of Substrates

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ATR-FTIR spectra were obtained in an Agilent Cary 630 spectrometer equipped with an attenuated total reflection Diamond ATR, each spectrum was the result of 256 scans taken with a resolution of 2 cm⁻¹.
Tapping® mode AFM (NanoscopeV; Bruker, Santa Barbara, CA) in topographic mode was used to characterize the substrates, using silicon tips (ArrowTM NCR; NanoWorld, Neuchâtel, Switzerland) (spring constant, 42 N/m; resonance frequency, 285 kHz). Nanoscope 7.30 and Nanoscope Analysis 1.5 softwares were employed to obtain the images (Bruker).

Bertuola M., Fagali N, & Fernández Lorenzo de Mele M. (2020). Detection of carvacrol in essential oils by electrochemical polymerization. Heliyon, 6(4), e03714.

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ATR-FTIR and Tapping Mode AFM Analysis

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ATR-FTIR spectra were obtained in a Varian 660 spectrometer equipped with an attenuated total reflection (ATR) accessory (MIRacle ATR, Pike technologies) with a ZnSe prism. In all cases, each spectrum was the result of 256 scans taken with a resolution of 2 cm -1 .
Tapping ® mode AFM (Nanoscope V; Bruker, Santa Barbara, CA) in topographic mode was used to characterize the substrates, using silicon tips (Arrow™ NCR; NanoWorld, Neuchâtel, Switzerland) (spring constant, 42 N/m; resonance frequency, 285 kHz). Nanoscope 7.30 and Nanoscope Analyis 1.5 softwares were employed to obtain the images (Bruker).

Bertuola M., Grillo C.A., Pissinis D.E., Prieto E.D, & Fernández Lorenzo de Mele M. (2017). Is the biocompatibility of copper with polymerized natural coating dependent on the potential selected for the electropolymerization process?. Colloids and surfaces. B, Biointerfaces, 159.

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