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I just received the sad news that one of the legends of materials science and of science, in general, Rustum Roy, passed away last week. Although he was a stellar researcher, he considered himself to be a citizen-scientist and urged his colleagues to deeply consider how science, society, art and education can interact in productive and nonproductive ways.

It is difficult to summarize Roy’s influence on the world of science, let alone just the fields of ceramics and glass. He held five professorships: three at Pennsylvania State University, one at Arizona State University and one at the University of Arizona. He was a 32-year member of the National Academy of Engineering, with the rare distinction also of having been elected to the National Academies of Science/Engineering of Russia, Japan, Sweden and India.

In 2003, the Institute for Scientific Information ranked Penn State’s Materials Research Laboratory, which he founded in 1962 and directed for a quarter century, first in the world on the basis of the number of highly cited scientists in the lab.

Roy left a permanent mark on the materials field, starting with its most fundamental base: phase diagrams and crystal chemistry. His discovery and championing of a new materials processing method — the sol–gel process — has been utilized (not only cited) in over 50,000 papers. His work in hydrothermal reaction, microwave processing, nucleation in glass, radioactive wastes, nanocomposites and superconductors have also left a permanent legacy.

Roy became a Fellow of The American Ceramic Society in 1961 and elevated to Distinguished Life Member in 1993. He had also sponsored one of the most anticipated annual lectures of ACerS: The Frontiers of Science Rustum Roy Lecture series that has been a fixture of the Society’s Annual Meetings.

Roy authored or coauthored hundreds of papers, founded and edited numerous newsletters and journals in materials science and engineering education. One of his recent papers appeared in the first issue of ACerS’ new International Journal of Applied Glass Science, “Glass Science and Glassmaking: A Personal Perspective,” [ed. note - this paper is available at no cost] and represents something of a tour de force of his career:

“This paper demonstrates how glass has provided one of the earliest, and still rare, examples of controlled use of science at the nanolevel in a well-established gigatechnology. The glass community - from the Venetian glass makers (and the science of luminaries such as Michael Faraday and Isaac Newton) down through major industrial successes such as glass-ceramics - are examples of excellent nanoengineers practicing clever applications of manipulation of matter at the nano and subnano scale. This paper describes the evolution of the understanding of nanoheterogeneity of the structure (and composition of virtually all useful glasses) that has been the key evolutionary ‘invention’ in this process. It then makes the case that glass (and polymer) technology has an enormous advantage over all of the nanomaterial technologies that are confronted with the enormous barrier of assembling large numbers of very small particles into useful products on a large scale, as recognized by the recently anointed patron saint of the present nanofever, Richard Feynman, in his only paper in the field. Finally, this paper introduces glass scientists to a radically new opportunity via a totally new way to convert crystalline matter into glasses (noncrystalline solids)-for all scientists interested in the glassy state.”

Roy also chaired the Science Advisory Committee of the Friends of Health, a nonprofit group that examines a range of disruptive innovations in human healing based on materials science and physics.

In an obituary on Penn State’s website, one of Roy’s colleagues, Carlo Pantano, had this to say:

“Rustum Roy made a difference for the field of materials science and for Penn State. He had a tremendous publication record extending back 60 years that people still refer to in their research. At every step of the way he seemed to be ahead of the curve, in research as well as in the way he managed the scientific enterprise. He was well-known to be an enthusiastic and provocative lecturer by students and colleagues alike. His crystal chemistry course was on every graduate student’s course list, in addition to numerous special topics courses he created in concert with the latest and hottest research topics in materials science.”

Roy was interested in science policy as much as science, itself, and he served as a science policy fellow at the Brookings Institution from 1982 to 1983 and was a visiting fellow at the Institute for Policy Studies in Washington, D.C., from 1980 to 1985.

He was also a lay preacher and served on the board of the National Council of Churches and helped found the Sycamore Community church.

Finally, it is important to note Roy’s long-time marriage to fellow materials scientist Della Martin Roy, another legendary figure in the world of material science and policy.

Here is Roy’s formal obituary from the Centre Daily Times:

Rustum Roy, 86, of State College, died Thursday, August 26, 2010 at Foxdale Village.

Born on July 3, 1924, in Ranchi, India, he was the seventh child of the late Narendra Kumar and Rajkumari Roy. On June 8, 1948, he married Della Martin, who survives.

Also surviving are three children, Neill R. Roy and his wife, Evelina Francis, of State College, Jeremy R. Roy and his wife, Lydia, of Arlington, Tex., and Ronnen A. Roy and his wife, Sinaly, of Bethesda, Md.; two grandchildren, Simone and Naren; a brother, Prodipto Roy of India, and a sister Ioni Dipti Sisodia of Georgia; and by numerous nieces and nephews.

He received B.Sc. and M.Sc. degrees from Patna University and received his Ph.D. from the Pennsylvania State University.

He was associated with Penn State for sixty-five years as a graduate student and faculty member. At Penn State he held positions as Evan Pugh Professor of the Solid State, as Professor of S.T.S., and as Professor of Geochemistry. He also was a Distinguished Professor of Materials at Arizona State University, and a Visiting Professor of Medicine at the University of Arizona. He was appointed and served for 23 years as the first director of an independent interdisciplinary Materials Research Laboratory in the U.S. He was elected to numerous national and international scientific academies including the U.S. National Academy of Engineering. He co-founded the pioneering nterdisciplinary scientific society - the Materials Research Society- and continued to advance the boundaries of science and technology up to the present, including seminal research in the emerging field of water science, as well as resonance effects in condensed matter.

An outstanding aspect of his life was his capacity and dedication to breaking artificial boundaries in order to integrate science, religion, education, health, art and social action for human benefit. As an eight year old, in his parent’s house he met Gandhi, who discussed with his father how personal change was more effective for human advancement than technological change. Professor Roy’s solution in life was to pursue both.

He was very active in ecumenical religious life for over 60 years and co-founded the interdenominational Sycamore Community. His insight into the world’s main religions led him to work to break down the boundaries between Christianity, Hinduism, Islam, Buddhism and other religions. He served on the Executive Committee of the National Council of Churches, was a leader in the Kirkridge retreat center, and was the friend and colleague of many religious leaders including Bishop John Robinson, John Shelby Spong, Prof. Harvey Cox, Sister Joan Chittister and Reverend Gordon Cosby. He was also invited by the Pope to the Vatican committee regarding the rehabilitation of Galileo.

He was a champion of interdisciplinary K-12 schooling and was the driving force behind creation of the interdisciplinary field of Science, Technology and Society. He served as Science Advisor to a number of successive Pennsylvania Governors and chaired for many years the Science and Society Sector of President Mikhail Gorbachev’s State of the World forum.

Professor Roy became a champion of integrative medicine, resulting in alliances with pioneering figures including Andrew Weil, Deepak Chopra, Larry Dossey, B.M. Hegde, Marc Newkirk, Patrick Flanagan, Hans Peter Duerr, Vladimir Voeikov, and Yan Xin, with the purpose of bringing advances in the art and science of whole person healing to the wider public. He was founder and sponsor of Friends of Health, served as co-chair of the Chopra Foundation, and hosted a live Internet talk radio show on VoiceAmerica.com.

He was also a long time promoter of art and the field of art and science, and was responsible for bringing the works of artists, such as Barbara Hepworth, Max Bill, and Fredrick Franck, to the University.

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I received some additional information about Carlo Pantano’s presentation on “The Art of Science of Glass” that will be held at 12 noon, March 26, 2010 at Penn State University.

Don’t expect a formal and technical lecture. Instead, Pantano’s presentation/conversation is part of Penn State’s ongoing “Unplugged” luncheon series that is modeled on the Café Scientifique concept that looks for opportunities to have an informal exchange between scientists and the public.

Here is what Pantano - who directs the Penn State Materials Research Institute – tells me he hopes to cover in his presentation:

“Historically, artists and scientists have been very successful collaborators. The glass artists in Italy gave Galileo his first glass lens. Archaeological stained glasses provide models for nuclear waste disposal. The Glass Flowers, which are precise, realistic models of plants, served as models for botanists at the turn of the century. Obsidian, a natural volcanic glass, first served stone age man for utilitarian purposes but progressed to be an artform. Today, both natural and synthetic glasses are widely used to create glass art. (Or, is it art glass?) Moreover, the materials and technology used to create the world-renowned glass art of Tagliapietra and Chihuly are as important to artists today as the samples of arts and craft glass were to the early scientists who made the first spectacles, thermometers, telescopes, batteries and vacuum chambers.

“Yet, we do not really educate across the art-science interface.

“In this conversation, I will describe these and other crossovers between the art and science of glass: glass manufacturing defects that inspire art; stained glass and photovoltaic solar art glass; glass art using a femtosecond laser; the increasing use of glass in architecture and medicine; and the broader impact of glass in our society. I will also describe our DaVinci glassblowing program at Penn State and our recent international excursion to bring artists, chemists and conservation scientists together at the graduate and professional level.

“My primary motivation for the DaVinci program at Penn State is to put real materials into the hands of undergraduate students in any discipline. A material they can make, study, control and be creative with. Glass art, especially glassblowing, familiarizes art students with scientific principles, materials and technology; for science and engineering students, it provides a sense of aesthetics and the importance of creating new ideas through association rather than simply deductive thinking. Artists and scientists may have different practical goals and approaches, but understanding and describing the nature of things is always at the root. Other motivations for the program are to heighten the interest of children and the public in science, and more generally, to introduce students to the real world of interdisciplinarity and the difficulties of communication therein.

The talk will take place in the Executive Room at the Penn State Conference Center Hotel. It is open to the public and includes a buffet luncheon. The event will begin at 12 noon, with the talk to begin at 12:15 p.m. to allow time for people to go through the buffet line. The cost is $8 per person for members of the Penn State Alumni Association and $12 per person for nonmembers. Reservations are required and can be made by contacting Marilyn Engle at mbengle@psu.edu or 814-863-8117. Payment will be accepted at the event by check made payable to Penn State. The deadline to make a reservation is Friday, March 12.

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