IMT-Wiki - User contributions [en]

VERTEX 80 (Bruker) FT-IR spectrometer

2018-06-11T12:12:28Z

Roman.Lyubimenko: Roman.Lyubimenko moved page VERTEX 80 (Bruker) FT-IR spectrometer to VERTEX 70 (Bruker) FT-IR spectrometer: Page title mistake

#REDIRECT [[VERTEX 70 (Bruker) FT-IR spectrometer]]

VERTEX 70 (Bruker) FT-IR spectrometer

2018-06-11T12:12:28Z

Roman.Lyubimenko: Roman.Lyubimenko moved page VERTEX 80 (Bruker) FT-IR spectrometer to VERTEX 70 (Bruker) FT-IR spectrometer: Page title mistake

[[File:FTIR Bruker Vertex 70.jpg]]

'''Device name:''' Bruker - FT-IR spektrometer

'''Model:''' Vertex 70

'''Device responsibles:''' [[User:Roman.Lyubimenko|Roman Lyubimenko]], [[User:Deski.Beri|Deski Beri]]

'''Room:''' R203 B301 IMT

'''Wavenumber range:''' 6000 - 80 cm-1

'''Spectral Resolution:''' ≤ 0.4 cm-1(apodized), optional 0.16 cm-1

== Short description ==
The Vertex 70 is a fully digital Fourier-transform(FT-IR) spectrometer for obtaining infrared spectra of solid, liquid and gas samples in absorption or transmission mode.
MIR-FIR spectrum of a metal complex sample measured in one go from 4000 cm-1 to 130 cm-1 using Platinum diamond ATR and purged VERTEX 70 equipped with the standard MIR source, ultra wide range far-mid IR beamsplitter and room temperature DLaTGS detector at 4 cm-1 spectral resolution.

The data acquisition is based on two channel delta-sigma ADCs with 24-bit dynamic range, which are integrated into the detector preamplifier electronics. This advanced DigiTectTM technology prevents external signal disturbance and guarantees the highest signal-to-noise ratio. With its high sensitivity, stability and temporal resolution the device represents the best example of in its field, Bruker Vertex 70 is an ideal instrument for demanding research offering a wide range of applications. Those are some of them:

a. Purity assessment

b. Base polymer composition

c. additive/contaminant identification

It is also a good technique to analyse the unknown material if you need to know its general type.
Platinum-ATR allows the measurements of liquids, powders, thin films. The spectra can be taken as absorbance or transmittance and easily converted one to another within a spectral range of 6,000 cm-1 - 80 cm-1 in a single step measurement.
Additional accessories and their exploitation:

a. Specular reflection measurements under the variable angle 5°-85° with Harrick "Auto-Seagull" module

b. Diffuse reflection measurements with a gold-coated integration sphere

== Important rules ==
The device should always be on. Take notice of three signals on the left side of device cover. They should be green. If at least one is red, you can not start working.

The chamber should be always purged with nitrogen. Before usage, check the nitrogen flow (100-150 ml/min)via rotameter. Otherwise, your measurements will show water/carbon dioxide peaks.

When measuring powder or thin film, one makes sure that diamond crystal is cleaned after you are done with the work. Even if it requires bringing solvent from other lab.

== Technical Documentation ==
[https://www.bruker.com/fileadmin/user_upload/8-PDF-Docs/OpticalSpectrospcopy/FT-IR/VERTEX/Brochures/VERTEX70_Brochure_EN.pdf]

== Eingewiesene Nutzer ==
[[User:Roman.Lyubimenko|Roman Lyubimenko]]

[[User:Deski.Beri|Deski Beri]]

[[Category:Geräte - Devices]]
[[Category:F&E4]]

VERTEX 70 (Bruker) FT-IR spectrometer

2017-08-16T16:24:05Z

Roman.Lyubimenko:

[[File:FTIR Bruker Vertex 70.jpg]]

'''Device name:''' Bruker - FT-IR spektrometer

'''Model:''' Vertex 70

'''Device responsibles:''' [[User:Roman.Lyubimenko|Roman Lyubimenko]], [[User:Deski.Beri|Deski Beri]]

'''Room:''' R203

'''Wavenumber range:''' 6000 - 80 cm-1

'''Spectral Resolution:''' ≤ 0.4 cm-1(apodized), optional 0.16 cm-1

== Short description ==
The Vertex 70 is a fully digital Fourier-transform(FT-IR) spectrometer for obtaining infrared spectra of solid, liquid and gas samples in absorption or transmission mode.
MIR-FIR spectrum of a metal complex sample measured in one go from 4000 cm-1 to 130 cm-1 using Platinum diamond ATR and purged VERTEX 70 equipped with the standard MIR source, ultra wide range far-mid IR beamsplitter and room temperature DLaTGS detector at 4 cm-1 spectral resolution.

The data acquisition is based on two channel delta-sigma ADCs with 24-bit dynamic range, which are integrated into the detector preamplifier electronics. This advanced DigiTectTM technology prevents external signal disturbance and guarantees the highest signal-to-noise ratio. With its high sensitivity, stability and temporal resolution the device represents the best example of in its field, Bruker Vertex 70 is an ideal instrument for demanding research offering a wide range of applications. Those are some of them:

a. Purity assessment

b. Base polymer composition

c. additive/contaminant identification

It is also a good technique to analyse the unknown material if you need to know its general type.
Platinum-ATR allows the measurements of liquids, powders, thin films. The spectra can be taken as absorbance or transmittance and easily converted one to another within a spectral range of 6,000 cm-1 - 80 cm-1 in a single step measurement.
Additional accessories and their exploitation:

a. Specular reflection measurements under the variable angle 5°-85° with Harrick "Auto-Seagull" module

b. Diffuse reflection measurements with a gold-coated integration sphere

== Important rules ==
The device should always be on. Take notice of three signals on the left side of device cover. They should be green. If at least one is red, you can not start working.

The chamber should be always purged with nitrogen. Before usage, check the nitrogen flow (100-150 ml/min)via rotameter. Otherwise, your measurements will show water/carbon dioxide peaks.

When measuring powder or thin film, one makes sure that diamond crystal is cleaned after you are done with the work. Even if it requires bringing solvent from other lab.

== Technical Documentation ==
[https://www.bruker.com/fileadmin/user_upload/8-PDF-Docs/OpticalSpectrospcopy/FT-IR/VERTEX/Brochures/VERTEX70_Brochure_EN.pdf]

== Eingewiesene Nutzer ==
[[User:Roman.Lyubimenko|Roman Lyubimenko]]

[[User:Deski.Beri|Deski Beri]]

[[Category:Geräte - Devices]]
[[Category:F&E4]]

VERTEX 70 (Bruker) FT-IR spectrometer

2017-08-16T16:23:08Z

Roman.Lyubimenko:

[[File:FTIR Bruker Vertex 70.jpg]]

'''Device name:''' Bruker - FT-IR spektrometer

'''Model:''' Vertex 70

'''Device responsibles:''' [[User:Roman.Lyubimenko|Roman Lyubimenko]], [[User:Deski.Beri|Deski Beri]]

'''Room:''' R203

'''Wavenumber range:''' 6000 - 80 cm-1

'''Spectral Resolution:''' ≤ 0.4 cm-1(apodized), optional 0.16 cm-1

'''Dimensions (W x D x H):''' 1020 mm x 630 mm x 300 mm

== Short description ==
The Vertex 70 is a fully digital Fourier-transform(FT-IR) spectrometer for obtaining infrared spectra of solid, liquid and gas samples in absorption or transmission mode.
MIR-FIR spectrum of a metal complex sample measured in one go from 4000 cm-1 to 130 cm-1 using Platinum diamond ATR and purged VERTEX 70 equipped with the standard MIR source, ultra wide range far-mid IR beamsplitter and room temperature DLaTGS detector at 4 cm-1 spectral resolution.

The data acquisition is based on two channel delta-sigma ADCs with 24-bit dynamic range, which are integrated into the detector preamplifier electronics. This advanced DigiTectTM technology prevents external signal disturbance and guarantees the highest signal-to-noise ratio. With its high sensitivity, stability and temporal resolution the device represents the best example of in its field, Bruker Vertex 70 is an ideal instrument for demanding research offering a wide range of applications. Those are some of them:

a. Purity assessment

b. Base polymer composition

c. additive/contaminant identification

It is also a good technique to analyse the unknown material if you need to know its general type.
Platinum-ATR allows the measurements of liquids, powders, thin films. The spectra can be taken as absorbance or transmittance and easily converted one to another within a spectral range of 6,000 cm-1 - 80 cm-1 in a single step measurement.
Additional accessories and their exploitation:

a. Specular reflection measurements under the variable angle 5°-85° with Harrick "Auto-Seagull" module

b. Diffuse reflection measurements with a gold-coated integration sphere

== Important rules ==
The device should always be on. Take notice of three signals on the left side of device cover. They should be green. If at least one is red, you can not start working.

The chamber should be always purged with nitrogen. Before usage, check the nitrogen flow (100-150 ml/min)via rotameter. Otherwise, your measurements will show water/carbon dioxide peaks.

When measuring powder or thin film, one makes sure that diamond crystal is cleaned after you are done with the work. Even if it requires bringing solvent from other lab.

== Technical Documentation ==
[https://www.bruker.com/fileadmin/user_upload/8-PDF-Docs/OpticalSpectrospcopy/FT-IR/VERTEX/Brochures/VERTEX70_Brochure_EN.pdf]

== Eingewiesene Nutzer ==
[[User:Roman.Lyubimenko|Roman Lyubimenko]]

[[User:Deski.Beri|Deski Beri]]

[[Category:Geräte - Devices]]
[[Category:F&E4]]

VERTEX 70 (Bruker) FT-IR spectrometer

2017-08-16T16:22:29Z

Roman.Lyubimenko:

[[File:FTIR Bruker Vertex 70.jpg]]

'''Device name:''' Bruker - FT-IR spektrometer

'''Model:''' Vertex 70

'''Device responsibles:''' [[User:Roman.Lyubimenko|Roman Lyubimenko]], [[User:Deski.Beri|Deski Beri]]

'''Room:''' R203

'''Wavenumber range:''' 6000 - 80 cm-1

'''Spectral Resolution:''' ≤ 0.4 cm-1(apodized), optional 0.16 cm-1

'''Dimensions (W x D x H):''' 1020 mm x 630 mm x 300 mm

== Short description ==
The Vertex 70 is a fully digital Fourier-transform(FT-IR) spectrometer for obtaining infrared spectra of solid, liquid and gas samples in absorption or transmission mode.
MIR-FIR spectrum of a metal complex sample measured in one go from 4000 cm-1 to 130 cm-1 using Platinum diamond ATR and purged VERTEX 70 equipped with the standard MIR source, ultra wide range far-mid IR beamsplitter and room temperature DLaTGS detector at 4 cm-1 spectral resolution.

The data acquisition is based on two channel delta-sigma ADCs with 24-bit dynamic range, which are integrated into the detector preamplifier electronics. This advanced DigiTectTM technology prevents external signal disturbance and guarantees the highest signal-to-noise ratio. With its high sensitivity, stability and temporal resolution the device represents the best example of in its field, Bruker Vertex 70 is an ideal instrument for demanding research offering a wide range of applications. Those are some of them:
a. Purity assessment
b. Base polymer composition
c. additive/contaminant identification

It is also a good technique to analyse the unknown material if you need to know its general type.
Platinum-ATR allows the measurements of liquids, powders, thin films. The spectra can be taken as absorbance or transmittance and easily converted one to another within a spectral range of 6,000 cm-1 - 80 cm-1 in a single step measurement.
Additional accessories and their exploitation:
a. Specular reflection measurements under the variable angle 5°-85° with Harrick "Auto-Seagull" module
b. Diffuse reflection measurements with a gold-coated integration sphere

== Important rules ==
The device should always be on. Take notice of three signals on the left side of device cover. They should be green. If at least one is red, you can not start working.

The chamber should be always purged with nitrogen. Before usage, check the nitrogen flow (100-150 ml/min)via rotameter. Otherwise, your measurements will show water/carbon dioxide peaks.

When measuring powder or thin film, one makes sure that diamond crystal is cleaned after you are done with the work. Even if it requires bringing solvent from other lab.

== Technical Documentation ==
[https://www.bruker.com/fileadmin/user_upload/8-PDF-Docs/OpticalSpectrospcopy/FT-IR/VERTEX/Brochures/VERTEX70_Brochure_EN.pdf]

== Eingewiesene Nutzer ==
[[User:Roman.Lyubimenko|Roman Lyubimenko]]

[[User:Deski.Beri|Deski Beri]]

[[Category:Geräte - Devices]]
[[Category:F&E4]]

VERTEX 70 (Bruker) FT-IR spectrometer

2017-08-16T16:22:10Z

Roman.Lyubimenko:

[[File:FTIR Bruker Vertex 70.jpg]]

'''Device name:''' Bruker - FT-IR spektrometer

'''Model:''' Vertex 70

'''Device responsibles:''' [[User:Roman.Lyubimenko|Roman Lyubimenko]], [[User:Deski.Beri|Deski Beri]]

'''Room:''' R203

'''Wavenumber range:''' 6000 - 80 cm-1

'''Spectral Resolution:''' ≤ 0.4 cm-1(apodized), optional 0.16 cm-1

'''Dimensions (W x D x H):''' 1020 mm x 630 mm x 300 mm

== Short description ==
The Vertex 70 is a fully digital Fourier-transform(FT-IR) spectrometer for obtaining infrared spectra of solid, liquid and gas samples in absorption or transmission mode.
MIR-FIR spectrum of a metal complex sample measured in one go from 4000 cm-1 to 130 cm-1 using Platinum diamond ATR and purged VERTEX 70 equipped with the standard MIR source, ultra wide range far-mid IR beamsplitter and room temperature DLaTGS detector at 4 cm-1 spectral resolution.

The data acquisition is based on two channel delta-sigma ADCs with 24-bit dynamic range, which are integrated into the detector preamplifier electronics. This advanced DigiTectTM technology prevents external signal disturbance and guarantees the highest signal-to-noise ratio. With its high sensitivity, stability and temporal resolution the device represents the best example of in its field, Bruker Vertex 70 is an ideal instrument for demanding research offering a wide range of applications. Those are some of them:
a. Purity assessment
b. Base polymer composition
c. additive/contaminant identification

It is also a good technique to analyse the unknown material if you need to know its general type.
Platinum-ATR allows the measurements of liquids, powders, thin films. The spectra can be taken as absorbance or transmittance and easily converted one to another within a spectral range of 6,000 cm-1 - 80 cm-1 in a single step measurement.
Additional accessories and their exploitation:
a. Specular reflection measurements under the variable angle 5°-85° with Harrick "Auto-Seagull" module
b. Diffuse reflection measurements with a gold-coated integration sphere

== Important rules ==
The device should always be on. Take notice of three signals on the left side of device cover. They should be green. If at least one is red, you can not start working.
The chamber should be always purged with nitrogen. Before usage, check the nitrogen flow (100-150 ml/min)via rotameter. Otherwise, your measurements will show water/carbon dioxide peaks.
When measuring powder or thin film, one makes sure that diamond crystal is cleaned after you are done with the work. Even if it requires bringing solvent from other lab.

== Technical Documentation ==
[https://www.bruker.com/fileadmin/user_upload/8-PDF-Docs/OpticalSpectrospcopy/FT-IR/VERTEX/Brochures/VERTEX70_Brochure_EN.pdf]

== Eingewiesene Nutzer ==
[[User:Roman.Lyubimenko|Roman Lyubimenko]]

[[User:Deski.Beri|Deski Beri]]

[[Category:Geräte - Devices]]
[[Category:F&E4]]

VERTEX 70 (Bruker) FT-IR spectrometer

2017-08-16T16:16:39Z

Roman.Lyubimenko:

[[File:FTIR Bruker Vertex 70.jpg]]

'''Device name:''' Bruker - FT-IR spektrometer

'''Model:''' Vertex 70

'''Device responsibles:''' [[User:Roman.Lyubimenko|Roman Lyubimenko]], [[User:Deski.Beri|Deski Beri]]

'''Room:''' R203

'''Wavenumber range:''' 6000 - 80 cm-1

'''Spectral Resolution:''' ≤ 0.4 cm-1(apodized), optional 0.16 cm-1

'''Dimensions (W x D x H):''' 1020 mm x 630 mm x 300 mm

== Short description ==
The Vertex 70 is a fully digital Fourier-transform(FT-IR) spectrometer for obtaining infrared spectra of solid, liquid and gas samples in absorption or transmission mode.
MIR-FIR spectrum of a metal complex sample measured in one go from 4000 cm-1 to 130 cm-1 using Platinum diamond ATR and purged VERTEX 70 equipped with the standard MIR source, ultra wide range far-mid IR beamsplitter and room temperature DLaTGS detector at 4 cm-1 spectral resolution.

The data acquisition is based on two channel delta-sigma ADCs with 24-bit dynamic range, which are integrated into the detector preamplifier electronics. This advanced DigiTectTM technology prevents external signal disturbance and guarantees the highest signal-to-noise ratio.

With its high sensitivity, stability and temporal resolution the device represents the best example of in its field, Bruker Vertex 70 is an ideal instrument for demanding research offering a wide range of applications. Those are some of them:
a. Purity assessment
b. Base polymer composition
c. additive/contaminant identification

It is also a good technique to analyse the unknown material if you need to know its general type.
Platinum-ATR allows the measurements of liquids, powders, thin films. The spectra can be taken as absorbance or transmittance and easily converted one to another within a spectral range of 6,000 cm-1 - 80 cm-1 in a single step measurement.
Additional accessories and their exploitation:
a. Specular reflection measurements under the variable angle 5°-85° with Harrick "Auto-Seagull" module
b. Diffuse reflection measurements with a gold-coated integration sphere

== Important rules ==

== Technical Documentation ==
[https://www.bruker.com/fileadmin/user_upload/8-PDF-Docs/OpticalSpectrospcopy/FT-IR/VERTEX/Brochures/VERTEX70_Brochure_EN.pdf]

== Eingewiesene Nutzer ==
[[User:Roman.Lyubimenko|Roman Lyubimenko]]

[[User:Deski.Beri|Deski Beri]]

[[Category:Geräte - Devices]]
[[Category:F&E4]]

VERTEX 70 (Bruker) FT-IR spectrometer

2017-08-16T16:15:01Z

Roman.Lyubimenko:

[[File:FTIR Bruker Vertex 70.jpg]]

'''Device name:''' Bruker - FT-IR spektrometer

'''Model:''' Vertex 70

'''Device responsibles:''' [[User:Roman.Lyubimenko|Roman Lyubimenko]], [[User:Deski.Beri|Deski Beri]]

'''Room:''' R203

'''Wavenumber range:''' 6000 - 80 cm-1

'''Spectral Resolution:''' ≤ 0.4 cm-1(apodized), optional 0.16 cm-1

'''Dimensions (W x D x H):''' 1020 mm x 630 mm x 300 mm

== Short description ==
The Vertex 70 is a fully digital Fourier-transform(FT-IR) spectrometer for obtaining infrared spectra of solid, liquid and gas samples in absorption or transmission mode.
MIR-FIR spectrum of a metal complex sample measured in one go from 4000 cm-1 to 130 cm-1 using Platinum diamond ATR and purged VERTEX 70 equipped with the standard MIR source, ultra wide range far-mid IR beamsplitter and room temperature DLaTGS detector at 4 cm-1 spectral resolution.

The data acquisition is based on two channel delta-sigma ADCs with 24-bit dynamic range, which are integrated into the detector preamplifier electronics. This advanced DigiTectTM technology prevents external signal disturbance and guarantees the highest signal-to-noise ratio.

With its high sensitivity, stability and temporal resolution the device represents the best example of in its field, Bruker Vertex 70 is an ideal instrument for demanding research offering a wide range of applications. Those are some of them:
• Purity assessment
• Base polymer composition
• additive/contaminant identification
It is also a good technique to analyse the unknown material if you need to know its general type.
Platinum-ATR allows the measurements of liquids, powders, thin films. The spectra can be taken as absorbance or transmittance and easily converted one to another within a spectral range of 6,000 cm-1 - 80 cm-1 in a single step measurement.
Additional accessories and their exploitation:
• Specular reflection measurements under the variable angle 5°-85° with Harrick "Auto-Seagull" module
• Diffuse reflection measurements with a gold-coated integration sphere

== Technical Dokumentation ==
[https://www.bruker.com/fileadmin/user_upload/8-PDF-Docs/OpticalSpectrospcopy/FT-IR/VERTEX/Brochures/VERTEX70_Brochure_EN.pdf]

== Eingewiesene Nutzer ==
[[User:Roman.Lyubimenko|Roman Lyubimenko]]

[[User:Deski.Beri|Deski Beri]]

[[Category:Geräte - Devices]]
[[Category:F&E4]]

VERTEX 70 (Bruker) FT-IR spectrometer

2017-08-16T16:14:17Z

Roman.Lyubimenko:

[[File:FTIR Bruker Vertex 70.jpg]]

'''Device name:''' Bruker - FT-IR spektrometer

'''Model:''' Vertex 70

'''Device responsibles:''' [[User:Roman.Lyubimenko|Roman Lyubimenko]], [[User:Deski.Beri|Deski Beri]]

'''Room:''' R203

'''Wavenumber range:''' 6000 - 80 cm-1

'''Spectral Resolution:''' ≤ 0.4 cm-1(apodized), optional 0.16 cm-1

'''Dimensions (W x D x H):''' 1020 mm x 630 mm x 300 mm

== Short description ==
The Vertex 70 is a fully digital Fourier-transform(FT-IR) spectrometer for obtaining infrared spectra of solid, liquid and gas samples in absorption or transmission mode.
MIR-FIR spectrum of a metal complex sample measured in one go from 4000 cm-1 to 130 cm-1 using Platinum diamond ATR and purged VERTEX 70 equipped with the standard MIR source, ultra wide range far-mid IR beamsplitter and room temperature DLaTGS detector at 4 cm-1 spectral resolution.

The data acquisition is based on two channel delta-sigma ADCs with 24-bit dynamic range, which are integrated into the detector preamplifier electronics. This advanced DigiTectTM technology prevents external signal disturbance and guarantees the highest signal-to-noise ratio.

With its high sensitivity, stability and temporal resolution the device represents the best example of in its field, Bruker Vertex 70 is an ideal instrument for demanding research offering a wide range of applications. Those are some of them:
• Purity assessment
• Base polymer composition
• additive/contaminant identification
It is also a good technique to analyse the unknown material if you need to know its general type.
Platinum-ATR allows the measurements of liquids, powders, thin films. The spectra can be taken as absorbance or transmittance and easily converted one to another within a spectral range of 6,000 cm-1 - 80 cm-1 in a single step measurement.
Additional accessories and their exploitation:
• Specular reflection measurements under the variable angle 5°-85° with Harrick "Auto-Seagull" module
• Diffuse reflection measurements with a gold-coated integration sphere

== Technical Dokumentation ==
[https://www.bruker.com/fileadmin/user_upload/8-PDF-Docs/OpticalSpectrospcopy/FT-IR/VERTEX/Brochures/VERTEX70_Brochure_EN.pdf]

== Eingewiesene Nutzer ==
[[User:Roman.Lyubimenko|Roman Lyubimenko]]

[[User:Deski.Beri|Deski Beri]]

[[Category:Geräte - Devices]]
[[Category:F&E4]]

File:FTIR Bruker Vertex 70.jpg

2017-08-16T16:11:59Z

Roman.Lyubimenko: Roman.Lyubimenko uploaded a new version of "File:FTIR Bruker Vertex 70.jpg"

File:FTIR Bruker Vertex 70.jpg

2017-08-16T16:09:39Z

Roman.Lyubimenko: Roman.Lyubimenko uploaded a new version of "File:FTIR Bruker Vertex 70.jpg"

File:FTIR Bruker Vertex 70.jpg

2017-08-16T16:08:12Z

Roman.Lyubimenko: Roman.Lyubimenko uploaded a new version of "File:FTIR Bruker Vertex 70.jpg"

VERTEX 70 (Bruker) FT-IR spectrometer

2017-08-16T16:06:52Z

Roman.Lyubimenko:

File:FTIR Bruker Vertex 70.jpg

2017-08-16T16:06:27Z

Roman.Lyubimenko:

VERTEX 70 (Bruker) FT-IR spectrometer

2017-08-16T16:05:23Z

Roman.Lyubimenko: Created page with "File:Example.jpg '''Device name:''' Bruker - FT-IR spektrometer '''Model:''' Vertex 70 '''Device responsibles:''' Roman Lyubimenko, [[User:De..."

[[File:Example.jpg]]

'''Device name:''' Bruker - FT-IR spektrometer

'''Model:''' Vertex 70

'''Device responsibles:''' [[User:Roman.Lyubimenko|Roman Lyubimenko]], [[User:Deski.Beri|Deski Beri]]

'''Room:''' R203

'''Wavenumber range:''' 6000 - 80 cm-1

'''Spectral Resolution:''' ≤ 0.4 cm-1(apodized), optional 0.16 cm-1

'''Dimensions (W x D x H):''' 1020 mm x 630 mm x 300 mm

== Short description ==
The Vertex 70 is a fully digital Fourier-transform(FT-IR) spectrometer for obtaining infrared spectra of solid, liquid and gas samples in absorption or transmission mode.
MIR-FIR spectrum of a metal complex sample measured in one go from 4000 cm-1 to 130 cm-1 using Platinum diamond ATR and purged VERTEX 70 equipped with the standard MIR source, ultra wide range far-mid IR beamsplitter and room temperature DLaTGS detector at 4 cm-1 spectral resolution.

The data acquisition is based on two channel
delta-sigma
ADCs with 24-bit dynamic range, which are integrated
into the detector preamplifier electronics. This advanced DigiTectTM technology
prevents external signal disturbance and guarantees the highest signal-to-noise ratio.

== Technische Doku ==
[https://www.bruker.com/fileadmin/user_upload/8-PDF-Docs/OpticalSpectrospcopy/FT-IR/VERTEX/Brochures/VERTEX70_Brochure_EN.pdf]

== Eingewiesene Nutzer ==
[[User:Roman.Lyubimenko|Roman Lyubimenko]]

[[User:Deski.Beri|Deski Beri]]

[[Category:Geräte - Devices]]
[[Category:F&E4]]

User:Roman.Lyubimenko

2017-08-14T10:43:50Z

Roman.Lyubimenko: /* Geräte */

[[file:Roman Lyubimenko.jpg|thumb|400x250px|rechts|Roman Lyubimenko]]

[[User:{{PAGENAME}}/English|English Version]]

== Roman Lyubimenko ==


'''Funktionsbereich''': [[F&E4]]

'''Aufgabengebiet''': Photochemistry, Membrane technology

'''Bau''': 307

'''Raum''': 225

'''Telefon''': 0721 608 22384

'''e-mail''': mailto:roman.lyubimenko@kit.edu

== Tätigkeitsbeschreibung ==
Sunlight driven generation of active oxygen via membrane anchored organic photosensitizers

=== Geräte ===

*[[VERTEX 80 (Bruker) FT-IR spectrometer]]

=== Prozesse ===

Photosensitizer anchoring

Nanofiltration

[[Category:Mitarbeiter - Employees]]
[[Category:Doktoranden - PhD Students]]
[[Category:F&E4]]

User:Roman.Lyubimenko

2017-08-14T10:43:04Z

Roman.Lyubimenko: /* Geräte */

[[file:Roman Lyubimenko.jpg|thumb|400x250px|rechts|Roman Lyubimenko]]

[[User:{{PAGENAME}}/English|English Version]]

== Roman Lyubimenko ==


'''Funktionsbereich''': [[F&E4]]

'''Aufgabengebiet''': Photochemistry, Membrane technology

'''Bau''': 307

'''Raum''': 225

'''Telefon''': 0721 608 22384

'''e-mail''': mailto:roman.lyubimenko@kit.edu

== Tätigkeitsbeschreibung ==
Sunlight driven generation of active oxygen via membrane anchored organic photosensitizers

=== Geräte ===

*[[VERTEX 80 (Bruker)FTIR]]

=== Prozesse ===

Photosensitizer anchoring

Nanofiltration

[[Category:Mitarbeiter - Employees]]
[[Category:Doktoranden - PhD Students]]
[[Category:F&E4]]

User:Roman.Lyubimenko

2016-10-07T16:35:35Z

Roman.Lyubimenko:

[[Datei:Roman Lyubimenko.jpg|thumb|400x250px|rechts|Roman Lyubimenko]]

[[Benutzer:{{PAGENAME}}/English|English Version]]

== Roman Lyubimenko ==


'''Funktionsbereich''': [[F&E4]]

'''Aufgabengebiet''': Photochemistry, Membrane technology

'''Bau''': 307

'''Raum''': 225

'''Telefon''': 0721 608 22384

'''e-mail''': mailto:roman.lyubimenko@kit.edu

== Tätigkeitsbeschreibung ==
Sunlight driven generation of active oxygen via membrane anchored organic photosensitizers

=== Geräte ===

=== Prozesse ===

Photosensitizer anchoring

Nanofiltration

[[Kategorie:Mitarbeiter - Employees]]
[[Kategorie:Doktoranden - PhD Students]]
[[Kategorie:F&E4]]

User:Roman.Lyubimenko

2016-10-07T16:30:08Z

Roman.Lyubimenko:

[[Datei:Roman Lyubimenko.jpg|thumb|500x250px|rechts|Roman Lyubimenko]]

[[Benutzer:{{PAGENAME}}/English|English Version]]

== Roman Lyubimenko ==


'''Funktionsbereich''': [[F&E4]]

'''Aufgabengebiet''': Photochemistry, Membrane technology

'''Bau''': 307

'''Raum''': 225

'''Telefon''': 0721 608 22384

'''e-mail''': mailto:roman.lyubimenko@kit.edu

== Tätigkeitsbeschreibung ==
Sunlight driven generation of active oxygen via membrane anchored organic photosensitizers

=== Geräte ===

=== Prozesse ===

Photosensitizer anchoring

Nanofiltration

[[Kategorie:Mitarbeiter - Employees]]
[[Kategorie:Doktoranden - PhD Students]]
[[Kategorie:F&E4]]

File:Roman Lyubimenko.jpg

2016-10-07T16:25:33Z

Roman.Lyubimenko:

User:Roman.Lyubimenko

2016-10-07T16:25:04Z

Roman.Lyubimenko:

[[Datei:Roman Lyubimenko.jpg]]

[[Benutzer:{{PAGENAME}}/English|English Version]]

== Roman Lyubimenko ==


'''Funktionsbereich''': [[F&E4]]

'''Aufgabengebiet''': Photochemistry, Membrane technology

'''Bau''': 307

'''Raum''': 225

'''Telefon''': 0721 608 22384

'''e-mail''': mailto:roman.lyubimenko@kit.edu

== Tätigkeitsbeschreibung ==
Sunlight driven generation of active oxygen via membrane anchored organic photosensitizers

[[Kategorie:Mitarbeiter - Employees]]
[[Kategorie:Doktoranden - PhD Students]]
[[Kategorie:F&E4]]

User:Roman.Lyubimenko

2016-10-07T12:10:10Z

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[[Benutzer:{{PAGENAME}}/English|English Version]]

== Roman Lyubimenko ==


'''Funktionsbereich''': [[F&E4]]

'''Aufgabengebiet''': Photochemical degradation using modified membranes

'''Bau''': 307

'''Raum''': 225

'''Telefon''': 0721 608 22384

'''e-mail''': mailto:roman.lyubimenko@kit.edu

== Tätigkeitsbeschreibung ==