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Category: News
Journal of Alloys and Compounds and B-MRS launch award for researchers from Brazil in the areas of Materials and Energy.
More information: https://www.sbpmat.org.br/en/the-jalcom-award/
B-MRS Newsletter. Year 10, issue 4.
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Tribute to Aldo F. Craievich from Daniel M. Ugarte.
About Aldo Craievich: homage, reflections and memories.
On April 24, 2023, Prof. Aldo Felix Craievich died in São Paulo, two months after his 84th birthday.
Aldo was born in the province of Santa Fe in Argentina and graduated in physics at the Instituto Balseiro in Bariloche in 1964. He later carried out his doctoral work in France under the supervision of André Guinier, a world famous researcher in the area of X-ray diffraction. In 1973, he moved to Brazil and held positions at several universities and research institutes such as the Institute of Physics and Chemistry of São Carlos (IFQSC-USP), the Brazilian Center for Research in Physics (CBPF) and the Institute of Physics at USP in São Paulo city.
There are abundant sources where it is possible to obtain detailed biographical data on Aldo – without a doubt, one of the most outstanding researchers in materials science in Brazil. But probably, Aldo will always be remembered for his contribution to the construction of the National Synchrotron Light Laboratory (LNLS) in Campinas, where he worked in the initial gestation of the project and later as Scientific Director during the construction of the first UVX storage ring. Aldo assumed responsibility for the design and construction of beamlines and, above all, the training of users for the future Brazilian source of synchrotron light.
I met Aldo personally when I moved from Switzerland to Brazil in 1993 to join the team at the incipient LNLS. The leadership of the laboratory consisted of three directors: Cylon Gonçalves da Silva, Ricardo Rodrigues and Aldo. A short conversation with them about the project to build a synchrotron with national technology starting from scratch was inspiring. What a progressive and courageous vision! I had the privilege of observing how they associated competence and originality, always looking for creative solutions adapted to the low resources and real possibilities in the Brazilian context. In addition to the material aspects, the project required the construction of a specialized technical-scientific human resources team. It is important that the new generations of professionals visualize and understand the Herculean task that was to develop and build everything, everything. An analogy would be building a skyscraper when you have to learn how to make every brick, every steel bar, every little piece. What a challenge they faced, and what a complete triumvirate! Ricardo, the creativity, engineering and physics of accelerators. Aldo, the application of synchrotron radiation, science and the training of human resources. And Cylon, weaving together different aspects like accelerator science and technology with science policy and organizing a management system for a big science laboratory. Wow, what a trio! I can tell my advisees, students, children and grandchildren, that I worked closely with them during the construction of the LNLS.!! And I didn’t bother much…
Despite his position as Director, Aldo had the humility to try to convince each researcher or student of the great opportunities that LNLS offered. He organized numerous schools in Brazil, Latin America and ICTP-Trieste, where he received students from all areas, physics, chemistry, engineering, biology, medicine, etc. This effort on an international scale is clearly reflected in the various awards he has received in other countries and in Mercosur. Perhaps the greatest recognition received by Aldo was his entry into the Brazilian Academy of Sciences in 2015, at almost 80 years old. On a very personal level, I ask myself every day: why did Aldo have to wait so long? Almost 20 years since the start of operation of the UVX, the first synchrotron in the southern hemisphere. Well… in the end justice was served, better late than never. My biggest sadness is that Aldo’s partner in the project, Ricardo Rodrigues, responsible for the design (accelerator physics) and construction (engineering, electronics, materials, etc.) of the UVX and the new synchrotron, Sirius, left in 2020 without receiving this honor. The history of Latin America shows a social and economic development with many paradoxes, such as, for example, strong urbanization without industrialization. The formation of the scientific and technological community in the country was not exempt from these peculiarities. Therefore, it is important to evolve to give more value to applied works, to the construction of real and operational equipment of small, medium or huge size, to the creation of instrumentation, sometimes advanced and sometimes just practical and cheap solutions. Innovation and industrialization, so sought after and mentioned today, will thank us. As Aldo described well in his words: “there is no division between basic and applied research, the real dichotomy is good or bad quality research”.
For us, in the Argentine community, Aldo was “el cracho”, the nickname by which he has been known since his beginnings in physics and the exact sciences. Cracho is a synonym for energy, positive energy, endless energy, energy that is contagious and makes progress, energy that transmits optimism, energy that motivates, energy that sets an example, energy that moves mountains, energy against winds and seas . The deep knowledge, the long, objective and sincere conversation, the culture, the willingness to help, to encourage people to face challenges, the example of science, humanity and ethics. This is the image I have of Aldo. I was blessed to work closely with him at the beginning of my career as a young independent scientist at LNLS. How much I learned! He was a mentor, a friend, an example, a role model.
Daniel M. Ugarte
Professor
Gleb Wataghin Institute of Physics
Unicamp
(Português) Resposta da CAPES sobre o acesso às revistas da RSC.
Sorry, this entry is only available in Brazilian Portuguese.
(Português) Acesso às revistas da RSC: carta à atual presidente da CAPES.
Sorry, this entry is only available in Brazilian Portuguese.
Aldo Felix Craievich: note of condolences.
It is with deep regret that B-MRS informs the death of its founding member Aldo Felix Craievich, senior professor at USP, which occurred in the early hours of today, April 24, 2023, at the age of 84.
Craievich was a pioneer in glass research in Brazil and one of the protagonists in the history of the National Synchrotron Light Laboratory (LNLS). In addition, he dedicated himself to training users of synchrotron light, mainly in Latin America.
In 2016, B-MRS distinguished him with the Memorial Lecture “Joaquim da Costa Ribeiro” in recognition of his trajectory.
The Executive Board of B-MRS deeply regrets the departure of this Argentine scientist, who had lived in Brazil since 1973, and would like to remember him as a member who made great contributions to our community.
Featured paper: Secrets of glass structural relaxation finally revealed.
A team of researchers from CeRTEV (one of the largest academic centers for glass research in the world, located in São Carlos, SP, Brazil) has carried out the first experimental observation of the changes that occur in the structure of a glass during relaxation and nucleation, two processes that occur at the nanometer scale in all glasses and that impact their properties.
It is worth remembering that glasses are amorphous materials: their atoms do not appear in an organized and periodic arrangement. Furthermore, they are out of thermodynamic equilibrium and therefore tend to seek stability. In that search, the structure of the glasses undergoes rearrangements, which tend to either make it more fluid (relaxation), or to form the first crystals (nucleation) to, finally, crystallize.
In addition to occurring spontaneously (at the end of almost infinite human times at room temperature), the relaxation and crystallization of glasses can be greatly accelerated by heating the material, which is the method used to produce glass-ceramics. Much more resistant to impacts than common glasses, glass-ceramics have crystalline regions dispersed in the amorphous matrix. Due to their unique properties, they are used in applications such as bulletproof windows and dental restorations.
Understanding the structural changes of glasses during relaxation and nucleation is an old scientific problem, whose resolution was limited by the absence of adequate instrumentation. Therefore, in order to carry out this study, the CeRTEV researchers needed to develop a method. The challenge was finally overcome using experiments based on the nuclear magnetic resonance (NMR) technique combined with computer simulations.
“Our research and the resulting technique offer a valuable tool for monitoring and understanding the relaxation process in many glasses, as well as the early stages of crystal nucleation that occur during heat treatments,” says Henrik Bradtmüller, corresponding author of the article that reports this research in Acta Materialia. “These findings are crucial for the design and production control of technologically advanced glass-ceramics with high performance ”, adds the young German scientist, who has been working as a postdoctoral fellow at UFSCar, with a scholarship of the São Paulo Research Foundation (FAPESP), since 2020.
The discovery
The joint work of highly specialized scientists was one of the keys to achieving success in this research. In fact, the work team added the broad experience of two senior researchers: Professor Edgar Dutra Zanotto (UFSCar) in the area of nucleation and crystallization in glasses, and Professor Hellmut Eckert (IFSC-USP) in the development and refinement of the new NMR technique. Also fundamental were the contributions of postdoctoral fellow Anuraag Gaddam (IFSC-USP), also a FAPESP fellow, who carried out the computational simulations, and Henrik Bradtmüller, who developed and applied the NMR strategies that made the observations possible.
“Through the use of molecular dynamics simulations, we were able to predict the structural changes that occur during glass relaxation,” says Bradtmüller. “In the present contribution we could observe these changes for the first time through sensitive NMR experiments”, he adds. The NMR technique makes it possible to analyze, on the atomic scale, the structure of solid materials, including amorphous structures.
To carry out the experiments, the team chose lithium disilicate (Li2Si2O5), a glass-ceramic widely used, mainly in dental prostheses. The researchers heated it over periods that varied between 15 minutes and 60 days, at 435 °C, a temperature lower than that of the glass transition of this material, in which the atoms gain mobility and the glass begins to become more fluid, without, however, melting.
The samples taken at different times of heating were analyzed using the developed NMR experiments. The results showed, for the first time, what happens to the structure of lithium disilicate during relaxation and nucleation. “The distribution of the network building blocks of this glass (-Si-O-Si-) stays mostly unchanged”, reports Professor Zanotto, who is director of CeRTEV. “In contrast, the network modifier cations (Li+), which are very mobile within the material at annealing temperatures, continously approach a structural configuration that resembles the crystalline state.” Given enough heating time, explains the professor, the first crystal nuclei appear, followed by many others, until the entire material is crystallized.
From now on, the authors of the work hope that the new methodology will be used to study many other vitreous materials and that this detailed understanding of fundamental phenomena will allow adjusting the properties of glass-ceramics to improve their performance and expand their range of applications.
This research was funded by FAPESP.
Paper reference: Structural rearrangements during sub-Tg relaxation and nucleation in lithium disilicate glass revealed by a solid-state NMR and MD strategy. Henrik Bradtmüller, Anuraag Gaddam, Hellmut Eckert, Edgar D. Zanotto. Acta Materialia. Volume 240, November 2022, 118318. https://doi.org/10.1016/j.actamat.2022.118318
Author contact: Edgar Dutra Zanotto – dedz@ufscar.br
B-MRS Newsletter. Year 10, issue 3.
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B-MRS becomes a sister society of IEEE Magnetics Society.
Representatives of the Brazilian Materials Research Society (B-MRS) and IEEE Magnetics Society met on March 1st to formalize an agreement between the two scientific societies. At the meeting, which was held online, a memorandum of understanding was signed with the aim of promoting the exchange and dissemination of technical information and encouraging the cooperation among the members of the societies. In this way, B-MRS became a sister society of IEEE Magnetics Society.
“We are constantly looking for international partnerships in order to expand opportunities for our materials community”, says Mônica Cotta (UNICAMP), B-MRS President. “The agreement with IEEE Magnetics Society confirms the excellent work carried out by researchers in magnetism and related areas in Brazil, who should benefit from increased cooperation with our new sister society,” she adds.
“Brazil is a global player in magnetic materials, being a producer of special magnetic materials and owner of large reserves of important raw materials, such as iron, silicon, niobium and rare earths”, contextualizes Rubem Sommer (CBPF), B-MRS Scientific Director.
According to him, the recently signed agreement is a natural evolution of the collaborations that have been taking place through events organized by members of both societies, such as the symposia held within the B-MRS annual meetings, among other actions.
“The evolution of these activities resulted in the ongoing partnership between B-MRS and the IEEE Magnetics Society to hold the INTERMAG 2024 conference in Rio de Janeiro from May 5 to 10, 2024”, announces Sommer.
