The Royal Society of Chemistry (RSC) has prepared an online collection of articles by Brazilian authors in celebration of the XVIII B-MRS Meeting (Balneário Camboriú, September 22-26, 2019). The Royal Society of Chemistry is a supporter of this edition of B-MRS’s annual event.
Titled Materials and Nano Research in Brazil, the collection brings together 55 articles published in RSC journals between 2017 and 2019. All selected articles are open access until October 15, 2019.
Daniel Mario Ugarte was born on March 23, 1963 in Cosquín, a small town in the mountains of the province of Córdoba (Argentina). He grew up in a family environment that was very stimulating to curiosity, learning and experimentation. After completing his elementary and secondary education in this city, he studied physics in the province’s capital, at the National University of Cordoba, the oldest in the neighboring country (founded in 1613). After graduation, he completed an internship in transmission electron microscopy at Université Paris-Sud, France, where he ended up doing his doctorate in nanoscience subjects (although at that time the “nano” prefix was not yet widely used). Ugarte received his Ph.D. in physics in 1990. He moved to Switzerland where he completed a post-doctorate internship lasting about three years at the École Polytechnique Fédérale de Lausanne (EPFL). There he continued to do nanoscience and nanotechnology and obtained results with great academic impact, notably the “nano-onions of fullerene”, which earned him, at the age of 29, his first article in the journal Nature, signed by him alone and highlighted in the cover of the issue. This paper, which today has more than 2,000 citations, would be the first of six articles published by Ugarte in the two main scientific journals of the world (Science and Nature), among dozens of publications in specialized scientific journals, also of very high impact, such as Nature Nanotechnology, Nano Letters, Physical Review Letters, among others.
In 1993, for personal reasons, Ugarte went to live in Brazil, and began to work with the team that was beginning the construction of the National Synchrotron Light Laboratory (LNLS) at the current site, in the city of Campinas (São Paulo state). It was in this context that he was able to make real his idea of constructing an electron microscope laboratory for research and training really open to the entire scientific community, including students. The Laboratory of Electronic Microscopy began its activities in 1999, directed by the Cordoban scientist, and was the seed of the current National Nanotechnology Laboratory (LNNano). Between 1994 and 1998, Ugarte also served as visiting professor at EPFL. In 2004, he left LNLS to take up the position of associate professor at the Gleb Wataghin Institute of Physics (IFGW), State University of Campinas (UNICAMP). Since 2007, he is a full professor of this institution. In addition, from 2004 to 2007, Professor Ugarte coordinated a research network on nanomaterials, NANOMAT, which included 23 institutions and 150 researchers.
Throughout his scientific career, Daniel Ugarte has delivered more than 100 invited lectures at international scientific events and received several prestigious awards for his exceptional academic contributions, such as the Prix Latsis Universitaire EPFL (Switzerland, 1994), the John Simon Guggenheim Fellowship (USA, 2002), the Scopus Brazil Award from Elsevier and CAPES (Brazil, 2008) and the Physics Award from The World Academy of Sciences, TWAS (Italy, 2018). In 2012, Ugarte was elected a member of the Brazilian Academy of Sciences (ABC). In addition, several students guided by him received prizes for their PhD theses, granted by the Presidency of the Republic, CAPES, the Brazilian Society of Physics (SBF) and the IFGW – UNICAMP.
Daniel Ugarte is the author of more than 100 articles published in international peer-reviewed journals. According to Google Scholar, his academic production received more than 16,600 citations and his h-index is 43.
Take a look at our interview with this founding member of B-MRS and learn more about his life story, his key findings, his criticisms of some trends in how to make science and his message to younger researchers.
B-MRS Newsletter: – We would like to know how / why you became a scientist. When did the desire to be a scientist come to you?
Daniel Ugarte: – I was born in Argentina, with the genetic information typical of that country: mother of Italian origin, and father of Spanish origin (Basque, to be precise), but trying to be English (I love rugby). I think the example of my parents’ curiosity, work, and varied interests had a majority influence on my choices. I was born and raised in a town in the middle of mountains in Argentina (the town of Cosquín, with approximately 10,000 inhabitants, in the province of Córdoba). My mother was a teacher of elementary school and always tried, with very scarce financial resources, to obtain books to continue studying and improve her classes (at that time there was no internet); we read together these new texts of history, dinosaurs, etc. My father, even though he attended school only until he was 12 years old, was always very curious and active. He did everything as an amateur and self-taught; very active, he was an actor, a painter, a musician, he repaired everything, made keys etc. Curiosity and childish spirit were always with him: every new thing, he wanted to dismount to see how it worked. If I had to define his profession, I would say that he made publicity posters. In his workshop, all the equipment was built by himself. In that room of constant mess, I played drilling irons, soldering wires, cutting wood, hammering things. We had few luxuries, no expensive toys, but there were always books, and I did very unusual things (supervised by my parents) in the eyes of other children, such as model airplanes, galena radios, a telescope, etc. With my mother, we always cooked new recipes (gnocchi, cakes, alfajores, sweets, etc.); at 10 years old, every Sunday at noon, I prepared the family barbecue. These experiments of chemistry and heat were very instructive (and tasty), flavors and aromas that I still try to reproduce accurately today. Finally, to complete, I was lucky enough to have some ease with logic and mathematics, which was in evidence when I went to school. I have to thank the Science and Mathematics teachers who worked hard to keep my motivation in that little town so that I could grow and develop this incipient talent. I think that with this childhood, the dream of doing science and working in a laboratory (or a kitchen) making discoveries and building wonderful instruments is the most natural consequence of the world (I must clarify that outside the laboratory my main hobby is to cook).
B-MRS Newsletter: – Briefly tell us what led you to work in the field of nanosystems.
Daniel Ugarte: – In fact I arrived in the “nano” world through electron microscopy. At the Universidad Nacional de Córdoba I studied physics, much more interested in the experimental profile and in the laboratory work using the hands. In the course, you must do a final dissertation to obtain your diploma. Among the various options of the Institute of Physics, I preferred to do a project associated with scanning electron microscopy and X-ray spectroscopy. A pragmatic choice aiming at having more employment options after my graduation. At that moment, I was lucky, an opportunity arose to go to France to do an internship in transmission electron microscopy, and after arriving there (Laboratoire de Physique des Solides, Université Paris-Sud, Orsay), I was invited to do a doctoral thesis to study the excitation of surface plasmas in small particles (in English at the time they were “small particles”, not “nanoparticles” as it is today). The term “nano” did not yet exist, and “plasmon” was only a curiosity (today it is one of the most active nanoscience themes). Once I finished my thesis, I was able to get a postdoctoral fellowship in Switzerland, in one of the first institutes to focus on the new properties of particle size reduction (Institut de Physique Experimentale, Ecole Polytechnique Féderale de Lausanne). In short, I started in the nano embryos and always continued to study small systems with high spatial resolution techniques associated with transmission electron microscopy. The atomic or nanometric resolution of this technique is imperative for basic or technological research in nanosystems, and expensive microscopes have become symbols to display the richness of each “nano” program.
B-MRS Newsletter: – What are your main scientific and technological contributions to the Materials area in your own assessment and why do you consider them to be the most relevant?
Daniel Ugarte: – Carbon nanostructures (fullerenes, nanotubes, graphene) represent a typical example of nanomaterials with novel properties. Considering dates, fullerenes were discovered in 1986, the solid of fullerenes in 1990, the nanotubes in 1991. Working in Switzerland in 1992, I accidentally observed that by irradiating carbon materials with the electron beam of a transmission electron microscope, everything turned into “fullerene onions” (concentric graphite spheres, like a Russian doll). This experiment generated a new member for the newly discovered fullerene family, and the work had an incredible repercussion worldwide. However, the interesting thing was that this was not my postdoctoral project, which was a research focused in the study of electronic diffraction of metallic nanoparticles. In Lausanne we had a complete microscopy lab with all the border equipment. And I noticed that no one wore them at night, so I decide to go and play there … to make exploratory, innocent, alternative experiments and, unintentionally, the onions appeared …. But when I first spoke of the results no one believed; a reviewer for the prestigious journal Physical Review Letters said that my data was as ridiculous as cold fusion (a highly controversial subject at that time); that was an insult of the worst level. But I kept defending my job, I got the same results over and over again, and they were the truth. I continued presenting the result in the conferences; I survived many violent and humiliating comments. To make things a bit out of the paradigm one must have “hard leather”. Finally, with the unexpected and spontaneous support of Sir Harry Kroto (who received the Nobel Prize in Chemistry in 1996), who did not know me and never spoke to me, my article was published in the journal Nature. I was less than 30 years old, very innocent, and I was very surprised by the enormous interest of the media; I reported to many countries, among them Japan, Germany, etc. It felt like the world was falling on my head. With naive (unpretentious) and out of context experiments done at night with advanced instruments, I had created work options that knocked on my door. However, at the moment, to the surprise of my French and Swiss colleagues, I took an alternative route, and in 1993 I choose to live in Brazil for personal and family reasons.
A few years later, in 1995, we were on a Saturday afternoon at the laboratory in Lausanne, making brainstorming proposals with my friend Walt de Heer (an incredible scientist considering depth and creativity). We decided to test one that came up there at the time: using carbon nanotubes (the tip is really thin) to produce a source of electrons. We put together a hydraulic press, plumb-type teflon tape, microscope grids, old mica, some lab things (vacuum chamber, oscilloscope, etc.) and set up something awful, dirty, grotesque, completely improvised, and … it worked !!! . The result was published in the journal Science. This experiment created a new area of applied research for the carbon nanotubes that several industrial laboratories tried to explore; until today it is an active area of research. Again, in my way, another innocent experimental proposal, but creative and relaxed (in this case the result was not accidental, but planned), which captured the interest of the international technological community.
In my group in Brazil, I decided to invest in a new line of research based on an irreverent experiment proposed in Spain by a researcher called Costa-Kramer (Nanowire formation in macroscopic metallic contacts: quantum mechanical conductance tapping a table top, Surf. Sci. 1995). If we add two pieces of gold and then separate them, at the end a very thin yarn (as with chewing gum) is formed which may even have an atom of diameter. By measuring the electric current through this wire during elongation, we can study quantum effects in electrical conduction by nanostructures. In Campinas, my student Varlei Rodrigues (who later received the SBF Prize for Best Doctoral Thesis in Physics in 2003) built an instrument specifically designed to carry out this study with high precision in ultra high vacuum (UHV) conditions. Later we were able to make electron microscopic images of the atomic arrangement of the wires generated by mechanical elongation and also theoretical calculations in collaboration with the group of Douglas Galvão. From this information we could understand in detail our experimental measurements; from these results I was invited to give almost a hundred lectures at international conferences. I believe that these results were very important from the Brazilian point of view, since all the research was done in the country: ideas, advanced experiments, construction of specific scientific instrumentation, theoretical calculations and understanding. In addition to the scientific impact, the research on metallic nanowires represents an important achievement, as it allowed us to show, by example, that competitive experimental nanoscience studies can be done in the country, combining work with originality and a certain degree of risk.
Speaking of results feeds our ego (the little Argentine that we all carry inside …); another aspect of our contribution to society comes when our effort is dedicated to community growth, in particular to raise the level of science in the country. In this sense, I would like to recall one of the most comforting works of my career: the idealization and creation of a multi-user electron microscopy laboratory in Campinas. This project had the constant and unconditional support of the LNLS directors at the time (Cylon da Silva, Aldo Craievich and Ricardo Rodrigues). Finally, the microscopes were acquired with resources (many resources !!!) from The São Paulo Research Foundation (FAPESP). From the initial idea, I worked so that the laboratory was open and available to Brazilian researchers (not in intentions, but in reality) and also had the training of human resources as a focus of their activities. Contrary to the general opinion of the community, in the microscopy laboratory all the observations were made by the undergraduate or graduate students involved in the projects, after a training process. Many students learned to work, and the instruments did not break at all, but we had to give ourselves the time to teach the interested researchers. This mode of operation aimed at avoiding the feudal system (“lord of instruments”) or application of psychophanism. I stayed in this lab until 2009. This laboratory grew and became what is now called the National Nanotechnology Laboratory (LNNano).
B-MRS Newsletter: – You have an unusual amount of articles published in high-impact journals (Science, Nature, PRL …), especially in the context of developing countries. To what factors and competences do you attribute this characteristic of your scientific production?
Daniel Ugarte: – In the previous question I tried to give several examples of some important moments of my scientific activity. Workload, much study, and the courage to take risks were essential to make daring and original experiments. But there is one thing I always try to teach my students: if we do a project, he must bring a relevant contribution (if it works …). If any publication is generated, it has to contribute with new knowledge, not of a lie, but of truth. We will not only choose research topics that generate quick results; probably our study will take time, we will have to understand and deepen in a lot of new thing. We may even need to develop tools / software to answer the scientific question. And my students ask: Will it work? I say, I do not know, if I knew it would work out, it would not have any emotion, but I can guarantee that you will grow a lot and get a solid background. For example, in the topic of gold nanowires we had to respond to comments (from a competitor) on what happened to mechanical elongation at low temperature. For this, we needed to perform an extremely challenging experiment and try to observe the mechanical deformation of nanowire in situ inside the microscope at low temperature with atomic resolution using a sample holder in liquid nitrogen. The student who came across the project (Maureen Lagos, who later won the CAPES thesis award in 2012) asked me: Will it be difficult? What do you think? My answer was: I think it will not work, but to answer this to the community we must test if it works or not, go, try to do your best and good luck (you will need a lot …). To my surprise, he got the measurements, very difficult and time consuming; these studies made here in Brazil receive until today (10 years later) many praises and recognition in the scientific community.
Another aspect, other than risk or daring, is quality; every student or colleague who worked with me knows that we always do the best we can, we don´t have “more or less”. Only the best is accepted, or you have to do the experiment again until you get the highest quality. Some students hate me, but recently an alumnus of UNICAMP (now a professor in the United States) published an article in the journal Nature, and sent me a message thanking me, because today he gives great value to what he has learned with me about drawing his limits. To give total quality to all the study content, in the experiments – which are the basis in our group -, in the theoretical study, in the interpretation, in the modeling, etc. As in all professions, we build our reputation over the years, and it may be prestigious or not. It has always been a pride for my group that our colleagues and competitors receive our works with attention, believing that we have done our best for each published result (but they not always agree with our conclusions / interpretations … as everyone we have many articles rejected).
When I was part of the committee that analyzes projects at CNPq, I was surprised by the number of Brazilian researchers who publish more than, say, 50 articles a year, some of them having high administrative or management positions in Brazilian teaching or research institutions, which requires concentrated effort 24 hours a day. Considering my ability to do research, I find it totally impossible to think about producing almost one publication per week !!! And that if I stayed in the lab all day with the students. At this point I would like to return to the concept of quality, considering the number and the scientific contribution of articles generated by a group or researcher. We can assume that it follows a statistical distribution with Gaussian form described by two parameters with a mean and a width (notes from 1 to 10). I know researchers with a little incoherent production, able to do the best (work note 10), and at the same time, the worst (some papers deserve very low grade, say 1-2). Let´s consider a hypothetical group in which the average contribution to knowledge per publication is good / very good (average 6 or 7), and several dozen publications are generated. Statistically, you must publish a high-quality (top-of-the-distribution and far-out-of-the-middle) article that will get community recognition (hopefully, published in a high-impact magazine). But if you make 100 publications a year and none reaches a certain relevance in your area, our simple statistical model indicates that the average contribution of your work should be moderate. In addition, the width of the distribution can also be moderate; in this situation, the production / work is consistent, in a narrow range of quality level. The causes can be varied; in some cases, it is reasonable to associate a moderate contribution to, for example, the researcher’s youth, poor infrastructure or limited funding. The critical point is when the problem is at the root, and the causes of moderate quality are associated with scientific / technical targets of minor importance and low risk. What to expect from an environment where both funding agencies as well as the researchers themselves (not only the agencies’ fault) accept that this serious disability can be fully compensated for by the number of publications? The result will be that the numbers will increase, but the impact will decrease.
Maybe I’m irresponsible, stubborn (Basque roots help), but my work over the years has followed certain standards. I prefer to make a high-gastronomic dish (sometimes half-burned) than to make hundreds of rice and beans dishes. I prefer to do less things and not have numerous irrelevant publications involving work that did not include any risk (I also have these jobs), and so take the time to update myself, challenge myself, study and see things out of my main interest. So I have the opportunity for new ideas, innocent, irresponsible, that with luck will work. It is important, first, to have clearly in mind what new / different thing we are going to do in our research; if there is nothing new / risky, how will the contribution to the generation of knowledge be? In fact, this line of thinking is not very popular if we look closely at most of the projects funded in the Brazilian community (however, many discourses and plans define it as essential). On the contrary, viability is often more important than relevance and originality. We could also mention other issues that make it difficult to increase the relevance of nanoscience research in Brazil, such as experimental physics, scientific instrumentation, multidisciplinarity, where the contrast between discourse and reality gives great sadness. As in gastronomy, I prefer “slow food”, a good dish, good wine and time to enjoy. We must stand up against “fast science” (short-term projects), as this is leading to shallow-knowledge.
It is sad to see the evolution of Brazil, the numbers grow, the impact decreases … Many can see positively the publication in journals of high impact, but not everyone agrees. Let me give you an example. I decided to study some new subjects where I consider that there are opportunities for very original and interesting things. To ask deeper questions, one must understand. Learning takes time … So, my activity report had problems to be approved for low productivity: I did not reach the average. I have never had much diplomacy or political skills, so joining all my revolt, and being Argentine and Basque at the same time, I wonder: am I terribly inefficient and should I retire, which at least allows me to maintain my spirit, my freedom and form of work intact? There are many discourses on how to stimulate cutting-edge research and train researchers; I think my way of contributing is to work “in my own way” and to give an example to anyone who considers it valid.
I cannot forget to thank CNPq’s Universal system, where I know I can always send crazy ideas, and the review system respects my story and relies on my “irresponsibility”. It’s little money (if compared to international standards), but I get a lot of freedom !!!, and that’s essential to be creative!!!
B-MRS Newsletter: – Now we invite you to leave a message for readers who are starting their scientific careers.
Daniel Ugarte: – Scientific work requires being dreamy and passionate, a lot of effort in study and work. We have to be able to associate knowledge, originality, infrastructure, technical ability, etc. I think it is very important to show young people that it is possible to dream and do cutting-edge research in Brazil. The scientific milieu can be very aggressive, but we must be clear that merit is the most important parameter, and that although the research environment is extremely competitive, it is essential to develop our activities while maintaining the human qualities, professionalism and ethics.
Throughout a scientific career we must face many different situations. My academic life in Brazil had many stages, some were resplendent, with work, challenges, productivity and with excellent and motivated students (the laboratory was paradise). But I also experienced very sad, disappointing stages associated with local mediocracies. However, the stones thrown in our path have been completely overcome by our work, our results and our ethics. Always, always, merit and competence will win in the game of science.
“Nanoscience and Nanotechnology: Principles and Applications” is a work distributed in 3 volumes, with a total of 22 chapters written by distinguished experts and scientists from different regions of Brazil. Volume 1 presents topics related to nanostructures; Volume 2, nanocharacterization techniques, and volume 3, examples of applications.
The book was organized by PhDs Alessandra da Róz (IFSP), Fábio de Lima Leite (UFSCar/CCTS), Marystela Ferreira (UFSCar/CCTS) and Osvaldo Novais Oliveira Jr (USP/IFSC). “We noticed that there were few books in Portuguese on Nanoscience and Nanotechnology and we got together to organize the series,” says Marystela Ferreira.
The work was released in 2015 by Elsevier’s Campus publishing house. “The series launched in 2015 was so successful that Elsevier invited us to edit this series in English,” adds Ferreira. The new challenge was accepted and is being carried out by the organizers, with help from the authors and the publisher. The first two volumes in English were released in 2016, and Volume 3 is scheduled to be released in June 2017. In the English language edition, new chapters have been added in order to cover as much material and techniques as possible. “In volume 1 carbon structures was added, and volume 3 presents the SPR technique (surface plasmon resonance),” clarifies Ferreira.
According to Ferreira, the book addresses the basic concepts and fundamental principles of Nanoscience and Nanotechnology, as well as topics such as nanosensors, nanostructured films and nanocharacterization techniques (this was included bearing in mind undergraduate and graduate students conducting experimental research). The series also includes topics on quantum mechanics and computer simulation – topics that have not yet been addressed in Brazilian Nanoscience books – written in simple and direct language, which include applications and illustrations, asserts Ferreira. New lines of research, such as Nanomedicine, Nanoelectronics and Nanoneurobiophysics were also covered in the series. “This work brings together topics in areas such as Biology, Biotechnology, Materials Physics, Medicine, Chemistry and related areas,” emphasizes Ferreira.
The volumes are available on Science Direct (Elsevier’s website for articles and books) and are sold in the form of e-book and printed book on Elsevier’s website.
Taking precise measurements of atoms and molecules. Accurately control molecules so that they form specific nanostructures or work together to achieve desired results. The nanoscientist Paul Weiss will address this and much more at the XV Brazil-MRS Meeting. Weiss is Professor at the University of California, Los Angeles (UCLA) and editor-in-chief of ACS Nano journal. At the annual SBPMat event, in addition to delivering the plenary lecture, Weiss will also participate in a roundtable to discuss scientific publication along with the public and editors of other journals.
Paul Weiss received his S.B and S.M degrees in Chemistry from the Massachusetts Institute of Technology in 1980, after conducting research in high-resolution laser spectroscopy. His doctoral research, also in Chemistry at the University of California at Berkeley, was about excited atom reactions in crossed molecular beams.
In 1986, the year he concluded his PhD, his advisor, Yuan T. Lee, was awarded the Nobel Prize in Chemistry for his contribution to the study of the dynamics of chemical elementary processes. Soon after his doctorate, Weiss began working at Bell Laboratories as a post-doc studying the effects of surface chemistry and gas-surface collisions on semiconductor surface electronic properties. In 1988, he worked at IBM Almaden Research Center, where he remained as a visiting scientist until the following year. There his work was on scanning tunneling microscopy (STM) with one of the STM pioneers, Donald Eigler. STM, which lead to a major breakthrough in nanotechnology by enabling the manipulation of individual atoms and molecules, would become one of Weiss’s favorite techniques.
In 1989, Weiss joined the faculty of Pennsylvania State University (PennState), where he continued his work with STM, expanding the technique and studying atoms and molecules. From 2001 to 2002 he was the director of the Center for Molecular Nanofabrication and Devices of PennState. In 2005 he was designated Distinguished Professor of Chemistry and Physics departments at the university.
It was also at PennState that Weiss met the scientist Anne Andrews, with whom he is married to this day. Andrews was responsible for convincing Weiss to apply his expertise and knowledge on nanoscience in the study of the human brain. In this field, and in collaboration with Andrews and other scientists, Weiss has been committed to developing tools to study the interactions between neurons, which take place through electrical and chemical signals in nanometric spaces.
Concomitantly, Paul Weiss participated in the creation of the scientific journal ACS Nano (2015 impact factor of 13,334) and has been editor in chief since the journal’s first edition, published in August 2007. In 2008, the journal received a major distinction, the PROSE Award for Best New Journal in Science, Technology, and Medicine from the Association of American Publishers.
In 2009, he joined the University of California, Los Angeles (UCLA), where he was named Distinguished Professor of Chemistry & Biochemistry. Furthermore, he received, until 2014, the Fred Kavli Chair in Nanosystems Sciences and the directorship of the California NanoSystems Institute, a multidisciplinary institute of research and innovation in nanoscience and nanotechnology. Weiss has also been leading at UCLA a research group that gathers together chemists, physicists, biologists, materials scientists, electrical and mechanical engineers and computer scientists.
Paul Weiss was a visiting professor at the University of Washington (1996 – 1997) and at Kyoto University (1998 and 2000). In 2015, he was Distinguished Visiting Professor at the California Institute of Technology, and Visiting Scholar at Harvard University.
Paul Weiss has published over 300 papers and has approximately 20 patents. According to Google Scholar he has an h-index of 60 and more than 16,000 citations. He has given over 600 invited, plenary, keynote, and named lectures. Weiss has received many awards and distinctions for his research, teaching and scientific publishing. He is an elected senior fellow of IEEE, an elected fellow of the American Chemical Society, the American Physical Society, the American Association for the Advancement of Science, and the American Vacuum Society, and an honorary fellow of the Chinese Chemical Society.
He is currently Distinguished Professor in the Department of Chemistry & Biochemistry and the Department of Materials Science & Engineering at UCLA. He is also Visiting Professor at Nanyang Technological University and continues to work as editor in chief of ACS Nano. Paul S. Weiss also holds a UC Presidential Chair at UCLA.
Here is a brief interview with this speaker of the XV Brazil-MRS Meeting:
SBPMat newsletter: – In your opinion, what are your main contributions on the themes of your plenary lecture? Could you also share with us a couple of references pertaining to publications on these subjects?
Paul Weiss: – In our work, we explore the ultimate limits of miniaturization. We have assembled and operated the smallest switches and motors in the world. To do that, we have put together two sets of capabilities. First, we designed and applied new microscopes and microscopies that can simultaneously measure structure, function, and spectra, with submolecular resolution. In the other, we have developed the ability to place individual molecules into precisely controlled environments. We combine these to understand functional mechanisms and to design new molecules and assemblies to test our ideas.
Try these papers:
Controlling Motion at the Nanoscale: Rise of the Molecular Machines, J. M. Abendroth, O. S. Bushuyev, P. S. Weiss, and C. J. Barrett, ACS Nano9, 7746 (2015). (Abstract or Article or PDF)
From the Bottom Up: Dimensional Control and Characterization in Molecular Monolayers, S. A. Claridge, W.-S. Liao, J. C. Thomas, Y. Zhao, H. Cao, S. Cheunkar, A. C. Serino, A. M. Andrews, and P. S. Weiss, Chemical Society Reviews42, 2725 (2013). (Abstract or Article or PDF)
SBPMat newsletter: – You are part of the team that created ACS Nano, launched in 2007, right? Could you tell us which elements you attribute to the success of the journal, reflected in its impact factor and the awards received
Paul Weiss: – Yes, I was the founding editor-in-chief and continue in that role.
We decided to create a forward-looking journal in which we would lay out the challenges and opportunities for the field, in order to guide and to accelerate advances. We felt that while there are many journals that published communications in nanoscience and nanotechnology, there was not a strong journal that published comprehensive work, on which others could build. This situation, we decided, was holding back our field. We set out to find the most diverse set of curious editors from different fields and we set the journal up to be extremely fast and fair to all authors. Only scientists make decisions and it takes at least two scientists to make decisions to decline manuscripts. Our editors have conversations every day on where the field is going and what are true advances. We have made it intellectually stimulating for ourselves and we believe also for our readers. The result is that we can see the real impact on the worlds of science, engineering, medicine, and beyond. We published the technology roadmaps proposing the BRAIN Initiative in the US and beyond and the new Microbiome Initiative. Stay tuned for more!
Nanotools for Neuroscience and Brain Activity Mapping, A. P. Alivisatos, A. M. Andrews, E. S. Boyden, M. Chun, G. M. Church, K. Deisseroth, J. P. Donoghue, S. E. Fraser, J. Lippincott-Schwartz, L. L. Looger, S. Masmanidis, P. L. McEuen, A. V. Nurmikko, H. Park, D. S. Peterka, C. Reid, M. L. Roukes, A. Scherer, T. J. Sejnowski, K. L. Shepard, D. Tsao, G. Turrigiano, P. S. Weiss, C. Xu, R. Yuste, and X. Zhuang, ACS Nano7, 1850 (2013). (Abstract or Article or PDF)
Tools for the Microbiome: Nano and Beyond, J. S. Biteen, P. C. Blainey, M. Chun, G. M. Church, P. C. Dorrestein, S. E. Fraser, J. A. Gilbert, J. K. Jansson, R. Knight, J. F. Miller, A. Ozcan, K. A. Prather, E. G. Ruby, P. A. Silver, S. Taha, G. van den Engh, P. S. Weiss, G. C. L. Wong, A. T. Wright, and T. D. Young, ACS Nano10, 6 (2016). (Abstract or Article orPDF)
SBPMat newsletter: – Please leave an invitation to our readers to attend your plenary lecture “Cooperative Function in Atomically Precise Nanoscale Assemblies” in the XV Brazil-MRS Meeting.
Paul Weiss: – I hope you will join me at the XV Brazil-MRS Meeting for a discussion of how we can explore and understand function at the nanoscale and what it teaches us about the world around us.
Mildred Dresselhaus, professora emérita do Massachusetts Institute of Technology (MIT), recebeu o Prêmio Kavli de Nanociência, em cerimônia realizada em Oslo (Noruega) no dia 4 de setembro passado.
O prêmio foi outorgado à pesquisadora em reconhecimento a suas contribuições pioneiras no estudo dos fônons, das interações entre elétrons e fônons e do transporte térmico em nanoestruturas.
Atualmente na sua terceira edição, o prêmio Kavli, da Academia Norueguesa de Ciência e Letras, é entregue a cada dois anos para honrar, apoiar e reconhecer cientistas cujo trabalho tenha tido profundo impacto em três áreas do conhecimento consideradas especialmente relevantes no século 21: astrofísica, nanociência e neurociência.
O prêmio também visa aumentar a consciência da sociedade em geral quanto aos benefícios que a ciência básica traz para a vida de todos. Nesse sentido, a cerimônia de entrega ocorre dentro de uma programação de palestras e debates sobre ciência.
Saiba mais sobre as contribuições de Dresselhaus à área de Materiais reconhecidas neste prêmio: http://www.kavlifoundation.org/2012-nanoscience-citation
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