Hanna Boström
@hannabostroem.bsky.social
Inorganic Chemist at Stockholm University. Nationally Swedish, academically British. Likes frameworks, copper, crystals, and wildlife. (she/her)
Come to this/send people you know to it!
We are doing what we can to make it educational and fun 😊
We are doing what we can to make it educational and fun 😊
SAVE THE DATE! The 11th European Crystallography School (ECS11) takes place June 28–July 4, 2026, in Stockholm, Sweden. Topics: single-crystal X-ray diffraction, powder X-ray diffraction & 3D electron diffraction.
Learn from leading experts through lectures and hands-on workshops!
www.ecs11.org
Learn from leading experts through lectures and hands-on workshops!
www.ecs11.org
November 3, 2025 at 3:08 PM
Come to this/send people you know to it!
We are doing what we can to make it educational and fun 😊
We are doing what we can to make it educational and fun 😊
Chocolate spectroscopy!
To demonstrate spectroscopy to my first-year chemistry class, especially transmittance, I passed around a bag with three types of chocolate bars during the lecture. The students were allowed to take one piece each.
To demonstrate spectroscopy to my first-year chemistry class, especially transmittance, I passed around a bag with three types of chocolate bars during the lecture. The students were allowed to take one piece each.
October 22, 2025 at 6:49 AM
Chocolate spectroscopy!
To demonstrate spectroscopy to my first-year chemistry class, especially transmittance, I passed around a bag with three types of chocolate bars during the lecture. The students were allowed to take one piece each.
To demonstrate spectroscopy to my first-year chemistry class, especially transmittance, I passed around a bag with three types of chocolate bars during the lecture. The students were allowed to take one piece each.
Reposted by Hanna Boström
Had the fantastic opportunity to demonstrate MOF synthesis for the Swedish news program Aktuellt on SVT!
www.svtplay.se/video/8myQL5...
www.svtplay.se/video/8myQL5...
October 12, 2025 at 7:30 PM
Had the fantastic opportunity to demonstrate MOF synthesis for the Swedish news program Aktuellt on SVT!
www.svtplay.se/video/8myQL5...
www.svtplay.se/video/8myQL5...
So extremely much fun to have Andrew Goodwin visiting Stockholm for the day!
October 1, 2025 at 2:20 PM
So extremely much fun to have Andrew Goodwin visiting Stockholm for the day!
Come on, perovskite! Fierce competition here
#MinCup25 Quarterfinal 2: It's #perovskite and its intriguing structure against #tugtupite's collection of optical tricks for this quarterfinal match!
Vote: www.mineralcup.org/2025/vote/r3...
Results: www.mineralcup.org/2025/results...
Vote: www.mineralcup.org/2025/vote/r3...
Results: www.mineralcup.org/2025/results...
Vote in Quarterfinal 2 — Mineral Cup
Click here to vote in Perovskite vs Tugtupite Photo credit: Domenico Preite and Géry Parent
www.mineralcup.org
September 26, 2025 at 4:41 AM
Come on, perovskite! Fierce competition here
Reposted by Hanna Boström
#MinCup25 Quarterfinal 2: It's #perovskite and its intriguing structure against #tugtupite's collection of optical tricks for this quarterfinal match!
Vote: www.mineralcup.org/2025/vote/r3...
Results: www.mineralcup.org/2025/results...
Vote: www.mineralcup.org/2025/vote/r3...
Results: www.mineralcup.org/2025/results...
Vote in Quarterfinal 2 — Mineral Cup
Click here to vote in Perovskite vs Tugtupite Photo credit: Domenico Preite and Géry Parent
www.mineralcup.org
September 26, 2025 at 12:11 AM
#MinCup25 Quarterfinal 2: It's #perovskite and its intriguing structure against #tugtupite's collection of optical tricks for this quarterfinal match!
Vote: www.mineralcup.org/2025/vote/r3...
Results: www.mineralcup.org/2025/results...
Vote: www.mineralcup.org/2025/vote/r3...
Results: www.mineralcup.org/2025/results...
How can you be a solid-state chemist and vote anything but #perovskite ?
#MinCup25 Round 2 Match 2: It's all about how minerals interact with humans as dramatic #stibnite faces off against futuristic #perovskite.
Vote: www.mineralcup.org/2025/vote/r2...
Results: www.mineralcup.org/2025/results...
Vote: www.mineralcup.org/2025/vote/r2...
Results: www.mineralcup.org/2025/results...
Vote in Round 2 Match 2 — Mineral Cup
Click here to vote in Stibnite vs Perovskite Photo credits: Gianandrea Ghirri and Enrico Bonacina
www.mineralcup.org
September 18, 2025 at 8:06 AM
How can you be a solid-state chemist and vote anything but #perovskite ?
I went away a week to ECM and while I wasn't looking, the group decided to double in size!
We now welcome new PhD students Nida and Qingqing and master student Katerina. During the autumn, we are also happy to host the internship students Simon and Mathias.
We now welcome new PhD students Nida and Qingqing and master student Katerina. During the autumn, we are also happy to host the internship students Simon and Mathias.
September 5, 2025 at 10:21 AM
I went away a week to ECM and while I wasn't looking, the group decided to double in size!
We now welcome new PhD students Nida and Qingqing and master student Katerina. During the autumn, we are also happy to host the internship students Simon and Mathias.
We now welcome new PhD students Nida and Qingqing and master student Katerina. During the autumn, we are also happy to host the internship students Simon and Mathias.
Refinements are always beautiful (well, almost), but this mixed NTE/PTE* sample probably gives the most appealing set of diffraction that I have ever come across! 🔥 ❄️
*Positive thermal expansion in one direction; negative thermal expansion in the other two
*Positive thermal expansion in one direction; negative thermal expansion in the other two
August 11, 2025 at 6:02 PM
Refinements are always beautiful (well, almost), but this mixed NTE/PTE* sample probably gives the most appealing set of diffraction that I have ever come across! 🔥 ❄️
*Positive thermal expansion in one direction; negative thermal expansion in the other two
*Positive thermal expansion in one direction; negative thermal expansion in the other two
Capillary alignment doesn't always work as planned...
August 5, 2025 at 1:40 PM
Capillary alignment doesn't always work as planned...
Paper alert! 🌊 🔥 💎 💡 🚿 🧲 ⚡
Arkadiy Simonov, Yevheniia Kholina and I have reviewed (briefly) the stimuli-responsive behaviour of Prussian blue analogues, and you can now read about it in @jmaterchem.rsc.org ☺️
www.doi.org/10.1039/D5TC...
Arkadiy Simonov, Yevheniia Kholina and I have reviewed (briefly) the stimuli-responsive behaviour of Prussian blue analogues, and you can now read about it in @jmaterchem.rsc.org ☺️
www.doi.org/10.1039/D5TC...
Stimuli-responsive Prussian blue analogues
The metal--cyanide frameworks known as Prussian blue analogues display a suite of diverse and tuneable properties. In particular, they are often highly susceptible to modification by external stimuli,...
www.doi.org
July 11, 2025 at 11:45 AM
Paper alert! 🌊 🔥 💎 💡 🚿 🧲 ⚡
Arkadiy Simonov, Yevheniia Kholina and I have reviewed (briefly) the stimuli-responsive behaviour of Prussian blue analogues, and you can now read about it in @jmaterchem.rsc.org ☺️
www.doi.org/10.1039/D5TC...
Arkadiy Simonov, Yevheniia Kholina and I have reviewed (briefly) the stimuli-responsive behaviour of Prussian blue analogues, and you can now read about it in @jmaterchem.rsc.org ☺️
www.doi.org/10.1039/D5TC...
Had a great time at #MC17 organised by @rsc.org! Fun to catch up with friends and colleages, see the wonderful posters and talk, and present our work in progress.
I always enjoy returning to 🏴 and of course, no Edinburgh visit is complete without a climb up Arthur's seat!
I always enjoy returning to 🏴 and of course, no Edinburgh visit is complete without a climb up Arthur's seat!
July 10, 2025 at 3:01 PM
Chemistry at Stockholm are looking for a computational colleague with a view towards sustainability.
Tenure-track position with a really good start-up package (I know, because I am on the same scheme)!
su.varbi.com/en/what:job/...
Tenure-track position with a really good start-up package (I know, because I am on the same scheme)!
su.varbi.com/en/what:job/...
Assistant professor in Materials Chemistry with focus on Computational Materials Design
Stockholm University invites applications for an assistant professorship and an associate professorship, WISE fellows, within the framework of the Wallenberg Initiative Material Science for Sustainabi
su.varbi.com
June 26, 2025 at 2:11 PM
Chemistry at Stockholm are looking for a computational colleague with a view towards sustainability.
Tenure-track position with a really good start-up package (I know, because I am on the same scheme)!
su.varbi.com/en/what:job/...
Tenure-track position with a really good start-up package (I know, because I am on the same scheme)!
su.varbi.com/en/what:job/...
I've done plenty of variable-pressure diffraction and (possibly) even more under variable temperature. But this weekend, I got to experience the joys of doing them both at the same time at Diamond. 💎
Please admire our (not entirely random) walk through the PT space...
Please admire our (not entirely random) walk through the PT space...
June 16, 2025 at 2:44 AM
I've done plenty of variable-pressure diffraction and (possibly) even more under variable temperature. But this weekend, I got to experience the joys of doing them both at the same time at Diamond. 💎
Please admire our (not entirely random) walk through the PT space...
Please admire our (not entirely random) walk through the PT space...
Glad to see this study out!
www.doi.org/10.1039/D5DT01192B
It is a metastudy of spin crossover in Hofmann complexes, as well as symmetry-mode analysis in ISODISTORT.
Also lots of firsts here: my first last-author paper, first group publication, and first paper on these compounds.
www.doi.org/10.1039/D5DT01192B
It is a metastudy of spin crossover in Hofmann complexes, as well as symmetry-mode analysis in ISODISTORT.
Also lots of firsts here: my first last-author paper, first group publication, and first paper on these compounds.
Relating structure, composition, and spin crossover properties in Hofmann complexes
Spin crossover (SCO) is attractive for applications within e.g. sensing or solid-state cooling,but controlling the properties is extremely challenging. Hofmann complexes, with formulaFeLx M(CN)4 ·G (L...
www.doi.org
June 13, 2025 at 3:08 PM
Glad to see this study out!
www.doi.org/10.1039/D5DT01192B
It is a metastudy of spin crossover in Hofmann complexes, as well as symmetry-mode analysis in ISODISTORT.
Also lots of firsts here: my first last-author paper, first group publication, and first paper on these compounds.
www.doi.org/10.1039/D5DT01192B
It is a metastudy of spin crossover in Hofmann complexes, as well as symmetry-mode analysis in ISODISTORT.
Also lots of firsts here: my first last-author paper, first group publication, and first paper on these compounds.
Though I would generally describe myself as a crystallographer, adding some spectroscopy every so often can be a lot of fun!
June 12, 2025 at 7:27 PM
Though I would generally describe myself as a crystallographer, adding some spectroscopy every so often can be a lot of fun!
There is a new world record for negative area compressibility!
A very nice and thorough study, which I had the pleasure of being a small part of 😊
doi.org/10.1021/jacs...
A very nice and thorough study, which I had the pleasure of being a small part of 😊
doi.org/10.1021/jacs...
Colossal Negative Area Compressibility in the Ferroelastic Framework Cu(tcm)
Copper(I) tricyanomethanide, Cu(tcm), is a flexible framework material that exhibits the strongest negative area compressibility (NAC) effect ever observed─a remarkable property with potential applications in pressure sensors, artificial muscles, and shock-absorbing devices. Under increasing pressure, Cu(tcm) undergoes two sequential phase transitions (tetragonal → orthorhombic → monoclinic): It has an initial tetragonal structure (I41md) at ambient conditions, but this structure only persists within a narrow pressure range; at 0.12(3) GPa, a pressure-induced ferroelastic phase transition occurs, transforming Cu(tcm) into a low-symmetry orthorhombic structure (Fdd2). The orthorhombic phase has a NAC of −108(14) TPa–1 in the b–c plane between 0.12(3) and 0.93(8) GPa. The NAC behavior is associated with framework hinge motion in a flexible framework with “wine-rack” topology. At 0.93(8) GPa, Cu(tcm) undergoes a second phase transition and transforms into a layered monoclinic structure (Cc) with topologically interpenetrating honeycomb networks. The monoclinic phase of Cu(tcm) exhibits a slight negative linear compressibility (NLC) of −1.1(1) TPa–1 along the a axis and a zero area compressibility of Kac = Ka + Kc = 0.0(4) TPa–1 in the a–c plane over the pressure range of 0.93–2.63 GPa. In contrast to the orthorhombic phase, its mechanism is understood as the pressure-driven dampening of layer “rippling,” which acts to increase the cross-sectional area of the layer at higher hydrostatic pressures. These findings have implications for understanding the underlying mechanism of NAC phenomenon in framework materials.
doi.org
May 14, 2025 at 6:40 PM
There is a new world record for negative area compressibility!
A very nice and thorough study, which I had the pleasure of being a small part of 😊
doi.org/10.1021/jacs...
A very nice and thorough study, which I had the pleasure of being a small part of 😊
doi.org/10.1021/jacs...
Campus tulips are out!
And of course worth pointing out that they are planted in a Frieze pattern🌷
And of course worth pointing out that they are planted in a Frieze pattern🌷
May 12, 2025 at 6:28 PM
Campus tulips are out!
And of course worth pointing out that they are planted in a Frieze pattern🌷
And of course worth pointing out that they are planted in a Frieze pattern🌷
Happy that our paper about Jahn-Teller distortions is part of this Chem Sci collection of most popular 2024 papers 😊
Chemical Biology
pubs.rsc.org/en/jour...
Energy & Environmental Chemistry
pubs.rsc.org/en/jour...
Inorganic Chemistry
pubs.rsc.org/en/jour...
Materials Chemistry
pubs.rsc.org/en/jour...
pubs.rsc.org/en/jour...
Energy & Environmental Chemistry
pubs.rsc.org/en/jour...
Inorganic Chemistry
pubs.rsc.org/en/jour...
Materials Chemistry
pubs.rsc.org/en/jour...
April 8, 2025 at 6:01 PM
Happy that our paper about Jahn-Teller distortions is part of this Chem Sci collection of most popular 2024 papers 😊
So fun to have Arkadiy visiting and talk about the fantastic work his group is doing.
A very good reminder that the average crystal structure really only give you parts of the story.
A very good reminder that the average crystal structure really only give you parts of the story.
April 4, 2025 at 12:09 PM
So fun to have Arkadiy visiting and talk about the fantastic work his group is doing.
A very good reminder that the average crystal structure really only give you parts of the story.
A very good reminder that the average crystal structure really only give you parts of the story.
Reposted by Hanna Boström
Reposted by Hanna Boström
You also geek out on disordered & defective materials? I and @hannabostroem.bsky.social are organizing a dedicated session at the coming 35th European #crystallography meeting: we'd love to see and showcase your research ✨
Submissions are open at ecm35.org until 30th April, consider joining us!
Submissions are open at ecm35.org until 30th April, consider joining us!
35th European Crystallographic Meeting
35th European Crystallographic Meeting
www.ecm35.org
March 5, 2025 at 9:22 AM
You also geek out on disordered & defective materials? I and @hannabostroem.bsky.social are organizing a dedicated session at the coming 35th European #crystallography meeting: we'd love to see and showcase your research ✨
Submissions are open at ecm35.org until 30th April, consider joining us!
Submissions are open at ecm35.org until 30th April, consider joining us!
February 21, 2025 at 6:03 AM
Cobalt* is red,
Copper* is blue,
Transition metals:
pretty as few!
*Aqueous divalent ions
#AcademicValentines
Copper* is blue,
Transition metals:
pretty as few!
*Aqueous divalent ions
#AcademicValentines
Hello Bluesky - 🤔 so are we doing #AcademicValentines this year? 🙏 😘
Roses is red,
Graphite's hexagonal.
And with shear stress,
the bonds turn tetrahedral
#ValentinesDay #AcademicValentines
Roses is red,
Graphite's hexagonal.
And with shear stress,
the bonds turn tetrahedral
#ValentinesDay #AcademicValentines
a valentine 's day greeting card with red and white hearts on a red background
ALT: a valentine 's day greeting card with red and white hearts on a red background
media.tenor.com
February 14, 2025 at 6:42 AM
Cobalt* is red,
Copper* is blue,
Transition metals:
pretty as few!
*Aqueous divalent ions
#AcademicValentines
Copper* is blue,
Transition metals:
pretty as few!
*Aqueous divalent ions
#AcademicValentines