Newsletter of the Brazilian Materials Research Society Year 8, issue 10. December 3, 2021.

B-MRS elections – The voting period for the election of the new Executive Board and members of the Deliberative Council is open until December 14th. – All members who are up to date with their annuity are able to vote. – Voting will be performed online. To vote, each member must access their personal account on the B-MRS website entering login and password. If the member is up to date with the annual fee, the link to vote will be available on the main page. Featured paper A computational study carried out at UFSCar sheds new light on the understanding of fundamental issues of supercooled liquids and glasses, opening perspectives for the production of new vitreous materials. The research was published in Acta Materialia. Know more. Papers suggested by the community In an article featured on the cover of Advanced Materials, researchers from CNPEM and UNICAMP report the design and characterization of new ultra-compact platforms of three-dimensional electrochemical organic transistors, in addition to their applications in monitoring the oxidation of dopamine – a biomarker related to neurodegenerative diseases in humans. Access the paper https://doi.org/10.1002/adma.202101518. Also in a cover article in Advanced Materials, researchers from Embrapa and UFSCar, in collaboration with scientists from abroad, review a very important issue for the circular economy: the production of advanced multifunctional materials (bioplastics) from the recycling of agrifood waste. Access the paper https://doi.org/10.1002/adma.202170342. XX B-MRS Meeting The organizing committee received 33 symposium proposals! The list of approved symposia will be released by December 20th. The event will be held in Foz do Iguaçu from 25 to 29 September 2022. The coordinators are professors Lucimara Stolz Roman (UFPR) and Marcela Mohallen Oliveira (UTFPR). Event Website: https://www.sbpmat.org.br/20encontro/ Opportunities – Nominations for awards (lectureships) bestowed by journals of the Royal Society of Chemistry for early-career researchers with contributions in the fields of polymers (see here), biomaterials (see here) and soft matter (see here) are open. Deadline: 12/31/21. – LNNano – CNPEM has called for research proposals for the use of its electron microscopy equipment. Submission is open until 12/23/21. Know more. – Postdoctoral opportunities at IPEN and UFABC linked to the Center for Innovation on New Energies (CINE). Applications until 12/25/21. Know more. News from B-MRS members Professor Daniel Mario Ugarte (UNICAMP), founding member of B-MRS, was sworn in as a member of TWAS (The World Academy of Sciences) in a virtual ceremony held on November 4th. Know more. Reading tips – Based on copper and nanocellulose, a new thin and flexible material with excellent capacity to conduct ions is promising for safer, more efficient and sustainable batteries than the current ones (Nature). Know more. – Researchers from the IFGW-UNICAMP and collaborators from abroad study properties and defects of boron nitride monolayers and open possibilities for applying the material as a UVC light source, used to inactivate microorganisms (2D Materials). Know more. – An article describes a lesser-known aspect of the ever-engaging life story of scientist Mildred Dresselhaus: her unique style of teaching Solid State Physics at MIT and her mentoring work for the (very few) girls who studied Physics at the institution in the 1970s. Know more. Advocacy -B-MRS supported the tweet for the defense of the Brazilian post-graduation held on 11/29. Know more. – B-MRS signed an open letter in defense of the evaluation process of Brazilian postgraduate courses. Know more. – B-MRS expressed solidarity with the coordinators of the Physics/Astronomy Area of CAPES who resigned. Know more. – B-MRS supported the tweet for the release of resources for Brazilian science and for the readjustment of scholarships, carried out on 11/23. Know more. Events – III Simpósio Brasileiro sobre Maternidade e Ciência. Online. December 6 to 10, 2021. Website. – 5th International Conference on Applied Surface Science. Palma, Mallorca (Spain). April 25 to 28, 2022. Website. – 2022 E-MRS Spring Meeting and Exhibit. May 30 to June 3, 2022. Website. – 4th Workshop on Coated Tools & Multifunctional Thin Films. Campinas, SP (Brazil). July 20 to 23, 2022. Website. – XVIII International Small Angle Scattering Conference. Campinas, SP (Brazil). September 11 to 16, 2022. Website. – XX B-MRS Meeting. Foz do Iguaçu, PR (Brazil). September 25 to 29, 2022. Website. – 11th International Conference of the African Materials Research Society (AMRS2022 ). Dakar (Senegal). December 12 to 15, 2022. Website. Follow us on social media

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Scientific research carried out at the Brazilian Federal University of São Carlos (UFSCar) sheds new light on supercooled liquids and glasses – two states of matter, in the broadest sense of the expression, which still present many fundamental questions to science. In particular, the work provides strong evidence to solve an old paradox involving supercooled liquids, and opens perspectives for the production of new glassy and crystalline materials.

Supercooled liquids are those that, even at temperatures below the melting point, remain in a liquid state. The best known example is water, which freezes at 0 °C but can be kept as a supercooled liquid even after a few hours in the freezer, as shown in this video.

But not just water, any liquid can be in a supercooled state as long as the conditions that prevent the formation of the first crystal, a phenomenon called nucleation, are met. However, if nucleation does occur, the delicate balance of the supercooled liquid will break down and it will crystallize into a much more stable state. To trigger this process, just waiting for a while is sufficient, stirring the supercooled liquid or introducing a catalyst into it.

In addition to arousing the curiosity of scientists and lay people, supercooled liquids have some applications in situations where it is necessary to lower the temperature to very low levels without causing freezing (crystallization), such as, for example, the preservation of organs donated for transplantation.

In this work, the authors sought to understand the interaction between two phenomena that concur during the crystallization process of supercooled liquids: relaxation (a phenomenon that occurs spontaneously in the amorphous structure of super-cooled liquids on their way to a phase of greater stability) and crystal nucleation. For this, they used atomistic computer simulation tools, that allows describing the position of each atom of a compound as a function of time, to simulate these processes in germanium, whose melting temperature is 938 °C. Above that temperature, germanium crystals “melts”. Below it, if the conditions that prevent the nucleation of crystals are maintained, the liquid germanium does not solidify and remains as a supercooled liquid.

It all started with a paradox

The idea of studying the interaction between nucleation and structural relaxation came from Professor Edgar Dutra Zanotto in 1987, when he was a young professor at UFSCar and coordinated the Vitreous Materials Laboratory, which he had created 10 years before.

It was then that Professor Zanotto began to study the Kauzmann paradox. Published in 1948, this theoretical prediction is named after Walter Kauzmann, who was a professor at Princeton University (USA) and made important contributions to the study of supercooled glasses and liquids. The paradox states that, at a given temperature (called the Kauzmann temperature), the entropy of a supercooled liquid must equal the entropy of the crystalline phase of the same compound. In this context, if cooling continued, the supercooled liquid would end up having zero entropy at a temperature above absolute zero. To avoid this situation, which contradicts the third law of Thermodynamics, supercooled liquids should crystallize before relaxing to the vitreous state, which is a non-crystalline state, above the Kauzmann temperature.

The dilemma aroused so much interest in Zanotto that he set out to investigate whether crystallization of supercooled liquids would occur in less time than structural relaxation. However, this was not an easy task (which is why the paradox persists) and required the mastery of specific computational tools. Thus, the work only started three decades later, when two post-doctoral students specializing in molecular dynamics simulation, Azat Tipeev and Leila Separdar, joined Professor Zanotto’s research group. The new members received co-orientation from Professor José Pedro Rino, also a specialist in the technique, who is a colleague of Zanotto at UFSCar and at the Center for Research, Technology and Education in Vitreous Materials (CeRTEV). While Azat was focusing over liquid germanium, Leila was working on the same problem with other substances. Some of the results of Leila’s work are published in this article in the journal Computational Materials Science.

“Molecular dynamics simulations allow the study of crystallization and relaxation at the atomistic level, in a region of states not yet attainable by laboratory experiments, to obtain essential information about the properties of tiny crystal nuclei in an extremely short time scale and, consequently, testing nucleation and relaxation theories,” explains post-doc Azat, of Russian nationality, who met Professor Zanotto in 2012 at an event on crystallization of glass and liquids in Germany and came for the first time to Brazil in 2015 to participate in the Advanced School of Glass and Vitroceramics organized by Zanotto with funding from FAPESP.

Based on the simulations, the authors determined the structural relaxation and stresses times and compared them with the formation times of the first crystal nucleus at different temperatures. “We found that these curves intersected at the so-called kinetic spinodal temperature, establishing a temperature region where the (strong) interference of relaxation in nucleation must be considered by theoretical models to adequately describe the dynamics of experimental nucleation,” summarize the authors.

Furthermore, the work provided solid evidence for the resolution of the Kauzmann paradox. “Our work demonstrated that the supercooled germanium liquid crystallizes before reaching the Kauzmann temperature, avoiding the entropy catastrophe,” says Azat, who is the first author of the article reporting this research in the journal Acta Materialia.

The new articles co-authored by Azat, Leila and Pedro Rino are part of the vast scientific production that Professor Zanotto and his collaborators have in the area of glass materials. “The crossing of relaxation and nucleation times above the Kauzmann temperature is significantly important to clarify the processes and dynamics of vitrification and crystallization and the very nature of the glassy state,” says Zanotto.

The work was carried out with funding from FAPESP.

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Scientific paper reference: Unveiling relaxation and crystal nucleation interplay in supercooled germanium liquid. Azat O. Tipeev, José P. Rino, Edgar D. Zanotto. Acta Materialia. Volume 220, November 2021, 117303. https://doi.org/10.1016/j.actamat.2021.117303.

Author contact: Edgar Dutra Zanotto – dedz@ufscar.br

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Newsletter of the Brazilian Materials Research Society Year 8, issue 9. November 8, 2021.

B-MRS elections – The electoral commission received the registration of a candidate slate for the Executive Board of B-MRS. Find out who the members of the slate are here. – Registration of members who would like to be part of the Deliberative Council remains open until November 15th. Contact by email eleicoes2021@sbpmat.org.br – Learn more about the B-MRS 2021 electoral process here. – Meet the members of the electoral commission that is conducting the process here. Featured paper Researchers from Pernambuco institutions report a simple and clean method to synthesize composites of nanotubes and quantum dots that can be used as photoanodes to produce hydrogen from water molecules and sunlight. The article was published in the Journal of Power Sources. Know more. Papers suggested by the community Researchers from UNESP, together with collaborators from Germany and the USA, studied the free radicals of melanin, a pigment that has aroused great interest due to its possible applications in bioelectronic devices. They used a magnetic field almost 30 times greater than that found in the literature to increase the sensitivity of the EPR technique and thus be able to distinguish free radical species. Access the paper here. Student Awards 2021 We invited the winners of the XIX B-MRS Meeting + IUMRS ICEM student awards (B-MRS, ACS and RSC awards) to talk about the awarded works, briefly and in an uncomplicated way. See on B-MRS’s YouTube. XX B-MRS Meeting In response to requests from the community, the organizing committee of the XX B-MRS Meeting extended the deadline for submitting the symposium proposals. The event will be held in Foz do Iguaçu from 25 to 29 September, 2022. The chairladies are professors Lucimara Stolz Roman (UFPR) and Marcela Mohallen Oliveira (UTFPR). New deadline for submission of symposium proposals: November 15th. Event website: https://www.sbpmat.org.br/20encontro/ Opportunities – Open until December 31, the nominations for the Soft Matter Lectureship, an award promoted by journals of the Royal Society of Chemistry for researchers in the beginning of their careers with outstanding contributions in the field of soft matter. Know more. – Sirius, the new Brazilian synchrotron light source, accepts proposals for commissioning experiments in several experimental stations. Know more. News from B-MRS members Prof. Mariana Amorim Fraga (Mackenzie) is the editor, together with other researchers from the United States and Turkey, of a book published by Elsevier on challenges for the efficient use of solar energy. Know more. Reading tips – In 2D materials, electrons can freeze into arrays called Wigner crystals, which were predicted 90 years ago. Now scientists have managed to make the first image of a Wigner crystal, using a graphene trap and a tunneling microscope (Nature). Know more. – Based on biomaterial, new vaccine against Covid-19, which has been successfully tested in mice, “recruits” immune system cells in the injection area and generates adaptive immunity (Advanced Healthcare Materials). Know more. – Video: Webinar by Prof Ado Jorio (UFMG) about the Brazilian nanoscope – the science, technology and innovation that were necessary to develop the instrument and carry out the experiments that featured a cover of Nature. Watch the video on YouTube channel of UC Materials Catalão, one of the University Chapters of B-MRS. Events – 5th International Conference on Applied Surface Science. Palma, Mallorca (Spain). April 25 – 28, 2022. Site. – 4th Workshop on Coated Tools & Multifunctional Thin Films. Campinas, SP (Brazil). 20 a 23 de julho de 2022. Site. – XVIII International Small Angle Scattering Conference. Campinas, SP (Brazil). 11 a 16 setembro de 2022. Site. – 11th International Conference of the African Materials Research Society (AMRS2022 ). Dakar (Senegal). 12 a 15 de dezembro de 2022. Site. Follow us on social media

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Professor Daniel Mario Ugarte (UNICAMP), founding member of B-MRS, was sworn in as a fellow of TWAS (The World Academy of Sciences) in a virtual ceremony held on November 4 within the 15th TWAS general conference.

The election of Ugarte as a member, in the field of Physics, took place in 2019, but the inauguration ceremony was postponed due to the Covid-19 pandemic.

TWAS fellows are scientists whose contributions to science meet international standards of excellence and who work in or promote research in developing countries.

More information on TWAS member election: https://twas.org/directory/regulations.

A work carried out in institutions from the state of Pernambuco (Brazil) contributes to the development of nanomaterials with the potential to overcome an important energy challenge: the generation of hydrogen through sustainable processes. In fact, the hydrogen molecule is considered a clean fuel because its use, or “burning”, does not emit greenhouse gases. However, the production of this molecule is responsible for emitting hundreds of tons of carbon dioxide per year.

Fortunately, more sustainable ways to produce molecular hydrogen are being explored by scientists around the world. The “greenest” of all are the photoelectrochemical processes, which consist of breaking down the water molecule (H2O) using electricity from photovoltaic conversion (the transformation of photons into electrons). These processes are carried out in photoelectrochemical cells – simple and low-cost systems basically composed of a photoanode, where sunlight is absorbed, thus generating a current of electrons, and a cathode, on whose surface the hydrogen detaches from the water molecule by the action of the electricity generated in the photoanode. In this context, it is essential to develop materials for the photoanode that are efficient and durable, and which can be produced using low-cost and environmentally friendly processes.

In an article recently published in the Journal of Power Sources (impact factor 9.1270), scientists from the Center for Strategic Technologies of the Northeast (CETENE) and the Federal University of Pernambuco (UFPE) report a simple and clean method to produce nanocomposites capable of generating an electrical current from sunlight. The work also presents good results in the application of the material as a photoanode for hydrogen production.

Challenge: increase photoanode sensitivity

Titanium dioxide (TiO2) is the most used material in photoanodes. Unlike other semiconductors, it is non-toxic and does not degrade easily in contact with light and water. However, this material has a limitation that affects its efficiency: it can only absorb ultraviolet light, not taking advantage of other radiations present in sunlight. For this reason, scientific efforts have been made to expand the sensitivity of TiO2. This was exactly the objective of the CETENE and UFPE team at the beginning of the collaborative work. The strategy they adopted was to integrate semiconductor nanocrystals (quantum dots) to TiO2 nanotubes and, in this way, obtain a material that is more sensitive to sunlight thanks to the synergistic action of both semiconductors.

The researchers started by sensitizing the nanotubes with bismuth sulfide (Bi2S3) nanocrystals, says Denilson V. Freitas, who now works as a researcher at CETENE and has participated in this research line since the beginning, when he was doing his doctorate in Chemistry at UFPE. In the experiments, the scientists noticed that the method of preparing the nanocomposite significantly impacted its photoelectrochemical performance, and reported these results in an article published in 2018 in ACS Applied Energy Materials (impact factor 6.024). “We found that the best photoelectrochemical results were for the linker-assisted method when compared to the hydrothermal method,” says Denilson. Thus, the first method was chosen. In

linker-assisted sensitization, TiO2 nanotubes, supported on titanium sheets, are submerged in a solution containing the chosen nanocrystals. Both materials interact and, at the end of the process, the quantum dots are adsorbed on the surface of the nanotubes.

The second phase of the research was carried out within the Master’s Degree project in Materials Science by Danilo A.P. Velásquez, carried out at UFPE. This time, the scientific team used silver, indium and selenium nanocrystals (AgIn5Se8) with the main objective of determining what would be the optimal submersion time of the nanotubes in the solution, as the researchers had noticed that high concentrations of nanocrystals on the surface of the nanotubes affected in a negative way the performance of the nanocomposite. For this, they performed a series of experiments varying the submersion time between 1 hour and 48 hours.

In addition to observing through electron microscopy techniques the concentration of nanocrystals obtained in each case, the researchers checked the performance of each sample. The results showed that the photoletrochemical performance of nanotubes improved with increasing sensitization time up to 24 hours of immersion, when the obtained nanocomposite generated a photocurrent 2.4 times greater than that of pure nanotubes. Furthermore, the optimized nanotubes also improved their performance in hydrogen production, which was 3.1 times greater than that of the material without quantum dots. The experiments also demonstrated that, after 24 hours of immersion, the concentration of nanocrystals became excessive and impaired the functionality of the nanocomposite. “The work showed that the temporal optimization of the sensitization of nanotubes is an important step in the production of more efficient systems,” summarizes Denilson.

The research was carried out by researchers and students linked to postgraduate programs in Chemistry and Materials Science at UFPE, coordinated by professor Marcelo Navarro, and to CETENE, led by researcher and director of the center Giovanna Machado. The acquisition of images of nanotubes sensitized by high resolution transmission electron microscopy were performed at SENAI-MG. The works were funded by Brazilian research funding agencies CNPq, FACEPE, CAPES and Finep.

 

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Scientific article reference: Boosting the performance of TiO2 nanotubes with ecofriendly AgIn5Se8 quantum dots for photoelectrochemical hydrogen generation. Danilo A. P.Velásquez, Felipe L. N.Sousa, Thiago A. S. Soares, Anderson J. Caires, Denilson V. Freitas, Marcelo Navarro, Giovanna Machado. Journal of Power Sources. Volume 506, 15 September 2021, 230165. https://doi.org/10.1016/j.jpowsour.2021.230165.

Contact of the corresponding author: Giovanna Machado – giovanna.machado@cetene.gov.br.

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Sorry, this entry is only available in Brazilian Portuguese.

 

You have received this newsletter because you shared your email address with B-MRS – Brazilian Materials Research Society. B-MRS has never provided and will never share your data with other individuals or organizations. However, if you wish to opt out of this list and stop receiving the B-MRS Newsletter, please click here. Newsletter of the Brazilian Materials Research Society Special issue Coverage of the XIX B-MRS Meeting + IUMRS ICEM 2021

Numbers About 1.100 participants. 59% men, 41 % women. 45 % professionals, 40 % graduate students, 15 % undergraduate students. Registrations from 33 countries in America, Europe, Asia and Africa. Registrations from Brazil: 23 states of the federation, covering the country’s 5 regions. Institutions represented: approximately 200. 24 symposia organized by more than 110 researchers from 15 countries. 961 works actually presented: 567 poster presentations, 280 oral presentations and 114 invited lectures. 35 awarded works, 51 prizes awarded. Up to 15 virtual rooms in simultaneous sessions. 10 plenary lectures. 9 technical lectures from exhibitors. 1 tutorial, 2 discussion panels and 1 workshop. 15 sponsors – exhibitors. Event report A text to remember or learn about the sessions of the B-MRS Meeting + IUMRS ICEM, and how the event had to adapt due to the pandemic. Access here. Coverage on social media Posts by B-MRS team and the community on our social media channels during the event. Instagram – Facebook – Twitter List of awarded students The works and authors who received the B-MRS, ACS and RSC awards for the best contributions presented by students at the event. Access the list here. XX B-MRS Meeting: call for symposia The XX B-MRS Meeting will be held in Foz do Iguaçu from 25 to 29 September 2022, coordinated by professors Lucimara Stolz Roman (UFPR) and Marcela Mohallen Oliveira (UTFPR). The call for symposium proposals is open until October 31st. Learn more. CERTIFICATES. Certificates of participation and presentation of the XIX B-MRS Meeting + IUMRS ICEM are available at the event system by login and password:: https://www.eventweb.com.br/xixsbpmat-virtual/home-event/. PROCEEDINGS. The annals of the XIX B-MRS Meeting + IUMRS ICEM are available on the event website: https://www.sbpmat.org.br/19encontro/proceedings/. Follow us on social media

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A month ago, on August 30th, 2021, the XIX B-MRS Meeting began. In its nineteenth edition, the annual event of the Brazilian Materials Research Society (B-MRS) did not take place in a beautiful Brazilian city, as in past editions. This time, around 1,100 participants from more than 30 countries met in a cyberspace setting. Due to the Covid-19 pandemic, the event was held online for the first time. Another characteristic of this year’s event was that it was held in conjunction with the seventeenth edition of the international conference on electronic materials of the International Union of Materials Research Societies (IUMRS ICEM 2021).

 

An event that had to be reinvented

The organization of the joint event started in 2018, when Professor Gustavo Dalpian (UFABC) took over the coordination and, nearly two years in advance, announced the location and date of the event: Hotel Rafain, Foz do Iguaçu, from August 30 to September 3, 2020. In the call for thematic symposia, held at the end of 2019, the organization received 49 proposals submitted by researchers from 18 different countries.

When, on March 11, 2020, WHO declared the Covid-19 pandemic, the organization of the XIX B-MRS Meeting + IUMRS ICEM was already in full swing, with Professor Dalpian as general coordinator (chairman), Professor Carlos Bufon as program coordinator and Professor Flavio Souza as general secretary. At that time, abstract submissions had been open for over a month. However, the organizing committee and the B-MRS and IUMRS boards were closely following the epidemiological situation and by the end of the month they announced that “due to the uncertainties related to COVID-19, and to reduce the risk of harming the health of our community” the XIX B-MRS Meeting + IUMRS ICEM would be postponed for one year. It would be held from 29 August to 2 September 2021. The venue would be maintained. The decision was widely approved by the community and a new call for symposia was opened.

On the afternoon of August 30, 2020, the day the event would open if the pandemic had not changed the plans, B-MRS held a live transmission to talk about the progress of the B-MRS Meeting and about the activities the Society was offering in the context of the pandemic. The live transmission also included a lecture by Professor Osvaldo Novais de Oliveira Jr (former president of B-MRS) regarding perspectives of science in the post-pandemic scenario.

On January 31, 2021, given the continuity of the pandemic and uncertainties regarding vaccination in Brazil, the chair of the XIX B-MRS Meeting + IUMRS ICEM announced a new change: the event would be held from August 30 to September 3 virtually, on a platform that was being developed by Aptor, a company that has provided B-MRS the event management system since its first events.

 “We used our know-how acquired over 16 years working with scientific events, as well as our academic experience to provide a virtual experience that could transpose an entire complex physical program to a virtual one, without losing content,” says Leandro D´Agostino, executive director of Aptor. “When planning the module, we focused mainly on B-MRS, as it is an event with very rich content and impressively dynamic,” he says.

There were various challenges in putting together an online event, even for the organizing committee and the B-MRS team, which, for example, had to consider the time zones of the presenters from 33 countries. Another challenge, according to Professor Dalpian, was to mobilize the community. “In this unusual period, we have been exposed to a large number of online events, and it was more difficult to encourage students and researchers to participate in the event in this modality,” says the chairman. “Even so, I believe we had great success, with around 1,100 participants in the event,” he conveys. “During the conference I had the opportunity to talk with several colleagues, and everyone stated that the result was much better than expected for an online event,” says Dalpian.

An intense week

Finally, the XIX B-MRS Meeting + IUMRS ICEM was held in virtual format between the end of August and the beginning of September 2021, with an intense and varied schedule. The event took place live on Aptor’s Eventweb platform, based on the virtual rooms on the Zoom platform. During the hours with more activity, 15 virtual rooms worked simultaneously.

The axis of the program included the 10 plenary sessions with lectures by world-renowned scientists, as well as the symposia’s oral and poster sessions. There were 23 symposia on materials research topics, proposed and organized by 110 researchers from 15 countries, in addition to the symposium of the B-MRS University Chapters (UCs), which this year was about scientific entrepreneurship. Approximately 1,000 works were presented within the symposia by students of all levels and professionals (postdocs, professors and researchers from universities, research institutes and companies).

All presentations took place at scheduled times, with real-time interactions between speakers and presenters and their audiences. In the poster sessions, PDFs and audio files were available to visitors throughout the event, but the presenters were in attendance at the appropriate times to interact with interested parties via chat or video call.

The symposia covered a wide range of topics in Materials Science and Technology, from design to applications, comprising synthesis, manufacture, modification and characterization of materials. There were symposia on nanomaterials, conducting polymers, hydrogels, hybrid materials and nanocomposites, metal oxides, electroceramics, biomaterials, superconductors and quantum materials, among others. Regarding applications, the presentations addressed energy harvesting, conversion and storage, oil and gas industry, decontamination, dentistry and medicine, electronics, and photonics. Advances in the toxicology of nanomaterials and their respective regulation were also discussed.

“The event’s highlight was definitely the quality of the works presented,” says Professor Dalpian, adding that  “we were able to watch, for example, really high-level presentations by undergraduate students.”

The event also featured 9 technical webinars on techniques, instruments and tools for research and education, and an exhibition with 16 virtual stands of products, services and inputs for research. Another highlight was the workshops that were offered, at no extra cost, to the event’s participants. On Sunday afternoon, August 29th, the traditional “School of Young Researchers,” was held, given by Professor Valtencir Zucolotto (IFSC-USP, Brazil), to help students and young researchers develop some necessary skills to carry out high-impact science. On Monday night, Professor Eduardo G. Ciapina’s (UNESP, Brazil) addressed the most important aspects for preparing and presenting a scientific work. About 100 people participated in each of the workshops.

The program also had a presentation by the Brazil-Argentina Nanotechnology Center (CBAN) about opportunities for bilateral cooperation, and a panel discussion that brought together speakers from academia, industry and research funding to discuss the application of perovskites in the photovoltaic industry. In addition, on Thursday night, the event hosted a panel discussion on the underrepresentation of women in science aggravated by race and geographic distribution, and the impacts of the pandemic on that reality. The discussion, with broad public participation, was based on short presentations by four female scientists from Argentina, Brazil and the United States, with outstanding scientific careers and active in gender and race issues. The panel was broadcast in a virtual room at the event and, simultaneously, on B-MRS’s YouTube, where the recording is still available.

Opening and plenary lectures

The opening, held on Monday morning, August 30th, featured short speeches by Professor Monica Cotta (President of B-MRS), Professor Rodrigo Martins (President of IUMRS), Paulo César Rezende de Carvalho Alvim (Secretary of Entrepreneurship and Innovation at the Brazilian Ministry of Science, Technology and Innovation) and the general coordinator of the event, Professor Gustavo Dalpian.

In the words of the members of the opening virtual table, those who died as a result of the Covid-19 pandemic were remembered, as well as the role of science and innovation in the pandemic and its importance in increasing the quality of life of human beings. Over 300 people virtually attended the ceremony.

Next, the traditional Memorial Lecture Joaquim da Costa Ribeiro was held. This special lecture was created by B-MRS to honor the pioneer of Materials research in Brazil and, at the same time, to distinguish a senior Brazilian researcher for his or her scientific trajectory. In this event edition, the distinction was granted to Professor Cid de Araújo (UFPE), pioneer of Brazilian Non-Linear Optics. After commenting on Costa Ribeiro’s contributions to Brazilian research and to the organization of the national scientific system, the speaker presented the plasmonic nanocomposites that he uses in Non-Linear Optics experiments. These materials are formed by glasses or colloids with metallic nanoparticles, which act as nanoantennas that significantly increase some optical properties of the material.

The following plenary was given by Professor Thuc-Quyen Nguyen, from the University of California at Santa Barbara (USA), where she directs the Center for Polymers and Organic Solids. The researcher spoke about organic semiconductors, a family of materials that combine the lightness, flexibility and semi-transparency of polymers with the electronic properties of semiconductors. She showed that these materials can be easily processed into films and used in solar cells integrated into building façades and interiors; in portable, wearable devices, as well as in light detectors for night vision and healthcare applications.

On Tuesday, the morning plenary was given by one of the fathers of iron-based superconductors: Professor Hideo Hosono, from the Tokyo Institute of Technology (Japan), whose h index is 141. The scientist explained why iron was considered the worst enemy of superconductivity and how this idea was overturned. He also presented the advances made over the last 15 years in the synthesis, processing and characterization of these materials.

In the afternoon, the topic of the plenary was the discovery of functional materials, which was done for thousands of years based on trial and error. Professor Alex Zunger, from the University of Colorado Boulder (USA), showed that recently, theoretical computational methods have allowed us to further accelerate the discovery of useful materials for humanity. In this context, he presented the Inverse Design, a paradigm based on collaboration between theoretical and experimental scientists, to determine what functionalities are needed for a given application and, based on that, use computational tools to find materials that meet these needs. Zunger, who has an h-index of 151, is the founder of a center and a research group on inverse design in the United States.

Wednesday opened with the plenary of Professor Paula Vilarinho (University of Aveiro, Portugal), deputy director of the largest Portuguese institute in Materials Science and Engineering, CICECO. According to Professor Vilarinho, in a “smart” world where people and objects are increasingly connected via the internet, sensors and actuators play a critical role, and these devices need piezoelectric materials. At the same time, the planet is demanding for materials and sustainable technologies, such as the KNN-based piezoelectric materials (compounds of potassium, sodium and niobium with a perovskite structure) presented by the speaker.

During the afternoon plenary, in a ceremony full of emotion, Professor Edson Leite (UFSCar, Brazil), scientific director of Brazilian National Nanotechnology Laboratory, received the first José Arana Varela Award, created by B-MRS in honor this great Brazilian scientist and former B-MRS president, who died in 2016. Leite was Varela’s first doctoral student and considers him his “scientific father.” Professor Elson Longo also participated as Varela and Leite´s very good friend and collaborator. In the lecture, Edson Leite spoke about colloidal nanocrystals, which, despite having an obviously crystalline structure, have different degrees of structural disorder that impact their properties. He described the challenges involved in the characterization of nanocrystals and the advances achieved, mainly through the ePDF technique.

The seventh plenary of the event was given by Luisa Torsi, Professor at the University of Bari (Italy), and also committed to the role of model for younger women scientists. She presented sensors capable of detecting a single molecule on a micrometer surface (something similar to finding a drop of water in a lake). The researcher and her team are dedicating efforts to develop these devices that can help diagnose various diseases in early stages, for example pancreatic cancer, thus enabling treatment and cure.

In the following plenary, Professor Sergio Rezende (UFPE, Brazil) shared his broad and deep knowledge in the field of Spintronics, which explores the possibilities of an electron spin to generate new functionalities in materials. He presented the main discoveries that advanced Spintronics from the 1980s onwards, thus opening technological frontiers in Electronics. Rezende has developed a very productive and distinguished trajectory both as a researcher of magnetic materials and as STI manager (he was Brazil’s Minister of Science and Technology, among many other positions).

Every problem is a thermal problem, said Professor Tao Deng (Shanghai Jiaotong University, China) at the event’s penultimate plenary. Deng has been committed to developing bio-inspired materials that make thermal processes more efficient. One of the contributions he presented was the development of plasmonic films, inspired by human skin, which allow heating and evaporating the surface of water bodies using sunlight, with applications in water desalination and sterilization, generation of electricity and hydrogen, and energy harvesting.

At the closing plenary, John Rogers (Northwestern University, USA) showed devices that can be comfortably worn on the skin of patients and athletes to monitor various indicators, mainly through the collection and analysis of sweat. This collection is done through tiny channels developed with microfluidic technology. Some of these devices are small clinical laboratories. They can prevent, for example, children with health problems from having to go to hospital or having more invasive or uncomfortable procedures. Rogers, whose h-index is 191, is a co-inventor on more than 100 patents and a co-founder of several startups.

The event’s plenary sessions had an average audience of 160 people and received several questions from the audience at the end, which were sent via chat and formulated by the chairs of the lectures. According to the event’s chair, “the plenary lectures brought a lot of information and originated discussions and questions from the community. This is, without a doubt, the result we planned to reap.” 

Closing and awards

In the closing session, held around noon on Friday, September 3, the meeting chair highlighted the quality of the presentations and shared the event’s data, in addition to thanking everyone who made the event possible: his colleagues on the organizing committee, Aptor and B-MRS team, B-MRS and IUMRS boards, symposium organizers, volunteers, participants and sponsors.

The chairman of the XIX B-MRS Meeting then gave the floor to the chairlady of the XX B-MRS Meeting: Professor Lucimara Stolz Roman (UFPR, Brazil), who coordinates the organization of next year’s event with Professor Marcela Mohallen Oliveira (UTFPR, Brazil). Lucimara made a long-awaited announcement: the next B-MRS Meeting will be held in Foz do Iguaçu, at the Rafain Hotel, from 25 to 29 September 2022, resuming the proposal that was initially announced in 2018. The chairlady invited the community to submit proposals for the symposium to organize the event, in the call that is open until October 31st.

Finally, after the words of the presidents of B-MRS and IUMRS, the Student Awards ceremony began, encompassing the Bernhard Gross Awards, given by B-MRS to the best oral presentation and best poster presentation of each symposium, and the awards from the publishers of the American Chemical Society (ACS) and the Royal Society of Chemistry (RSC). ACS gave cash prizes to the 5 best posters and 5 best oral presentations of the entire event, and RSC gave book vouchers to the 6 best works of the event. In total, 51 awards were announced at the ceremony.

The winners were selected based on the evaluation of all the works that applied by sending an extended abstract. The organizers of each symposium were responsible for classifying the candidates according to a series of criteria and then defining one finalist for the oral presentation and another for the poster presentation category. These finalists comprised the list of Bernhard Gross Award winners. ACS and RSC award winners were chosen from this list by the event’s awards committee based on the classification score they received. The complete list of award-winning works is available on the B-MRS website.

“Despite being completely online, due to the pandemic, our event maintained its usual quality, with inspiring plenary sessions and extremely motivated presentations by our researchers and students,” says Professor Mônica Cotta, president of B-MRS. “We looked for various formats, with discussion panels about new technologies and about the underrepresentation of gender in science.” She highlights that “our UCs dazzled us with an extremely innovative workshop, and we could even feel the emotion of the many awards on the small screen!!!” concluding that “In a moment of crisis, we came together to be stronger.”