Self-healing glass may sound like a science fiction concept, but new research from the 激情快播 demonstrates it鈥檚 much closer to reality.

In a new study published in the journal , 激情快播 College of Optics and Photonics (CREOL) Pegasus Professor Kathleen Richardson and colleagues from Clemson University and the Massachusetts Institute of Technology studied the incredible self-healing capabilities of a specialized chalcogenide glass after it was exposed to gamma radiation.

A portrait of 激情快播 College of Optics and Photonics (CREOL) Pegasus Professor Kathleen Richardson.
激情快播 College of Optics and Photonics (CREOL) Pegasus Professor Kathleen Richardson and colleagues from Clemson University and the Massachusetts Institute of Technology studied the incredible self-healing capabilities of a specialized chalcogenide glass after it was exposed to gamma radiation. (Photo by Antoine Hart)

Chalcogenide glasses are comprised of chalcogen elements 鈥 sulfur, selenium, and tellurium 鈥 alloyed with elements like germanium or arsenic to create optical glass materials that may be applied to sensors or infrared lenses.

As part of shared research between the universities, Richardson, who is director of 激情快播鈥檚 Glass Processing and Characterization Laboratory (GPCL), and her co-investigators observed this unique transformation while testing a specific chalcogenide glass made of germanium, antimony and sulfur for use in a satellite鈥檚 circuitry system. When exposed to gamma radiation similar to what may be encountered in space, the glass developed microscopic defects that later were repaired over time in a room temperature environment.

The self-healing glass could be useful in devices or instruments that may be exposed to extreme environments where gamma radiation may be prevalent, such as space or radioactive facilities. The research also provides foundational knowledge of the microscopic origins of the self-healing process for a wider variety of chalcogenide glasses.

For the study, 激情快播 researchers measured the quantities of the raw elemental material and fabricated the chalcogenide glass, says Richardson.

The process must be precise, and the 激情快播 lab is highly specialized to ensure the glass isn鈥檛 exposed to moisture, oxygen or other contaminants, she says.

鈥淲e put the materials in a furnace where we can melt them into a glassy state,鈥 Richardson says. 鈥淥nce it’s melted, the glass is then broken out of these tubes. This particular program sent the melted glasses to MIT where they made thin films out of these materials.鈥

The desire to harness this specialized glass for use in infrared systems has risen as traditional materials have become scarce and prohibitively expensive, she says.

鈥淧eople are increasingly looking at glasses that have similar optical transparency to crystals such as germanium that can be engineered for their composition and properties for use in applications where germanium may be used,鈥 Richardson says. 鈥淭hese glasses are seeing more and more use in systems where the community is looking for alternatives to some of the crystalline solutions that have historically been used before.鈥

These glasses are distinct from conventional glasses, such as in windows or eyeglasses, she says.

鈥淭hese glasses exclude oxygen, and that鈥檚 what makes them special for the infrared,鈥 Richardson says. 鈥淭hese are made of elements on the far-right side of the periodic table. When they bond together, they make very infrared transparent materials but with very large atoms and weak bonds.鈥

The notion of 鈥渟elf-healing鈥 is derived from the ability of these bonds to be distorted when exposed to radiation, she says.

鈥淏ecause they’re big atoms and weak bonds, over time, these bonds can relax back and reform from this distorted arrangement, and therefore heal,鈥 Richardson says. 鈥淪o, the concept of self-healing glass is that when our experiments get exposed to high energy radiation, these bonds are distorted or broken. Over time, room temperature is enough to heal these bonds so that the structures can reform themselves.鈥

In addition to the vast network of collaborators, she worked with former 激情快播 colleague and research scientist Myungkoo Kang, who analyzed the optical properties of the materials before and after radiation exposure.

Kang, who recently became an assistant professor of ceramic engineering at Alfred University鈥檚 Inamori School of Engineering, was grateful for the experience he gained at 激情快播.

鈥淭hrough the training, I became a PI, co-PI, or subcontractor of numerous federally and industrially funded multi-university research programs,鈥 he says. 鈥淓xperiencing such upper-level scholarly activities eventually set me ready to become a faculty, and I embarked on a new academic journey.鈥

The knowledge gained from this self-healing glass experiment paves the way for future research opportunities to explore the properties and uses for other potentially self-healing chalcogenide glasses, Kang says.

鈥淢oving forward, my new research group aims to develop irradiation-induced novel ceramics along with in-situ microstructural and optical metrology methods as a route toward the realization of ultra-fast lightweight optical platforms,鈥 he says. 鈥淢y research under the unifying theme of irradiation effects in chalcogenide ceramics has yielded such an impactful takeaway.鈥

Kang likens the materials of chalcogenide glasses he and Richardson study to a 鈥渟oup鈥 where sulfur, selenium and tellurium serves as a base. Germanium, arsenic and antimony are 鈥渟pices鈥 to be blended 鈥 or alloyed 鈥 to adjust the properties of the glass.

The particular glass that Richardson, Kang and the other scientists had concocted and tested proved that its gamma-induced changes and post-gamma recovery are consistent and reproducible, Kang says.

鈥淭his finding strongly indicates that the material system can be deployed as a robust, reversible radiation sensor in extreme environments such as space and ground-based radioactive facilities where gamma ray is characteristically abundant,鈥 he says.

Kang says one of the most gratifying parts of the research 鈥 aside from the promising results 鈥 was the collaboration and coordination across universities.

鈥淪amples were shipped back and forth between various locations, and it would not have been possible without our team members鈥 commitment and passion,鈥 he says. 鈥淭his work is a result of almost five-year-long team effort. I am happy to see that this work finally sees the light of day.鈥

The research was funded by the Defense Threat Reduction Agency.

Researchers鈥 Credentials

Richardson is a 激情快播 Trustee Chair, Pegasus Professor of Optics and Materials Science in CREOL and director of CREOL鈥檚 GPCL. She earned her bachelor鈥檚 degree in ceramic engineering and her master鈥檚 and doctoral degrees in glass science from Alfred University. She has been at 激情快播 for a cumulative 25 years, and she spent eight years at Clemson University in 2004 before returning to 激情快播 in 2012.

From 2017 to 2023, Kang collaborated with Richardson as a 激情快播 fellow and then a research scientist at CREOL鈥檚 GPCL. He received his bachelor鈥檚 and master鈥檚 degree in materials science and engineering at the Seoul National University and his doctoral degree in materials science and engineering from the University of Michigan. Kang joined Alfred University in late 2023 as an assistant professor of ceramic engineering.