Tag Archives: Attochemistry

Professor Fernando Martín receives the King Jaime I Award for Basic Research

Posted on November 1, 2017 by beatriz.martin

Fernando Martín, Professor of the Department of Chemistry of the Faculty of Sciences of the UAM, received on October 30 the King Jaime I Prize for Basic Research in a ceremony held in Valencia, in the Hall of Columns of the Lonja of Merchants.

The event was chaired by His Majesty Queen Letizia and was attended by the President of the Generalitat Valenciana, the Mayor of Valencia and the President of the Valencian Foundation for Advanced Studies. The ceremony was attended on behalf of the UAM by its Rector, Rafael Garesse, the dean of the Faculty of Sciences, José Mª Carrascosa, the Director of the Department of Chemistry, Otilia Mó, and Professor Manuel Yáñez who was the Director of the Doctoral thesis by Fernando Martín.

The jury, chaired by Roger Kornberg, Nobel Prize in Chemistry 2006, recognized the merits of Fernando Martín in “the foundation of the field of theoretical attochemistry, which makes it possible to calculate the movement of electrons and, therefore, the prediction of chemical reactions”. This discipline, consolidated during the last years, has opened the way to a new chemistry in which the obtaining of new compounds would be possible from reactions that do not follow the conventional patterns. The research of Professor Fernando Martín has a strong multidisciplinary character, which has led him to relevant discoveries in various areas: lasers physics, physical chemistry, quantum chemistry, atomic and molecular physics, surface physics, computational modelling, organic and inorganic chemistry , physics of accelerators and biophysics.

With more than 400 international publications, Professor Fernando Martín has been invited as a lecturer in the main forums of his research area, and has attracted important funding from the European Union, among others, an ERC Advanced Grant project. This award is added to others previously obtained as the King Juan Carlos I Research Prize (2001), or the Spanish Society of Chemistry in Physical Chemistry Prize (2010).

For more information:

See the jury’s decision and interview to the awardee here: http://www.fprj.es/es/investigacion-basica/fernando-martin-garcia
Award ceremoy’s gallery: http://www.fprj.es/es/galer%C3%ADa/
Full retransmission of the ceremony:
Media appearances: https://www.xchem.uam.es/xchem/?p=3519

Posted in News | Tagged Attochemistry, ERC Advanced Grant, EU funded, King Jaime I Prize | Leave a comment

Birth of the ultrafast chemistry: Attochemistry

Posted on July 18, 2017 by beatriz.martin

Editor: Kathy/Gloria JEM: Diane
RTP: Rebecca Horseman

The publication of a review on the foundations of a new scientific discipline that pursues to control the movement of electrons in molecules using attosecond methodologies (see Chem. Rev., 2017, 117 (16), pp 10760–10825, DOI: 10.1021/acs.chemrev.6b00453), has appeared, among others, in the following media:

Institutional web sites (Universidad Autonoma de Madrid) scientific news Agencies (SINC, Madrimasd), radio promammes (Radio Euskadi, La mecanica del caracol) various scientific blogs and digital media (Noticias Informativos Telecinco, Innovaticias, Innovaspain, Noticias Cuatro, NewTech, Noticias de la Ciencia, Madrid Norte, Te interesa, Ecodiario, La informacion).

Listen to it!:

Appearance in the radio program “La mecanica del Caracol”, on July 14 2017, at Radio Euskadi.
http://www.ivoox.com/nace-attoquimica-quimica-ultrarrapida-trastornos-mentales-audios-mp3_rf_19813851_1.html
Interview to Prof. Martin at the Spanish radio program “España Vuelta y Vuelta”, on July 13, 2017, at RNE.

Posted in Press | Tagged Attochemistry, King Jaime I Prize, ultrafast electron dynamics | Leave a comment

Birth of the ultrafast chemistry: Attochemistry

Posted on July 10, 2017 by beatriz.martin

Spanish and Italian scientists have laid down the foundations of a new scientific discipline that pursues to control the movement of electrons in molecules using attosecond methodologies and may open the door to a new way of doing chemistry.

Figure. Evolution of the charge density induced by an attosecond pulse on the aminoacid phenylalanine (purple: charge excess; yellow: charge default).

Source: UAM Gazette (July 6, 2017)

An article published in the journal Chemical Reviews, led by Fernando Martín (Universidad Autónoma de Madrid, IMDEA Nanoscience, IFIMAC Condensed Matter Center) and by Mauro Nisoli (Polytenico de Milano) details the bases and the most important milestones of a new scientific discipline: attochemistry.

Editor: Kathy/Gloria JEM: Diane
RTP: Rebecca Horseman

In general, this discipline seeks to control and manipulate the movement of electrons that form chemical bonds in molecules, using attosecond light pulses (1 attosecond is equivalent to 10^-18 seconds). According to the authors, since the structure and reactivity of matter arises from the properties of chemical bonds, attochemistry may enable new reactions and have a direct impact on the development of new substances and materials, making possible a better understanding of the electronic processes that occur in chemical and biological systems.

The study documents the first real-time observation of charge migration processes on molecules of biological interest (as the amino acid phenylalanine, see figure 1), with unprecedented temporal resolution. It also shows the first signs of control of charge migration processes. These observations were made by first irradiating the molecules with a pulse (or pulses) of attosecond light, followed by a second pulse of equal or greater duration, which captures an image of the electronic motion at a particular instant. The variation of the elapsed time between the first and second pulses provides a sequence of images of the electronic motion, which allows the selection of the precise instant in which the localization of the charge may favour (or prevent) a certain chemical reaction .

From femtochemistry to attochemistry

Chemical reactions are the result of bond-formation and bond-breakage and, during this process, atoms in molecules may arrange to form a new substance. Reactivity, the essence of chemistry, is a dynamic process that results from the movement of electrons and atomic nuclei. These movements occur in an ultrafast time scale, ranging from femtoseconds (10^-15 seconds), typical of nuclear movement, to attoseconds, typical of electronic movement.

In this sense, all the chemistry could be understood as femtochemistry or attochemistry. Femtochemistry, born in the second half of the last century, is now a well-established scientific discipline whose main objective is to control a chemical reaction by directing the movement of the nuclei of the involved molecules using femtosecond pulses of light. Today, femtosecond lasers are widely used in most areas of the chemical sciences and in many laboratories.

The 21st century has brought remarkable advances in the manufacture of coherent light sources that allow the generation of even shorter pulses of light, with durations that reach the few tens of attoseconds, in the extreme ultraviolet frequency region.

These advances have led to a substantial evolution of laser technology in recent years, enabling for the first time a direct control of the ultra-rapid movement of electrons within a molecule and, consequently, the nuclear dynamics induced by such electronic movement, which occurs at longer time scales.

Since the distribution of electrons in the molecule, or electronic density, is ultimately responsible for the formation and breaking of bonds, the control of this movement has opened the door to a new way of doing chemistry.

This research has received funds from the European Research Council, under the ERC Advanced Grant nº 290853, and the principal investigator of this project, Fernando Martín, has been awarded with the prize King Jaime I 2017, in the category of Basic Research.

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Reference: Attosecond electron dynamics in molecules. M. Nisoli, P. Decleva, F. Calegari, A. Palacios and F. Martín, Chem. Rev., 2017, 117 (16), pp 10760–10825, DOI: 10.1021/acs.chemrev.6b00453

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Fernando Martín, King Jaime I Prize in Basic Research

Posted on June 8, 2017 by beatriz.martin

Fernando Martín, Full Professor at the Chemistry Department of the Universidad Autónoma de Madrid and researcher at IMDEA-Nanociencia and IFIMAC Condensed Matter Physics Center, has been awarded the King Jaime I Prize in Basic Research in its 2017 edition. The jury has recognized his role in the establishment of the theoretical foundations of attochemistry. This emerging scientific field aims at observing and manipulating the electronic motion in atoms and molecules in their natural time scale, the attosecond (10^-18 seconds), so as to control the chemical properties of substances and modify their natural behaviour. Although the first steps in this new scientific field date back only a decade ago, it is expected to become a multidisciplinary tool with numerous applications in chemistry, physics or biology, for example, to control the evolution of a chemical reaction, obtain images of charge transfer processes in individual molecules or influence the biological response to radiation, whether desired or undesired.

The demonstration that attosecond science can have a large impact in chemistry came in 2014, when, with the help of sophisticated computational modelling, it was shown (Science 346, 336) that experiments in which the amino acid phenylalanine is irradiated with attosecond laser pulses are indeed able to monitor the movement of electrons, and hence to modify the properties and chemical behaviour of the molecule.

According to the award-winning, the next steps in this field point to the use of attosecond techniques to prevent undesired chemical reactions, as those biological processes leading to adverse effects or, conversely, to induce chemical reactions that are currently impossible, which could lead to the production of new substances or materials. According to a recent article (Chemical Reviews, DOI: 10.1021/acs.chemrev.6b00453), the measurement and control of electronic motion in complex molecular structures is a formidable challenge that must be tackled in a multidisciplinary way, including intensive theoretical modelling in supercomputers, and may have a strong impact In chemistry for years to come.

King Jaime I Prizes

The Rey Jaime I Award recognizes researchers whose work is highly significant and has been developed for the most part in Spain. Throughout its 28 editions, it has been awarded to more than 100 researchers, the most important figures of the scientific, technological and entrepreneurial world of Spain. Many of the winners have received, during their careers, other relevant national and international awards.

Fernando Martín was born in Madrid, Spain, in 1961. He graduated in Chemistry in 1984 and Physics in 1986 at the Universidad Autónoma de Madrid. He received his Ph.D. at the same university in 1986. He completed his postdoctoral studies at the University of Bordeaux (1988), the Université de Paris VI (1989–1990), and the Univesity of Chicago (1995–1996). He has been Full Profesor at the Universidad Autónoma de Madrid since 2005. He obtained the national research price Rey Juan Carlos I on 2000 and the prize of the Spanish Royal Society of Chemistry in 2010. He is currently Chair of the “Cátedra UAM-Fujitsu” on Scientific Computing and Big Data.

His research focuses on the theoretical modelling of photoexcitation and photoionization of atomic and molecular systems induced by synchrotron radiation and ultrashort laser pulses, as well as that of complex molecular systems, isolated or deposited on surfaces. He has published almost 400 articles, and since 2011, he has been the recipient of an Advanced Grant of the European Research Council to lead a project focused on the development of computational tools for the study of processes that occur in the femto- and atto-second timescales (XCHEM).

In the last years, his research group (https://campusys.qui.uam.es/) has attracted significant funding from the European Union (projects ERC-AdG- 290853 XCHEM, COST Action CM0702, MCA-ITN- 264951 CORINF y MSCA-EJD-642294 TCCM, MCA-RIG- 268284 ATTOTREND) and national programs funded through MICINN, MINECO and the AEI (projects FIS-2016-77889-R, FIS-2013-42002-R, FIS-2010-15127 and PIM2010EEC-00751-ERA-Chemistry), which has allowed him to establish what is perhaps the reference research group in Europe in the area of “Theoretical Attochemistry”.

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Public conference on Attochemistry by Fernando Martín

Posted on January 27, 2014 by beatriz.martin

The Conference: “Attochemistry: filming electrons motion”, by Fernando Martín held at Ateneo Científico, Literario y Artístico de Madrid was announced in several web sites (UAM, Sciences Faculty, IMDEA-Nanociencia, Nano-Madrid project, Madri+d Foundation).

Fernando Martin talked about recent technological advances that have led to the production of attosecond lasers and and to the first applications, both theoretical and experimental, to study the motion of electrons in atoms and molecules, with special emphasis on those that have been developed within the frame of XCHEM project at Universidad Autónoma de Madrid.

Posted in Press | Tagged Ateneo de Madrid, Attochemistry, Fernando Martín, Public conference, XChem | Leave a comment

Conference on Attochemistry (Ateneo de Madrid)

Posted on January 14, 2014 by beatriz.martin

Fernando Martin will give a talk about recent technological advances that have led to the production of attosecond lasers and first applications, both theoretical and experimental, to study the motion of electrons in atoms and molecules, with special emphasis on those that have been developed within the frame of XCHEM project at Universidad Autónoma de Madrid.

The Conference will be directed to any kind of audiences.

More details here: http://www.ateneodemadrid.com/index.php/esl/El-Ateneo/Organizacion-Interna/Secciones/Seccion-de-Ciencia-y-Tecnologia

Abstract: [Download]

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Fernando Martin’s lecture at Official ITAMP YouTube Channel

Posted on December 16, 2013 by beatriz.martin

Fernando Martin’s lecture “A molecular interferometer to decode electron and nuclear dynamics in attosecond XUV pump-probe spectroscopy”, during the workshop of “Ultrafast atomic and molecular physics with cutting-edge light sources: New opportunities and challenges“, joint with the Institute for Theoretical, Atomic and Molecular and Optical Physics, Harvard-Smithsonian Center for Astrophysics, Cambridge, Massachusetts at Kansas State University, Manhattan, Kansas on November 4-6. 2013, can be watched at the Official ITAMP YouTube Channel.

Watch the talk

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Conference in Attochemistry by Fernando Martín

Posted on May 19, 2013 by beatriz.martin

Fernando Martin has been invited to give a talk on “Attochemistry: filming the movement of electrons” at the Spanish Royal Academy of Physical and Natural Sciences” on May 22nd, 2013.

More information here: http://www.rac.es/7/7_1_1.php?id=107&i=1

Conference Invitation

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Public Lecture at the Royal Spanish Academy of Sciences

Posted on March 27, 2013 by beatriz.martin

The public conference on Attochemistry, by Fernando martín, organized by the Royal Spanish Academy of Sciences was announced in several institutional web sites (Madri+d blogs, Royal Spanish Society of Chemists, IMDEA-Nanoscience and RACEFyN,) and appeared in twitter and facebook.