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In recent decades, developments in software and hardware technologies have created dramatic shifts in design, manufacturing and research. Software technologies have facilitated automated process and new solutions for complex problems. Computation has also become a platform for creativity through generative art and design. New hardware platforms and digital fabrication technologies have similarly transformed manufacturing, offering more efficient production and mass customization. Such advances have helped catalyzed the maker-movement, democratizing design and maker culture. This influx of new capabilities to design, compute and fabricate like never before, has sparked a renewed interest in material performance.
We are now witnessing significant advances in active matter, 3D/4D Printing, materials science, synthetic biology, DNA nanotechnology and soft robotics, which have led to the convergence of software, hardware and material technologies and the growing field of programmable materials.
This conference was about the emerging field of active matter and programmable materials that bridges the worlds of art, science, engineering and design, demonstrating new perspectives for computation, transformation and dynamic material applications.
If over the past few decades we have experienced a software revolution, and more recently, a hardware revolution, this conference aims to discuss the premises, challenges and innovations brought by today’s materials revolution. We can now sense, compute, and actuate with materials alone, just as we could with software and hardware platforms previously. How does this shift influence materials research, and how does it shape the future of design, arts, and industrial applications? What tools and design processes do we need to advance, augment and invent new materials today? What are the key roles that industry, government, academic and public institutions can play in catalyzing the field of programmable materials?
This two-day conference consisted of a range of talks and lively discussion from leading researchers in materials science, art & design, synthetic biology and soft-robotics along with leaders from government, public institutions and industry.
Learn more at activemattersummit.com
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
In recent decades, developments in software and hardware technologies have created dramatic shifts in design, manufacturing and research. Software technologies have facilitated automated process and new solutions for complex problems. Computation has also become a platform for creativity through generative art and design. New hardware platforms and digital fabrication technologies have similarly transformed manufacturing, offering more efficient production and mass customization. Such advances have helped catalyzed the maker-movement, democratizing design and maker culture. This influx of new capabilities to design, compute and fabricate like never before, has sparked a renewed interest in material performance.
We are now witnessing significant advances in active matter, 3D/4D Printing, materials science, synthetic biology, DNA nanotechnology and soft robotics, which have led to the convergence of software, hardware and material technologies and the growing field of programmable materials.
This conference was about the emerging field of active matter and programmable materials that bridges the worlds of art, science, engineering and design, demonstrating new perspectives for computation, transformation and dynamic material applications.
If over the past few decades we have experienced a software revolution, and more recently, a hardware revolution, this conference aims to discuss the premises, challenges and innovations brought by today’s materials revolution. We can now sense, compute, and actuate with materials alone, just as we could with software and hardware platforms previously. How does this shift influence materials research, and how does it shape the future of design, arts, and industrial applications? What tools and design processes do we need to advance, augment and invent new materials today? What are the key roles that industry, government, academic and public institutions can play in catalyzing the field of programmable materials?
This two-day conference consisted of a range of talks and lively discussion from leading researchers in materials science, art & design, synthetic biology and soft-robotics along with leaders from government, public institutions and industry.
Learn more at activemattersummit.com
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
In recent decades, developments in software and hardware technologies have created dramatic shifts in design, manufacturing and research. Software technologies have facilitated automated process and new solutions for complex problems. Computation has also become a platform for creativity through generative art and design. New hardware platforms and digital fabrication technologies have similarly transformed manufacturing, offering more efficient production and mass customization. Such advances have helped catalyzed the maker-movement, democratizing design and maker culture. This influx of new capabilities to design, compute and fabricate like never before, has sparked a renewed interest in material performance.
We are now witnessing significant advances in active matter, 3D/4D Printing, materials science, synthetic biology, DNA nanotechnology and soft robotics, which have led to the convergence of software, hardware and material technologies and the growing field of programmable materials.
This conference was about the emerging field of active matter and programmable materials that bridges the worlds of art, science, engineering and design, demonstrating new perspectives for computation, transformation and dynamic material applications.
If over the past few decades we have experienced a software revolution, and more recently, a hardware revolution, this conference aims to discuss the premises, challenges and innovations brought by today’s materials revolution. We can now sense, compute, and actuate with materials alone, just as we could with software and hardware platforms previously. How does this shift influence materials research, and how does it shape the future of design, arts, and industrial applications? What tools and design processes do we need to advance, augment and invent new materials today? What are the key roles that industry, government, academic and public institutions can play in catalyzing the field of programmable materials?
This two-day conference consisted of a range of talks and lively discussion from leading researchers in materials science, art & design, synthetic biology and soft-robotics along with leaders from government, public institutions and industry.
Learn more at activemattersummit.com
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
Northwestern University's Materials Science and Engineering Awards Banquet on Thursday, May 18th, 2017. Photos by Jasmin Shah.
Five panelists explored the theme of "The Good, the Bad, and the Ugly of Furnace Tapping." Each of the panelists delivered a brief presentation on the theme, and then the panel fielded audience questions.
Five panelists explored the theme of "The Good, the Bad, and the Ugly of Furnace Tapping." Each of the panelists delivered a brief presentation on the theme, and then the panel fielded audience questions.
In recent decades, developments in software and hardware technologies have created dramatic shifts in design, manufacturing and research. Software technologies have facilitated automated process and new solutions for complex problems. Computation has also become a platform for creativity through generative art and design. New hardware platforms and digital fabrication technologies have similarly transformed manufacturing, offering more efficient production and mass customization. Such advances have helped catalyzed the maker-movement, democratizing design and maker culture. This influx of new capabilities to design, compute and fabricate like never before, has sparked a renewed interest in material performance.
We are now witnessing significant advances in active matter, 3D/4D Printing, materials science, synthetic biology, DNA nanotechnology and soft robotics, which have led to the convergence of software, hardware and material technologies and the growing field of programmable materials.
This conference was about the emerging field of active matter and programmable materials that bridges the worlds of art, science, engineering and design, demonstrating new perspectives for computation, transformation and dynamic material applications.
If over the past few decades we have experienced a software revolution, and more recently, a hardware revolution, this conference aims to discuss the premises, challenges and innovations brought by today’s materials revolution. We can now sense, compute, and actuate with materials alone, just as we could with software and hardware platforms previously. How does this shift influence materials research, and how does it shape the future of design, arts, and industrial applications? What tools and design processes do we need to advance, augment and invent new materials today? What are the key roles that industry, government, academic and public institutions can play in catalyzing the field of programmable materials?
This two-day conference consisted of a range of talks and lively discussion from leading researchers in materials science, art & design, synthetic biology and soft-robotics along with leaders from government, public institutions and industry.
Learn more at activemattersummit.com
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
During the luncheon, both the EPD and MPMD recognized students and professional members with division-level awards, including scholarships, young professional development awards, and division service awards
During the luncheon, both the EPD and MPMD recognized students and professional members with division-level awards, including scholarships, young professional development awards, and division service awards
During the luncheon, both the EPD and MPMD recognized students and professional members with division-level awards, including scholarships, young professional development awards, and division service awards
Victoria Miller, University of Florida, speaks at the Invisible Pipeline: Recruitment/Retention of Underrepresented Minorities session.
Viola Acoff shared her powerful story at the Opening Keynote Session for the Fourth Summit on Diversity in the Minerals, Metals, and Materials Professions (DMMM4) and set the stage for the panel discussion and group conversations that followed.
The Materials Science and Engineering Department's annual Alumni Banquet at the Hilton Orrington's Heritage Ballroom in Evanston, IL on Thursday, May 16th, 2014. Photos by Jasmin Shah
Katie Thomas, Organizational Development and Culture / Idaho State University, gives her presentation, "Leveraging a Strengths-based Approach to Diversity and Inclusion."
During the luncheon, both the EPD and MPMD recognized students and professional members with division-level awards, including scholarships, young professional development awards, and division service awards
Paul Krajewski, General Motors Global Research and Development Center, delivered the featured talk at Tuesday's Extraction & Processing Division (EPD)/Materials Processing & Manufacturing Division (MPMD) Luncheon.
During the luncheon, both the EPD and MPMD recognized students and professional members with division-level awards, including scholarships, young professional development awards, and division service awards
The Materials Science and Engineering Department's annual Alumni Banquet at the Hilton Orrington's Heritage Ballroom in Evanston, IL on Thursday, May 16th, 2014. Photos by Jasmin Shah
Blythe Gore Clark, Sandia National Laboratories, gives her presentation, "Mitigating Implicit Bias as Individuals and Institutions."
The Materials Science and Engineering Department's annual Alumni Banquet at the Hilton Orrington's Heritage Ballroom in Evanston, IL on Thursday, May 16th, 2014. Photos by Jasmin Shah
Five panelists explored the theme of "The Good, the Bad, and the Ugly of Furnace Tapping." Each of the panelists delivered a brief presentation on the theme, and then the panel fielded audience questions.
David Dye, Imperial College, delivers the Acta Materialia Silver Medal Lecture at the Acta Materialia Symposium and Award Session.
In recent decades, developments in software and hardware technologies have created dramatic shifts in design, manufacturing and research. Software technologies have facilitated automated process and new solutions for complex problems. Computation has also become a platform for creativity through generative art and design. New hardware platforms and digital fabrication technologies have similarly transformed manufacturing, offering more efficient production and mass customization. Such advances have helped catalyzed the maker-movement, democratizing design and maker culture. This influx of new capabilities to design, compute and fabricate like never before, has sparked a renewed interest in material performance.
We are now witnessing significant advances in active matter, 3D/4D Printing, materials science, synthetic biology, DNA nanotechnology and soft robotics, which have led to the convergence of software, hardware and material technologies and the growing field of programmable materials.
This conference was about the emerging field of active matter and programmable materials that bridges the worlds of art, science, engineering and design, demonstrating new perspectives for computation, transformation and dynamic material applications.
If over the past few decades we have experienced a software revolution, and more recently, a hardware revolution, this conference aims to discuss the premises, challenges and innovations brought by today’s materials revolution. We can now sense, compute, and actuate with materials alone, just as we could with software and hardware platforms previously. How does this shift influence materials research, and how does it shape the future of design, arts, and industrial applications? What tools and design processes do we need to advance, augment and invent new materials today? What are the key roles that industry, government, academic and public institutions can play in catalyzing the field of programmable materials?
This two-day conference consisted of a range of talks and lively discussion from leading researchers in materials science, art & design, synthetic biology and soft-robotics along with leaders from government, public institutions and industry.
Learn more at activemattersummit.com
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
Work by a team of Penn State researchers led by Mohammad Reza Abidian may lead the way to the microencapsulation of chemotherapeutics. The breakthrough would allow doctors to directly inject medication to a brain tumor area and control the amount of medicine being dispersed. The work allows for control of size, shape, and drug release.
Viola Acoff shared her powerful story at the Opening Keynote Session for the Fourth Summit on Diversity in the Minerals, Metals, and Materials Professions (DMMM4) and set the stage for the panel discussion and group conversations that followed.
In recent decades, developments in software and hardware technologies have created dramatic shifts in design, manufacturing and research. Software technologies have facilitated automated process and new solutions for complex problems. Computation has also become a platform for creativity through generative art and design. New hardware platforms and digital fabrication technologies have similarly transformed manufacturing, offering more efficient production and mass customization. Such advances have helped catalyzed the maker-movement, democratizing design and maker culture. This influx of new capabilities to design, compute and fabricate like never before, has sparked a renewed interest in material performance.
We are now witnessing significant advances in active matter, 3D/4D Printing, materials science, synthetic biology, DNA nanotechnology and soft robotics, which have led to the convergence of software, hardware and material technologies and the growing field of programmable materials.
This conference was about the emerging field of active matter and programmable materials that bridges the worlds of art, science, engineering and design, demonstrating new perspectives for computation, transformation and dynamic material applications.
If over the past few decades we have experienced a software revolution, and more recently, a hardware revolution, this conference aims to discuss the premises, challenges and innovations brought by today’s materials revolution. We can now sense, compute, and actuate with materials alone, just as we could with software and hardware platforms previously. How does this shift influence materials research, and how does it shape the future of design, arts, and industrial applications? What tools and design processes do we need to advance, augment and invent new materials today? What are the key roles that industry, government, academic and public institutions can play in catalyzing the field of programmable materials?
This two-day conference consisted of a range of talks and lively discussion from leading researchers in materials science, art & design, synthetic biology and soft-robotics along with leaders from government, public institutions and industry.
Learn more at activemattersummit.com
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
In recent decades, developments in software and hardware technologies have created dramatic shifts in design, manufacturing and research. Software technologies have facilitated automated process and new solutions for complex problems. Computation has also become a platform for creativity through generative art and design. New hardware platforms and digital fabrication technologies have similarly transformed manufacturing, offering more efficient production and mass customization. Such advances have helped catalyzed the maker-movement, democratizing design and maker culture. This influx of new capabilities to design, compute and fabricate like never before, has sparked a renewed interest in material performance.
We are now witnessing significant advances in active matter, 3D/4D Printing, materials science, synthetic biology, DNA nanotechnology and soft robotics, which have led to the convergence of software, hardware and material technologies and the growing field of programmable materials.
This conference was about the emerging field of active matter and programmable materials that bridges the worlds of art, science, engineering and design, demonstrating new perspectives for computation, transformation and dynamic material applications.
If over the past few decades we have experienced a software revolution, and more recently, a hardware revolution, this conference aims to discuss the premises, challenges and innovations brought by today’s materials revolution. We can now sense, compute, and actuate with materials alone, just as we could with software and hardware platforms previously. How does this shift influence materials research, and how does it shape the future of design, arts, and industrial applications? What tools and design processes do we need to advance, augment and invent new materials today? What are the key roles that industry, government, academic and public institutions can play in catalyzing the field of programmable materials?
This two-day conference consisted of a range of talks and lively discussion from leading researchers in materials science, art & design, synthetic biology and soft-robotics along with leaders from government, public institutions and industry.
Learn more at activemattersummit.com
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
Participants met with speakers and DMMM4 organizers to begin making connections with other attendees, preparing for the next two days of programming and activities at the DMMM4 Preview and Networking Mixer.
Katie Thomas, Organizational Development and Culture / Idaho State University, gives her presentation, "Leveraging a Strengths-based Approach to Diversity and Inclusion."
Photos from the 2018 MSE Undergraduate Research Symposium at Lehigh University, on January 25, 2018. Seen here at the symposium are (left to right): Thomas Farinha; Prof. Sabrina Jedlicka, dept. co-chair; Prof. Wojtek Misiolek, dept. chair; Reilly Callahan; Dr. Amanda Krause, lecturer, post-doc research associate and symposium organizer
Five panelists explored the theme of "The Good, the Bad, and the Ugly of Furnace Tapping." Each of the panelists delivered a brief presentation on the theme, and then the panel fielded audience questions.
Viola Acoff shared her powerful story at the Opening Keynote Session for the Fourth Summit on Diversity in the Minerals, Metals, and Materials Professions (DMMM4) and set the stage for the panel discussion and group conversations that followed.
During the luncheon, both the EPD and MPMD recognized students and professional members with division-level awards, including scholarships, young professional development awards, and division service awards
The Materials Science and Engineering Department's annual Alumni Banquet at the Hilton Orrington's Heritage Ballroom in Evanston, IL on Thursday, May 16th, 2014. Photos by Jasmin Shah