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tomATTO
@tomATTOsecond
TomATTO aims to capture ultrafast -attosecond- electron dynamics to enhance solar energy conversion efficiency.
🇪🇺 #ERCSyG @ERC_research Coord: @imdeanano
Madrid and Milano
Joined October 2021
142 Following
147 Followers
112 Posts
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How much time fits into one second?
🕕 If we could control processes at the SHORTEST TIME SCALE, can you imagine the possibilities?
A team of researchers at @imdea_nano @uam_madrid @unicomplutense @polimi are already working on this dream project.
🧵 A THREAD
Esta semana recibimos la visita de los alumnos del IES Luis García Berlanga.
Han conocido cómo los proyectos europeos #TOMATTO y #QUATTO controlan la materia en la escala de tiempo de #attosegundos.
@tomattosecond #EUfunded
The @tomATTOsecond consortium meets again in Madrid @imdeanano to discuss the latest progress of the project.
Participants will also get an exclusive first preview of the project documentary—coming very soon. Stay tuned!
🍅 https://t.co/UPXXaIuSKH
@ERC_research #EUfunded
New research 📄 @tomATTOsecond researchers show the importance of considering nuclear motion for a correct interpretation of photoionization in a water molecule.
See the #OpenAccess paper in @PhysRevLett https://t.co/2J6HHatkNT
Who to follow
PhotoPhys_IMDEA
@PhotoPhys_IMDEA
Femtosecond spectroscopy, energy/charge transport, conjugated polymers & molecules, MOFs, 2D / coloidal semiconductors, light-energy conversion, luminescence
Mohammed Th. Hassan
@Prof_M_Hassan
Prof. of Physics&Optical Sciences. Developing the fastest electron microscope “ Attomicroscopy” for imaging the electron in action.Personal account and opinions
quantumbattles
@quantumbattles
Conference dedicated to areas of tension in #attoscience. #AttoFridays series since spring 2021 (back in October). Next #quantumbattles: 28-30/06/2023 @UCLMaps
New computational method captures molecular dynamics after ultrafast excitation.
Researchers capture how electrons and nuclei interact after #attosecond light excitation in a numerically inexpensive way.
⚡️ https://t.co/FLCu1kbxoC
#IMDEAnanoPublications @tomATTOsecond
Filming light at 1 quadrillion FPS? Yes 🤯
This video by Veritasium uses a model by Professor Fernando Martín (UAM/IMDEA Nanociencia) to explain how scientists make sense of the trillions of frames captured in a second!
📽️https://t.co/UPImJg2XWZ
Filming light at 1 quadrillion FPS? Yes 🤯
This video by @veritasium uses a model by Professor Fernando Martín (@uam_madrid) to explain how scientists make sense of the trillions of frames captured in a second!
📽️https://t.co/UPImJg2XWZ
What if you keep slowing down?
The results have been published in the journal 'Ultrafast Science'.
🔗 Read the summary: https://t.co/Ds5WnCaPJP
📄 The #OpenAccess paper: https://t.co/xiypsZTXY5
Researchers from the @tomATTOsecond project use attosecond spectroscopy to explore the ultrafast dynamics of biphenyl.
https://t.co/Ds5WnCaPJP
Charge transfer in molecules is closely linked to the movement of atoms. In particular, for biphenyl...👇️(read the thread)🧵
Charge transfer in biphenyl occurs in several stages.
1️⃣ First, the molecule ‘flattens,’ facilitating ultra-fast charge movement.
2️⃣ Then, charge distribution oscillates.
🔁 These observations highlight how electronic and nuclear dynamics are closely connected.
(continues) 🧵
JUST PUBLISHED: Ultrafast Structural Reorganization and Charge Dynamics in a Photoionized Donor–Acceptor Biphenyl Molecule
Click here to read the latest free, Open Access article from Ultrafast Science: https://t.co/8RRIWjrXel
The @tomATTOsecond meeting in Milan wasn't just about exchanging scientific knowledge. We also filmed some exciting footage! Stay tuned for the release...
🍅 https://t.co/4LcmMpTDWn
#ScienceInAction #SciArt #ScienceAndCinema
Researchers of the @ERC_research TomATTO project gathered in Milan @polimi for a two-day meeting to discuss the latest advancements and explore future actions.
Attendees had a chance to tour the remarkable ultrafast optics lab at @dfis_polimi.
↪️ https://t.co/4LcmMpTDWn
.@polimi acoge la primera reunión del proyecto sinérgico @ERC_research @TomATTOsecond que agrupa 3 grupos de investigación en @imdea_nano @uam_madrid @unicomplutense @dfis_polimi hacia un ambicioso objetivo: mejorar la eficiencia de las células solares.
🔆https://t.co/u6rS9hYR4D
The @tomATTOsecond Consortium has gathered in Milano @dfis_polimi @polimi. Great to see each other in 3D! #networking #inperson
TOMATTO aims to capture #ultrafast electron dynamics to enhance solar energy conversion efficiency.
🍅 https://t.co/TW33vAOobn
@ERC_research #EUfunded
Rocío Borrego @rociobv, investigadora @CNR_IFN @polimi @dfis_polimi, hablará hoy sobre láseres ultrarrápidos y la #attoquímica, en el programa "Investigadores por el mundo" de @RadioLibertadES.
📻 ¡No te lo pierdas! A las 19:30 👉 https://t.co/TVe6ovvL82
Ile czasu zajmuje elektronowi zainicjowanie migracji ładunku w cząsteczce? Odpowiedzi na to pytanie poszukiwali naukowcy wspierani przez UE.
https://t.co/Q1UrsroVon
Wie lange dauert es, bis ein Elektron eine Ladungsmigration in Molekülen anregt? Von der EU unterstützte Forschende haben die Antwort.
https://t.co/sjtJKeVyCY @CORDIS_EU
Combien de temps faut-il à un électron pour amorcer la migration de la charge dans les molécules? Des chercheurs soutenus par l’UE ont la réponse.
https://t.co/Rtd1dI2FLy
¿Cuánto tarda un electrón en iniciar la migración de carga en las moléculas? Investigadores @IMDEA_Nano @UAM_Madrid @quimicasUCM @unicomplutense @polimi respaldados por la Unión Europea tienen la respuesta.
Léelo en @cordis_eu en 6 idiomas 🇪🇸🇮🇹🇬🇧🇫🇷🇩🇪🇵🇱: https://t.co/XTpTfyGIP1
Investigadores @polimi @UAM_Madrid @IMDEA_Nano @unicomplutense revelan los tiempos necesarios para que un electrón se transfiera de un átomo al ENLACE QUÍMICO adyacente y los cambios estructurales concomitantes.
↪️https://t.co/mEKQQSv77N
@tomATTOsecond @ERC_Research #ERCSyG
How long does it take for an electron to initiate charge migration in molecules? EU-backed researchers have the answer.
Read it on @cordis_eu in 6 languages 🇪🇸🇮🇹🇬🇧🇩🇪🇫🇷🇵🇱:
https://t.co/L1TjnzTOhe
Ultra-high speed camera for molecules ▶️ Attosecond spectroscopy captures the electron transfer dynamics in organic molecules.
📹https://t.co/V5k5QOACxb
1/3 #IMDEAnanoPublications @tomATTOsecond
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