Minggao Feng
@ffmmgg.bsky.social
Compchem PhD at Cooper's Group @Liverpool
Pinned
Minggao Feng
@ffmmgg.bsky.social
· Jul 18
Understanding and predicting crystals’ properties is a key element of materials design, and a new transformer-based model can do it quickly and accurately. #ChemSky
‘CrystalGPT’ set to enhance how chemists design crystals in silico
Model for predicting molecular crystal properties is readily adaptable to specific tasks, even with limited data
www.chemistryworld.com
Excited to share that our latest work on organic crystal transformer (MCRT) has been featured in Chemistry World! 🎉 This model accelerates organic materials discovery by predicting properties with unprecedented accuracy. Check out the article and our paper for more details!
Reposted by Minggao Feng
L2M3OF: A large language multimodal model for metal-organic frameworks arxiv.org/pdf/2510.20976
November 3, 2025 at 9:30 AM
L2M3OF: A large language multimodal model for metal-organic frameworks arxiv.org/pdf/2510.20976
Reposted by Minggao Feng
Reposted by Minggao Feng
Just about ready for our first workshop on mol-cspy: our source software for crystal structure prediction
gitlab.com/mol-cspy/mol...
A massive thank you to the research team in getting material together for this.
#compchemsky #chemsky
gitlab.com/mol-cspy/mol...
A massive thank you to the research team in getting material together for this.
#compchemsky #chemsky
September 24, 2025 at 4:10 PM
Just about ready for our first workshop on mol-cspy: our source software for crystal structure prediction
gitlab.com/mol-cspy/mol...
A massive thank you to the research team in getting material together for this.
#compchemsky #chemsky
gitlab.com/mol-cspy/mol...
A massive thank you to the research team in getting material together for this.
#compchemsky #chemsky
Reposted by Minggao Feng
Thank you to the organisers of the "from molecules to materials" meeting in Bologna for inviting me to give a keynote talk.
Among other things, I spoke about @aichemyhub.bsky.social-funded large-scale crystal structure prediction and transferable ML potentials: doi.org/10.1039/D4FD...
#compchemsky
Among other things, I spoke about @aichemyhub.bsky.social-funded large-scale crystal structure prediction and transferable ML potentials: doi.org/10.1039/D4FD...
#compchemsky
September 12, 2025 at 8:42 AM
Thank you to the organisers of the "from molecules to materials" meeting in Bologna for inviting me to give a keynote talk.
Among other things, I spoke about @aichemyhub.bsky.social-funded large-scale crystal structure prediction and transferable ML potentials: doi.org/10.1039/D4FD...
#compchemsky
Among other things, I spoke about @aichemyhub.bsky.social-funded large-scale crystal structure prediction and transferable ML potentials: doi.org/10.1039/D4FD...
#compchemsky
Reposted by Minggao Feng
“CrystalNets: a web app for topology determination of crystalline structures” — our latest preprint on @chemrxiv.org doi.org/10.26434/che...
September 4, 2025 at 12:07 PM
“CrystalNets: a web app for topology determination of crystalline structures” — our latest preprint on @chemrxiv.org doi.org/10.26434/che...
Reposted by Minggao Feng
I'm very pleased to say my first preprint, with @graemeday.bsky.social and @micheleceriotti.bsky.social is now online!
This is the main work of my PhD, adapting a similarity kernel to be more suited for exploring molecular CSP landscapes
#compchemsky #chemsky #compchem
doi.org/10.26434/che...
This is the main work of my PhD, adapting a similarity kernel to be more suited for exploring molecular CSP landscapes
#compchemsky #chemsky #compchem
doi.org/10.26434/che...
An Adapted Similarity Kernel and Generalised Convex Hull for Molecular Crystal Structure Prediction
We adapted an existing approach to identifying stabilisable crystal structures from prediction sets - the Generalised Convex Hull (GCH) - to improve its application to molecular crystal structures. Th...
doi.org
September 3, 2025 at 9:54 AM
I'm very pleased to say my first preprint, with @graemeday.bsky.social and @micheleceriotti.bsky.social is now online!
This is the main work of my PhD, adapting a similarity kernel to be more suited for exploring molecular CSP landscapes
#compchemsky #chemsky #compchem
doi.org/10.26434/che...
This is the main work of my PhD, adapting a similarity kernel to be more suited for exploring molecular CSP landscapes
#compchemsky #chemsky #compchem
doi.org/10.26434/che...
First time I tried making steamed buns, it seems quite successful😄
August 30, 2025 at 11:48 PM
First time I tried making steamed buns, it seems quite successful😄
Reposted by Minggao Feng
If you're at the 25th European crystallographic meeting in Poznan, I'll recommend MS43 – "Simulating and predicting structure" at 14:00 on Wed.
Pedro Juan Royo from our group will be presenting on our methods for mapping the interconnectivity of predicted crystal structures.
#CompChemSky #ChemSky
Pedro Juan Royo from our group will be presenting on our methods for mapping the interconnectivity of predicted crystal structures.
#CompChemSky #ChemSky
August 26, 2025 at 10:29 AM
If you're at the 25th European crystallographic meeting in Poznan, I'll recommend MS43 – "Simulating and predicting structure" at 14:00 on Wed.
Pedro Juan Royo from our group will be presenting on our methods for mapping the interconnectivity of predicted crystal structures.
#CompChemSky #ChemSky
Pedro Juan Royo from our group will be presenting on our methods for mapping the interconnectivity of predicted crystal structures.
#CompChemSky #ChemSky
Reposted by Minggao Feng
SDLs raise some new safety questions - here we introduce Chemist Eye, a distributed safety monitoring system designed to enhance situational awareness in SDLs. 👏 for Francisco Munguia-Galeano, who tested it for accident recognition by lying repeatedly on the lab floor. www.arxiv.org/pdf/2508.05148
August 12, 2025 at 9:36 AM
SDLs raise some new safety questions - here we introduce Chemist Eye, a distributed safety monitoring system designed to enhance situational awareness in SDLs. 👏 for Francisco Munguia-Galeano, who tested it for accident recognition by lying repeatedly on the lab floor. www.arxiv.org/pdf/2508.05148
Reposted by Minggao Feng
Understanding and predicting crystals’ properties is a key element of materials design, and a new transformer-based model can do it quickly and accurately. #ChemSky
‘CrystalGPT’ set to enhance how chemists design crystals in silico
Model for predicting molecular crystal properties is readily adaptable to specific tasks, even with limited data
www.chemistryworld.com
July 17, 2025 at 2:32 PM
Understanding and predicting crystals’ properties is a key element of materials design, and a new transformer-based model can do it quickly and accurately. #ChemSky
Excited to share that our latest work on organic crystal transformer (MCRT) has been featured in Chemistry World! 🎉 This model accelerates organic materials discovery by predicting properties with unprecedented accuracy. Check out the article and our paper for more details!
Understanding and predicting crystals’ properties is a key element of materials design, and a new transformer-based model can do it quickly and accurately. #ChemSky
‘CrystalGPT’ set to enhance how chemists design crystals in silico
Model for predicting molecular crystal properties is readily adaptable to specific tasks, even with limited data
www.chemistryworld.com
July 18, 2025 at 10:46 PM
Excited to share that our latest work on organic crystal transformer (MCRT) has been featured in Chemistry World! 🎉 This model accelerates organic materials discovery by predicting properties with unprecedented accuracy. Check out the article and our paper for more details!
Reposted by Minggao Feng
Check out this new @chemistryworld.com story from Kirsty McRoberts based on recent work by @graemeday.bsky.social, Xenophon Evangelopoulos, and @aicooper.bsky.social published in Chemical Science!
Read the original article for free here:
doi.org/10.1039/D5SC...
#ChemSky #CompChemSky
Read the original article for free here:
doi.org/10.1039/D5SC...
#ChemSky #CompChemSky
July 18, 2025 at 2:20 PM
Check out this new @chemistryworld.com story from Kirsty McRoberts based on recent work by @graemeday.bsky.social, Xenophon Evangelopoulos, and @aicooper.bsky.social published in Chemical Science!
Read the original article for free here:
doi.org/10.1039/D5SC...
#ChemSky #CompChemSky
Read the original article for free here:
doi.org/10.1039/D5SC...
#ChemSky #CompChemSky
Reposted by Minggao Feng
@chemistryworld.com article on our recent @chemicalscience.rsc.org paper. #compchemsly #chemsky
'CrystalGPT’ set to enhance how chemists design crystals in silico
www.chemistryworld.com/news/crystal...
'CrystalGPT’ set to enhance how chemists design crystals in silico
www.chemistryworld.com/news/crystal...
‘CrystalGPT’ set to enhance how chemists design crystals in silico
Model for predicting molecular crystal properties is readily adaptable to specific tasks, even with limited data
www.chemistryworld.com
July 18, 2025 at 7:13 PM
@chemistryworld.com article on our recent @chemicalscience.rsc.org paper. #compchemsly #chemsky
'CrystalGPT’ set to enhance how chemists design crystals in silico
www.chemistryworld.com/news/crystal...
'CrystalGPT’ set to enhance how chemists design crystals in silico
www.chemistryworld.com/news/crystal...
Reposted by Minggao Feng
Nice work @graemeday.bsky.social and @aicooper.bsky.social - you made it easy for me to comment on! Cool stuff 😎
www.chemistryworld.com/news/crystal...
@chemistryworld.com
www.chemistryworld.com/news/crystal...
@chemistryworld.com
‘CrystalGPT’ set to enhance how chemists design crystals in silico
Model for predicting molecular crystal properties is readily adaptable to specific tasks, even with limited data
www.chemistryworld.com
July 18, 2025 at 3:00 PM
Nice work @graemeday.bsky.social and @aicooper.bsky.social - you made it easy for me to comment on! Cool stuff 😎
www.chemistryworld.com/news/crystal...
@chemistryworld.com
www.chemistryworld.com/news/crystal...
@chemistryworld.com
Reposted by Minggao Feng
Just out, "Selective CO2 Adsorption in Ultrahydrophobic Molecular Pyrene Frameworks by Computational Design" pubs.acs.org/doi/10.1021/.... Sam Harding was the student who led this. MeTBAP-α is one of the most hydrophobic porous solids reported, and this came out of a priori computational design 🚫💧
June 21, 2025 at 10:52 AM
Just out, "Selective CO2 Adsorption in Ultrahydrophobic Molecular Pyrene Frameworks by Computational Design" pubs.acs.org/doi/10.1021/.... Sam Harding was the student who led this. MeTBAP-α is one of the most hydrophobic porous solids reported, and this came out of a priori computational design 🚫💧
Reposted by Minggao Feng
Now published in @chemicalscience.rsc.org and highlighted as a #ChemSciPicks. Great work by @ffmmgg.bsky.social. Collab with @aicooper.bsky.social
A Universal Foundation Model for Transfer Learning in Molecular Crystals
#compchemsky #chemsky
@unisouthampton.bsky.social @liverpooluni.bsky.social
A Universal Foundation Model for Transfer Learning in Molecular Crystals
#compchemsky #chemsky
@unisouthampton.bsky.social @liverpooluni.bsky.social
This week's #ChemSciPicks comes from @graemeday.bsky.social (University of Southampton), @ffmmgg.bsky.social, Chengxi Zhao, Xenphon Evangelopoulos, and @aicooper.bsky.social (University of Liverpool).
Read the full paper here: doi.org/10.1039/D5SC...
#ChemSky
Read the full paper here: doi.org/10.1039/D5SC...
#ChemSky
June 18, 2025 at 8:57 PM
Now published in @chemicalscience.rsc.org and highlighted as a #ChemSciPicks. Great work by @ffmmgg.bsky.social. Collab with @aicooper.bsky.social
A Universal Foundation Model for Transfer Learning in Molecular Crystals
#compchemsky #chemsky
@unisouthampton.bsky.social @liverpooluni.bsky.social
A Universal Foundation Model for Transfer Learning in Molecular Crystals
#compchemsky #chemsky
@unisouthampton.bsky.social @liverpooluni.bsky.social
Reposted by Minggao Feng
This week's #ChemSciPicks comes from @graemeday.bsky.social (University of Southampton), @ffmmgg.bsky.social, Chengxi Zhao, Xenphon Evangelopoulos, and @aicooper.bsky.social (University of Liverpool).
Read the full paper here: doi.org/10.1039/D5SC...
#ChemSky
Read the full paper here: doi.org/10.1039/D5SC...
#ChemSky
June 18, 2025 at 9:00 AM
This week's #ChemSciPicks comes from @graemeday.bsky.social (University of Southampton), @ffmmgg.bsky.social, Chengxi Zhao, Xenphon Evangelopoulos, and @aicooper.bsky.social (University of Liverpool).
Read the full paper here: doi.org/10.1039/D5SC...
#ChemSky
Read the full paper here: doi.org/10.1039/D5SC...
#ChemSky
Reposted by Minggao Feng
Have a look through our most popular 2024 papers in Chemical Science in Physical, Computational & Theoretical Chem. #chemsky #compchemsky
and it's all Open Access.
and it's all Open Access.
Our #ChemSciMostPopular collection for work in Physical, Computational & Theoretical Chemistry is now available online!
The collection, like all papers published in the journal, is entirely free to read:
pubs.rsc.org/en/jour...
Check out some of these 🔥HOT🔥 articles:
The collection, like all papers published in the journal, is entirely free to read:
pubs.rsc.org/en/jour...
Check out some of these 🔥HOT🔥 articles:
June 17, 2025 at 1:37 PM
Have a look through our most popular 2024 papers in Chemical Science in Physical, Computational & Theoretical Chem. #chemsky #compchemsky
and it's all Open Access.
and it's all Open Access.
Reposted by Minggao Feng
Our #ChemSciMostPopular collection for work in Physical, Computational & Theoretical Chemistry is now available online!
The collection, like all papers published in the journal, is entirely free to read:
pubs.rsc.org/en/jour...
Check out some of these 🔥HOT🔥 articles:
The collection, like all papers published in the journal, is entirely free to read:
pubs.rsc.org/en/jour...
Check out some of these 🔥HOT🔥 articles:
June 16, 2025 at 2:52 PM
Our #ChemSciMostPopular collection for work in Physical, Computational & Theoretical Chemistry is now available online!
The collection, like all papers published in the journal, is entirely free to read:
pubs.rsc.org/en/jour...
Check out some of these 🔥HOT🔥 articles:
The collection, like all papers published in the journal, is entirely free to read:
pubs.rsc.org/en/jour...
Check out some of these 🔥HOT🔥 articles:
Reposted by Minggao Feng
New paper from Jun Jiang and colleagues - "Automatic Discovery and Optimal Generation of Amorphous High-
Entropy Electrocatalysts" using a mobile robotic chemist @jacs.acspublications.org #robots #chemsky pubs.acs.org/doi/10.1021/...
Entropy Electrocatalysts" using a mobile robotic chemist @jacs.acspublications.org #robots #chemsky pubs.acs.org/doi/10.1021/...
Automatic Discovery and Optimal Generation of Amorphous High-Entropy Electrocatalysts
Amorphous materials are ubiquitous in nature and are widely used for many industrial applications, including catalysis, energy storage, and environmental science. However, significant challenges remain in designing and optimizing amorphous high-entropy materials because of the lack of well-defined structure–activity relationships. Here, we use synthesis systems to discover and optimize amorphous high-entropy oxyhydroxide electrocatalysts within the entire design space for the alkaline oxygen evolution reaction. Amorphous high-entropy electrocatalysts are derived from ultrathin 2D coordination polymers composed of six nonprecious metal elements that were selected from top 16 candidate metal elements involved in oxygen evolution reaction (OER)-related literature searching, which can then be transformed in situ into amorphous oxyhydroxides. Leveraging machine learning (ML) techniques, we establish a composition–activity relationship and thereby identify an optimal composition group by traversing the entire design space (over 1,900,000 compositions). Our ML-model is validated by using 100 compositions in the high-activity region and 588 compositions in the low-activity region, which results in excellent recall values of nearly 100%. The predicted optimal amorphous high-entropy electrocatalyst demonstrates an ultralow overpotential of 159 mV at a current density of 10 mA cm–2 for the alkaline OER in a 1 M KOH while exhibiting ultralong durability 10,218 h under a practical current density of 1 A cm–2 in a 6 M KOH. Our work provides a general strategy for the automatic discovery and optimization of amorphous high-entropy oxyhydroxide electrocatalysts and could significantly impact the development of other amorphous high-entropy materials.
pubs.acs.org
June 13, 2025 at 11:29 AM
New paper from Jun Jiang and colleagues - "Automatic Discovery and Optimal Generation of Amorphous High-
Entropy Electrocatalysts" using a mobile robotic chemist @jacs.acspublications.org #robots #chemsky pubs.acs.org/doi/10.1021/...
Entropy Electrocatalysts" using a mobile robotic chemist @jacs.acspublications.org #robots #chemsky pubs.acs.org/doi/10.1021/...
Reposted by Minggao Feng
Carmine is a red pigment used since antiquity to color textiles, in paintings by Rembrandt and Van Gogh, and today as a food coloring agent (E120).
Very excited that @esvenssongrape.bsky.social finally reveals the crystal structure of carmine by #3DED!
pubs.acs.org/doi/10.1021/...
Very excited that @esvenssongrape.bsky.social finally reveals the crystal structure of carmine by #3DED!
pubs.acs.org/doi/10.1021/...
Brilliantly Red: The Structure of Carmine
Carmine is a red pigment made from dried cochineal, a scale insect that has been a source of brilliant scarlet reds in clothing and art for more than two millennia, with records dating back to 700 BC....
pubs.acs.org
June 3, 2025 at 4:06 PM
Carmine is a red pigment used since antiquity to color textiles, in paintings by Rembrandt and Van Gogh, and today as a food coloring agent (E120).
Very excited that @esvenssongrape.bsky.social finally reveals the crystal structure of carmine by #3DED!
pubs.acs.org/doi/10.1021/...
Very excited that @esvenssongrape.bsky.social finally reveals the crystal structure of carmine by #3DED!
pubs.acs.org/doi/10.1021/...
Reposted by Minggao Feng
💡Big ideas need big backing…
Something major is coming — our Large Funding Call is almost here, with up to £1M in grants up for grabs! 💰🚀
Think bold. Think transformative.
Details landing soon. Stay close. 👀
#FundingOpportunity #ResearchFunding #Innovation #BigIdeasBigImpact #AIchemyHub
Something major is coming — our Large Funding Call is almost here, with up to £1M in grants up for grabs! 💰🚀
Think bold. Think transformative.
Details landing soon. Stay close. 👀
#FundingOpportunity #ResearchFunding #Innovation #BigIdeasBigImpact #AIchemyHub
May 22, 2025 at 8:02 AM
💡Big ideas need big backing…
Something major is coming — our Large Funding Call is almost here, with up to £1M in grants up for grabs! 💰🚀
Think bold. Think transformative.
Details landing soon. Stay close. 👀
#FundingOpportunity #ResearchFunding #Innovation #BigIdeasBigImpact #AIchemyHub
Something major is coming — our Large Funding Call is almost here, with up to £1M in grants up for grabs! 💰🚀
Think bold. Think transformative.
Details landing soon. Stay close. 👀
#FundingOpportunity #ResearchFunding #Innovation #BigIdeasBigImpact #AIchemyHub
Reposted by Minggao Feng
There is a lot in this paper beyond just an updated set of MOF structures. For example, we introduce a new version of MOFid that should be more useful for ML and data analytics. Check it out.
May 24, 2025 at 6:51 PM
There is a lot in this paper beyond just an updated set of MOF structures. For example, we introduce a new version of MOFid that should be more useful for ML and data analytics. Check it out.