GCMS
More information
WebinarsAbout usContact usTerms of use
LabRulez s.r.o. All rights reserved. Content available under a CC BY-SA 4.0 Attribution-ShareAlike
Author
TU Wien
TU Wien
The TU Wien is Austria's largest research and educational institution in the field of technology and natural sciences. More than 4,000 scientists are researching "technology for people" in five main research areas at eight faculties. The content of the studies offered is derived from the excellent research. More than 26,000 students in 62 degree programmes benefit from this. As a driver of innovation, TU Wien strengthens the business location, facilitates cooperation and contributes to the prosperity of society.
Tags
Article
Scientific article
Science and research
Logo of LinkedIn

New method unravels the mystery of slow electrons

Th, 19.12.2024
| Original article from: TU Wien
Slow electrons are used in cancer therapy as well as in microelectronics. It is very hard to observe how they behave in solids. But scientists at TU Wien have made this possible.
<ul><li><strong>Photo:</strong> TU Wien: Felix Blödorn, Julian Brunner, Alessandra Bellissimo, Florian Simperl, Wolfgang Werner</li></ul>
  • Photo: TU Wien: Felix Blödorn, Julian Brunner, Alessandra Bellissimo, Florian Simperl, Wolfgang Werner

Electrons can behave very differently depending on how much energy they have. Whether you shoot an electron with high or low energy into a solid body determines which effects can be triggered. Electrons with low energy can be responsible for the development of cancer, for example, but conversely they can also be used to destroy tumors. They are also important in technology, for example for the production of tiny structures in microelectronics.

These slow electrons, however, are extremely difficult to measure. Knowledge about their behaviour in solid materials is limited, and often scientists can only rely on trial and error. However, TU Wien has now succeeded in obtaining valuable new information about the behaviour of these electrons: Fast electrons are used to generate slow electrons directly in the material. This allows details to be deciphered that were previously inaccessible experimentally. The method has now been presented in the journal ‘Physical Review Letters’.

Two types of electrons at the same time

We are interested in what the slow electrons do inside a material, for example inside a crystal or inside a living cell,” says Prof Wolfgang Werner from the Institute of Applied Physics at TU Wien. “To find out, you would actually have to build a mini-laboratory directly in the material to be able to measure directly on site. But that's not possible, of course."

You can only measure electrons that come out of the material, but that doesn't tell you where in the material they were released and what has happened to them since then. The team at TU Wien solved this problem with the help of fast electrons that penetrate the material and stimulate various processes there. For example, these fast electrons can disturb the balance between the positive and negative electrical charges of the material, which can then lead to another electron detaching itself from its place, travelling at a relatively low speed and in some cases escaping from the material.

The crucial step now is to measure these different electrons simultaneously: “On the one hand, we shoot an electron into the material and measure its energy when it leaves again. On the other hand, we also measure which slow electrons come out of the material at the same time.” And by combining this data, it is possible to obtain information that was previously inaccessible.

Not a wild cascade, but a series of collisions

The amount of energy that the fast electron has lost on its journey through the material provides information on how deeply it has penetrated the material. This in turn provides information about the depth at which the slower electrons were released from their place.

This data can now be used to calculate to what extent and in what way the slow electrons in the material release their energy. Numerical theories on this can be reliably validated for the first time using the data.

This led to a surprise: it was previously thought that the release of electrons in the material took place in a cascade: A fast electron enters the material and hits another electron, which is then ripped away from its place, causing two electrons to move. These two electrons would then remove two more electrons from their place, and so on. The new data show that this is not true: instead, the fast electron undergoes a series of collisions, but always retains a large part of its energy and only one comparatively slow electron is detached from its place in each of these interactions.

Our new method offers opportunities in very different areas,” says Wolfgang Werner. “We can now finally investigate how the electrons release energy in their interaction with the material. It is precisely this energy that determines whether tumor cells can be destroyed in cancer therapy, for example, or whether the finest details of a semiconductor structure can be correctly formed in electron beam lithography.

TU Wien
Logo of LinkedIn
 

Related content

HERAtech Laboratories satisfies growing water-analysis demand and reduces costs using workflow automation

Others
| 2024 | Thermo Fisher Scientific
Instrumentation
GC/MSD, GC/MS/MS, GC/QQQ
Manufacturer
Thermo Fisher Scientific
Industries
Environmental

Sensitive and cryogen-free analysis of epichlorohydrin and other VOCs in drinking water by using In-Tube Extraction Dynamic Headspace (ITEX-DHS) sampling coupled to GC-MS

Applications
| 2024 | Thermo Fisher Scientific
Instrumentation
GC/MSD, GC/SQ, HeadSpace
Manufacturer
Thermo Fisher Scientific
Industries
Environmental

Hydrocarbon Class Analysis of Conventional and Synthetic Aviation Turbine Fuels by ASTM D8396

Applications
| 2024 | Agilent Technologies
Instrumentation
GCxGC
Manufacturer
Agilent Technologies, ZOEX/JSB
Industries
Energy & Chemicals

GC-MS-Based Evaluation of Fatty Acid Composition in Microalgae

Applications
| 2024 | Shimadzu
Instrumentation
GC/MSD, GC/MS/MS, GC/QQQ
Manufacturer
Shimadzu
Industries
Environmental

Analysis of Phenethylamines Using On-Column TFA Derivatization

Applications
| 2024 | Shimadzu
Instrumentation
GC/MSD, GC/SQ
Manufacturer
Shimadzu
Industries
Forensics
 

Related articles

A fast thermal desorption unit for micro thermal desorption tubes, Part I: Development of the system and proof of concept measurements with hyper-fast gas chromatography
Scientific article | Various

A fast thermal desorption unit for micro thermal desorption tubes, Part I: Development of the system and proof of concept measurements with hyper-fast gas chromatography

The goal of this study is to develop and evaluate a fast and efficient micro thermal desorption system for hyper-fast gas chromatography.
LabRulez
tag
share
more
News from LabRulezGCMS Library - Week 3, 2025
Article | Application

News from LabRulezGCMS Library - Week 3, 2025

This week we bring you case study, poster and Guide by Thermo Fisher Scientific, Agilent Technologies and Shimadzu!
LabRulez
tag
share
more
Webinars LabRulezGCMS Week 4/2025
Article | Webinars

Webinars LabRulezGCMS Week 4/2025

5 Webinars: USP 467 Residual Solvents, OpenLab for GC, GCxGC-TOF EI/CI & Aviation Fuels, LDIR & microplastics, Empower Tips & Tricks.
LabRulez
tag
share
more
A fast thermal desorption unit for micro thermal desorption tubes, Part II: Method development and validation for explosives and chemical warfare agent simulants
Scientific article | Toxicology

A fast thermal desorption unit for micro thermal desorption tubes, Part II: Method development and validation for explosives and chemical warfare agent simulants

The goal of this study is to develop and validate a fast, sensitive thermal desorption FF-TG-GC/MS method for analyzing explosives and CWA simulants.
LabRulez
tag
share
more
 

Related content

HERAtech Laboratories satisfies growing water-analysis demand and reduces costs using workflow automation

Others
| 2024 | Thermo Fisher Scientific
Instrumentation
GC/MSD, GC/MS/MS, GC/QQQ
Manufacturer
Thermo Fisher Scientific
Industries
Environmental

Sensitive and cryogen-free analysis of epichlorohydrin and other VOCs in drinking water by using In-Tube Extraction Dynamic Headspace (ITEX-DHS) sampling coupled to GC-MS

Applications
| 2024 | Thermo Fisher Scientific
Instrumentation
GC/MSD, GC/SQ, HeadSpace
Manufacturer
Thermo Fisher Scientific
Industries
Environmental

Hydrocarbon Class Analysis of Conventional and Synthetic Aviation Turbine Fuels by ASTM D8396

Applications
| 2024 | Agilent Technologies
Instrumentation
GCxGC
Manufacturer
Agilent Technologies, ZOEX/JSB
Industries
Energy & Chemicals

GC-MS-Based Evaluation of Fatty Acid Composition in Microalgae

Applications
| 2024 | Shimadzu
Instrumentation
GC/MSD, GC/MS/MS, GC/QQQ
Manufacturer
Shimadzu
Industries
Environmental

Analysis of Phenethylamines Using On-Column TFA Derivatization

Applications
| 2024 | Shimadzu
Instrumentation
GC/MSD, GC/SQ
Manufacturer
Shimadzu
Industries
Forensics
 

Related articles

A fast thermal desorption unit for micro thermal desorption tubes, Part I: Development of the system and proof of concept measurements with hyper-fast gas chromatography
Scientific article | Various

A fast thermal desorption unit for micro thermal desorption tubes, Part I: Development of the system and proof of concept measurements with hyper-fast gas chromatography

The goal of this study is to develop and evaluate a fast and efficient micro thermal desorption system for hyper-fast gas chromatography.
LabRulez
tag
share
more
News from LabRulezGCMS Library - Week 3, 2025
Article | Application

News from LabRulezGCMS Library - Week 3, 2025

This week we bring you case study, poster and Guide by Thermo Fisher Scientific, Agilent Technologies and Shimadzu!
LabRulez
tag
share
more
Webinars LabRulezGCMS Week 4/2025
Article | Webinars

Webinars LabRulezGCMS Week 4/2025

5 Webinars: USP 467 Residual Solvents, OpenLab for GC, GCxGC-TOF EI/CI & Aviation Fuels, LDIR & microplastics, Empower Tips & Tricks.
LabRulez
tag
share
more
A fast thermal desorption unit for micro thermal desorption tubes, Part II: Method development and validation for explosives and chemical warfare agent simulants
Scientific article | Toxicology

A fast thermal desorption unit for micro thermal desorption tubes, Part II: Method development and validation for explosives and chemical warfare agent simulants

The goal of this study is to develop and validate a fast, sensitive thermal desorption FF-TG-GC/MS method for analyzing explosives and CWA simulants.
LabRulez
tag
share
more
 

Related content

HERAtech Laboratories satisfies growing water-analysis demand and reduces costs using workflow automation

Others
| 2024 | Thermo Fisher Scientific
Instrumentation
GC/MSD, GC/MS/MS, GC/QQQ
Manufacturer
Thermo Fisher Scientific
Industries
Environmental

Sensitive and cryogen-free analysis of epichlorohydrin and other VOCs in drinking water by using In-Tube Extraction Dynamic Headspace (ITEX-DHS) sampling coupled to GC-MS

Applications
| 2024 | Thermo Fisher Scientific
Instrumentation
GC/MSD, GC/SQ, HeadSpace
Manufacturer
Thermo Fisher Scientific
Industries
Environmental

Hydrocarbon Class Analysis of Conventional and Synthetic Aviation Turbine Fuels by ASTM D8396

Applications
| 2024 | Agilent Technologies
Instrumentation
GCxGC
Manufacturer
Agilent Technologies, ZOEX/JSB
Industries
Energy & Chemicals

GC-MS-Based Evaluation of Fatty Acid Composition in Microalgae

Applications
| 2024 | Shimadzu
Instrumentation
GC/MSD, GC/MS/MS, GC/QQQ
Manufacturer
Shimadzu
Industries
Environmental

Analysis of Phenethylamines Using On-Column TFA Derivatization

Applications
| 2024 | Shimadzu
Instrumentation
GC/MSD, GC/SQ
Manufacturer
Shimadzu
Industries
Forensics
 

Related articles

A fast thermal desorption unit for micro thermal desorption tubes, Part I: Development of the system and proof of concept measurements with hyper-fast gas chromatography
Scientific article | Various

A fast thermal desorption unit for micro thermal desorption tubes, Part I: Development of the system and proof of concept measurements with hyper-fast gas chromatography

The goal of this study is to develop and evaluate a fast and efficient micro thermal desorption system for hyper-fast gas chromatography.
LabRulez
tag
share
more
News from LabRulezGCMS Library - Week 3, 2025
Article | Application

News from LabRulezGCMS Library - Week 3, 2025

This week we bring you case study, poster and Guide by Thermo Fisher Scientific, Agilent Technologies and Shimadzu!
LabRulez
tag
share
more
Webinars LabRulezGCMS Week 4/2025
Article | Webinars

Webinars LabRulezGCMS Week 4/2025

5 Webinars: USP 467 Residual Solvents, OpenLab for GC, GCxGC-TOF EI/CI & Aviation Fuels, LDIR & microplastics, Empower Tips & Tricks.
LabRulez
tag
share
more
A fast thermal desorption unit for micro thermal desorption tubes, Part II: Method development and validation for explosives and chemical warfare agent simulants
Scientific article | Toxicology

A fast thermal desorption unit for micro thermal desorption tubes, Part II: Method development and validation for explosives and chemical warfare agent simulants

The goal of this study is to develop and validate a fast, sensitive thermal desorption FF-TG-GC/MS method for analyzing explosives and CWA simulants.
LabRulez
tag
share
more
 

Related content

HERAtech Laboratories satisfies growing water-analysis demand and reduces costs using workflow automation

Others
| 2024 | Thermo Fisher Scientific
Instrumentation
GC/MSD, GC/MS/MS, GC/QQQ
Manufacturer
Thermo Fisher Scientific
Industries
Environmental

Sensitive and cryogen-free analysis of epichlorohydrin and other VOCs in drinking water by using In-Tube Extraction Dynamic Headspace (ITEX-DHS) sampling coupled to GC-MS

Applications
| 2024 | Thermo Fisher Scientific
Instrumentation
GC/MSD, GC/SQ, HeadSpace
Manufacturer
Thermo Fisher Scientific
Industries
Environmental

Hydrocarbon Class Analysis of Conventional and Synthetic Aviation Turbine Fuels by ASTM D8396

Applications
| 2024 | Agilent Technologies
Instrumentation
GCxGC
Manufacturer
Agilent Technologies, ZOEX/JSB
Industries
Energy & Chemicals

GC-MS-Based Evaluation of Fatty Acid Composition in Microalgae

Applications
| 2024 | Shimadzu
Instrumentation
GC/MSD, GC/MS/MS, GC/QQQ
Manufacturer
Shimadzu
Industries
Environmental

Analysis of Phenethylamines Using On-Column TFA Derivatization

Applications
| 2024 | Shimadzu
Instrumentation
GC/MSD, GC/SQ
Manufacturer
Shimadzu
Industries
Forensics
 

Related articles

A fast thermal desorption unit for micro thermal desorption tubes, Part I: Development of the system and proof of concept measurements with hyper-fast gas chromatography
Scientific article | Various

A fast thermal desorption unit for micro thermal desorption tubes, Part I: Development of the system and proof of concept measurements with hyper-fast gas chromatography

The goal of this study is to develop and evaluate a fast and efficient micro thermal desorption system for hyper-fast gas chromatography.
LabRulez
tag
share
more
News from LabRulezGCMS Library - Week 3, 2025
Article | Application

News from LabRulezGCMS Library - Week 3, 2025

This week we bring you case study, poster and Guide by Thermo Fisher Scientific, Agilent Technologies and Shimadzu!
LabRulez
tag
share
more
Webinars LabRulezGCMS Week 4/2025
Article | Webinars

Webinars LabRulezGCMS Week 4/2025

5 Webinars: USP 467 Residual Solvents, OpenLab for GC, GCxGC-TOF EI/CI & Aviation Fuels, LDIR & microplastics, Empower Tips & Tricks.
LabRulez
tag
share
more
A fast thermal desorption unit for micro thermal desorption tubes, Part II: Method development and validation for explosives and chemical warfare agent simulants
Scientific article | Toxicology

A fast thermal desorption unit for micro thermal desorption tubes, Part II: Method development and validation for explosives and chemical warfare agent simulants

The goal of this study is to develop and validate a fast, sensitive thermal desorption FF-TG-GC/MS method for analyzing explosives and CWA simulants.
LabRulez
tag
share
more
Other projects
LCMS
ICPMS
Follow us
More information
WebinarsAbout usContact usTerms of use
LabRulez s.r.o. All rights reserved. Content available under a CC BY-SA 4.0 Attribution-ShareAlike