Prof. Christoph Salzmann
@salzmannlab.bsky.social
๐ค 54
๐ฅ 69
๐ 36
Professor of Physical and Materials Chemistry at University College London www.salzmannlab.org
www.linkedin.com/posts/instit...
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Plutoโs nitrogen glaciers study on WASP @ ILL | ILL - Institut Laue Langevin
๐๐จ๐ฐ ๐๐๐ง ๐ง๐๐ฎ๐ญ๐ซ๐จ๐ง ๐๐ฑ๐ฉ๐๐ซ๐ข๐ฆ๐๐ง๐ญ๐ฌ ๐ก๐๐ฅ๐ฉ ๐ฎ๐ฌ ๐ฎ๐ง๐๐๐ซ๐ฌ๐ญ๐๐ง๐ ๐๐ฅ๐ฎ๐ญ๐จโ๐ฌ ๐ง๐ข๐ญ๐ซ๐จ๐ ๐๐ง ๐ ๐ฅ๐๐๐ข๐๐ซ๐ฌ?๐ ๐ก๏ธThis week, while temperatures outside were climbing during the heat wave, Christoph Salzmann, Fabrizia Foglia, Milz Beaumo...
https://www.linkedin.com/posts/institut-laue-langevin_plutos-nitrogen-glaciers-study-on-wasp-ugcPost-7476189056452784129-_yfw
23 days ago
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A journey with tyres on the London underground. All in the name of research. Well done Sailor and Shaoheng!
3 months ago
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T-10 minutesโฆ
4 months ago
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Imagine we would fly back to the Moon and nobody would talk about it. That would be madness, no?
4 months ago
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Spring!!
4 months ago
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Group picture day..
4 months ago
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Watching the Menโs moguls. Just love the fact that the English โmogulโ comes from the Austrian โMugelโ meaning small hill. ๐
5 months ago
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The Winter Olympics and ice. Listen to me on BBCโs Unexpected Elements discussing ice. โ๏ธ
www.bbc.com/audio/play/w...
@uclchemistry.bsky.social
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BBC Audio | Unexpected Elements | Let the games begin
How did one extra stitch cause a ski jumping scandal? -- Physics.
https://www.bbc.com/audio/play/w3ct72xc
5 months ago
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reposted by
Prof. Christoph Salzmann
Mark Miodownik
6 months ago
Great paper by
@salzmannlab.bsky.social
Lab showing that car tire microplastics are nucleation agents for ice crystals in the atmosphere. Their roles in regulating the climate likely to be important given that 1.3 million tons of tyre microparticles per year in Europe:
share.google/qoOquT63awT8...
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Tire-Wear Particles as Potential Ice-Nucleating Agents in the Atmosphere
Tire-wear particles, generated through tire abrasion during driving, represent one of the largest global sources of microplastic pollution, with current annual emissions approaching 6 Tg. Due to their small particle sizes and low mass density, tire-wear particles can become airborne, undergo long-range transport, and potentially influence atmospheric processes. One critical but poorly understood pathway involves the heterogeneous freezing of supercooled cloud droplets, a key process in cloud glaciation and climate regulation. Here, we systematically investigate the ice-nucleating properties of laboratory-generated particles from summer, all-weather, and winter tires. Using optical microscopy as well as Fourier transform infrared (FT-IR) and Raman spectroscopy, we obtained particle-size distributions (โผ100 ฮผm mean diameter) and characterized the surface chemical compositions, confirming close similarity to the pristine tire materials. Ice-nucleation experiments performed with our custom-built IceBox instrument demonstrated that all tire particles consistently elevated the freezing temperatures of supercooled water droplets. The ice-nucleation performances of tire particles are found to be between feldspar and quartz, which are important mineral-based ice-nucleating agents in the atmosphere. Comparable results across all tire types suggest that major components such as rubber polymers or graphitic fillers are responsible for the observed activity. These findings establish tire-wear particles as effective atmospheric ice-nucleating agents, providing a baseline for future studies of environmentally aged tire particles and their potential roles in affecting the climate.
https://share.google/qoOquT63awT8P7idp
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reposted by
Prof. Christoph Salzmann
Mark Miodownik
6 months ago
You can join the Big Plastic Count here:
share.google/q1bdJ4OXqcuy...
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Join The Big Plastic Count
The UKโs biggest people-powered investigation into household plastic waste.
https://share.google/q1bdJ4OXqcuyYzqCL
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Could tire-wear particles ๐ mess with clouds ๐ง๏ธ? Check out our latest paper with
@tfwhale.bsky.social
!
pubs.acs.org/doi/10.1021/...
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Tire-Wear Particles as Potential Ice-Nucleating Agents in the Atmosphere
Tire-wear particles, generated through tire abrasion during driving, represent one of the largest global sources of microplastic pollution, with current annual emissions approaching 6 Tg. Due to their small particle sizes and low mass density, tire-wear particles can become airborne, undergo long-range transport, and potentially influence atmospheric processes. One critical but poorly understood pathway involves the heterogeneous freezing of supercooled cloud droplets, a key process in cloud glaciation and climate regulation. Here, we systematically investigate the ice-nucleating properties of laboratory-generated particles from summer, all-weather, and winter tires. Using optical microscopy as well as Fourier transform infrared (FT-IR) and Raman spectroscopy, we obtained particle-size distributions (โผ100 ฮผm mean diameter) and characterized the surface chemical compositions, confirming close similarity to the pristine tire materials. Ice-nucleation experiments performed with our custom-built IceBox instrument demonstrated that all tire particles consistently elevated the freezing temperatures of supercooled water droplets. The ice-nucleation performances of tire particles are found to be between feldspar and quartz, which are important mineral-based ice-nucleating agents in the atmosphere. Comparable results across all tire types suggest that major components such as rubber polymers or graphitic fillers are responsible for the observed activity. These findings establish tire-wear particles as effective atmospheric ice-nucleating agents, providing a baseline for future studies of environmentally aged tire particles and their potential roles in affecting the climate.
https://pubs.acs.org/doi/10.1021/acsestair.5c00359
6 months ago
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Curious Cases on BBC4 about Frosty Fractals. We are trying to make sense about ice freezing on windscreens and many other icy things. โ๏ธ
www.bbc.co.uk/programmes/m...
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BBC Radio 4 - Curious Cases, Series 24, Frosty Fractals
Hannah Fry and Dara ร Briain investigate nature's most intricate patterns
https://www.bbc.co.uk/programmes/m002nv73
7 months ago
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Wiener Schnitzel in Vienna - does it get any better? ๐
7 months ago
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Every time I eat one of these rum cookies, there is a spike in the VOC data... ๐
7 months ago
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Just made my first ever Zigbee device. 101 for lab automation, a status light if things are going okay or not! ๐จ
7 months ago
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The UCL Chemistry green wall is happening!
@uclchemistry.bsky.social
7 months ago
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Isnโt it absolutely cool that TFL provide an integration for Home Assistant? Turn the kettle on once the 6:43 to Waterloo has departed?
9 months ago
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Reading up more on Smart Meters. It was never a priority to make the data available to the user. We were always meant to look at the data on little displays with bad menu structures or download the data from the webpages of the energy companies. I want direct access to MY DATA.
9 months ago
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Itโs a proper scandal that you canโt read the data from your smart meter! Has there been no technology review? It would be so easy to make them Zigbee devices that broadcast the data locally. These devices are rolled out in millions and I canโt access my own data!!!
9 months ago
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reposted by
Prof. Christoph Salzmann
Philip Ball
10 months ago
In the early days of quantum chemistry, before we had computers to calculate the shapes of electron orbitals, one man invented a mechanical machine that simulated their shapes. My latest column for
@chemistryworld.com
www.chemistryworld.com/opinion/the-...
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The simple machine that visualised atomic orbitals
In 1931, Harvey Elliott White developed a device that traced out the shapes of electron clouds by approximating solutions to the Schrรถdinger equation
https://www.chemistryworld.com/opinion/the-simple-machine-that-visualised-atomic-orbitals/4022074.article
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Tire-wear particles as potential ice nucleating agents in the atmosphere | ChemRxiv -
doi.org/10.26434/che...
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Tire-wear particles as potential ice nucleating agents in the atmosphere
Tire-wear particles, generated through tire abrasion during driving, represent one of the largest global sources of microplastic pollution, with annual emissions approaching 6 million tons. Due to the...
https://doi.org/10.26434/chemrxiv-2025-vl6p8?utm_campaign=shareaholic&utm_medium=bluesky&utm_source=socialnetwork
10 months ago
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Tube strike - an opportunity to see some London sights on my commute..
10 months ago
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Really great performance by Chappell Roan at Reading Festival.
11 months ago
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reposted by
Prof. Christoph Salzmann
Royal Society of Chemistry
12 months ago
Donโt miss the KathleenโฏLonsdale Public Lecture! Commemorating 200 years since Faraday isolated benzene, celebrating Lonsdale's contributions in crystallography, activism & science communication. Free to attend, all welcome. Register:
buff.ly/IIDjsC2
#Science
#London
#Chemistry
#WomenInSTEM
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Carlotta did close to 300 ice nucleation experiments during her Masterโs project. Itโs great to see her work published.
pubs.acs.org/doi/10.1021/...
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Ice Nucleation Properties of Aluminum Surfaces
The nucleation of ice from supercooled water droplets plays a critical role across various technological sectors including aviation, power transmission, shipping, and space flight. Despite its importa...
https://pubs.acs.org/doi/10.1021/acs.jpcc.5c02495
12 months ago
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Did you ever wonder how PID control works? Or how you can hover a ping-pong ball with a hairdryer? Check out our new paper in J. Chem. Edu.
pubs.acs.org/doi/10.1021/...
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Hovering a Ping-Pong Ball: A Demonstration Setup for Teaching PID Control
Proportional-Integral-Derivative (PID) controllers are essential in ensuring the stability and efficiency of numerous scientific, industrial, and medical processes. However, teaching the principles of PID control can be challenging, especially when the introduction focuses on the underlying mathematical framework. To address this, we developed the PingPongPID, a visually engaging and interactive demonstration instrument designed to make the concepts of PID control more accessible to students. The PingPongPID features a colored ping-pong ball suspended within a transparent plastic tube by a fan, the voltage of which is controlled by a microcontroller running a PID algorithm. The ballโs height is measured in real-time by a laser distance sensor, and the system continuously adjusts the fan voltage to maintain a set target height. The PingPongPID also connects to a computer, allowing real-time data logging and visualization through a custom-built Python graphical user interface (GUI). The process of obtaining the three PID gain constants using both the trial-and-error and Ziegler-Nichols methods can be illustrated very nicely with the PingPongPID. In summary, the PingPongPID serves as a powerful educational tool, allowing students to explore both the conceptual and practical aspects of PID control before delving into its mathematical foundations. We provide a complete assembly and user guide for the PingPongPID as well as the codes for the microcontroller and the Python GUI.
https://pubs.acs.org/doi/10.1021/acs.jchemed.5c00528
12 months ago
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Turns out that there are tiny ice crystals in space ice. Thanks a lot
@chemistryworld.com
for highlighting our work. Amazing collaboration with
@ice-group-cam.bsky.social
.
www.chemistryworld.com/news/evidenc...
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Evidence found of nanocrystals lurking in low-density โamorphousโ ice
Findings may have wide-ranging implications, from the origins of life to the characterisation of technological glasses
https://www.chemistryworld.com/news/evidence-found-of-nanocrystals-lurking-in-low-density-amorphous-ice/4021903.article
12 months ago
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reposted by
Prof. Christoph Salzmann
UCL News
about 1 year ago
For decades, scientists have considered the main type of ice in space to be completely disordered, like liquid water. A new study by Prof Christoph Salzmann, Dr Michael B Davies
@uclmaps.bsky.social
@uclchemistry.bsky.social
and colleagues upends that assumption, finding it contains tiny crystals
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โSpace iceโ is less like water than we thought
โSpace iceโ contains tiny crystals and is not, as previously assumed, a completely disordered material like liquid water, according to a new study by scientists at UCL and the University of Cambridge.
https://www.ucl.ac.uk/news/2025/jul/space-ice-less-water-we-thought
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