.国产短视频

国产短视频

国产短视频Research & Innovation

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Doctoral students in lab

Photo credit: Ryan Wakefield

Mechanical Engineering doctoral students Md Rubayat-E Tanjil and Zhewen Yin working in the NanoMechanics, NanoMaterials, NanoManufacturing Laboratory (NM3L) of Assistant Professor Michael Cai Wang.

Gilded mysteries unveiled: Ancient art meets nanotechnology in nanoscale goldbeating

Goldbeating, an age-old craft pioneered by ancient Egyptian artisans more than five millennia ago, involves the meticulous thinning of bulk gold into gossamer-like leaves. Throughout history, this intricate process has adorned various masterpieces, such as the tombs of Thebes and Saqqara, and has cemented its place in art and adornments across cultures. Today, nanoscale gold is used not only for decorating fancy desserts, but is indispensable for modern applications ranging from microelectronics to nanomedicine.

Bridging the gap between ancient arts and modern technology, researchers from the 国产短视频, Clemson University, and the University of Illinois at Urbana-Champaign have discovered that even nanoscopic gold ingots can be compressed into 2D leaf forms, replicating the ancient process of goldbeating, but at the nanoscale. 

nanogold

The ancient craft of goldbeating enters the nanoscale where gold nanoparticles as tiny as ~18 nanometers are compressed into ultra-thin 2D sheets.

"We were intrigued by the idea of borrowing ancient craft for modern nanomanufacturing processes," said researcher , assistant professor of Mechanical Engineering at USF. "The ability to fabricate 2D thin films from nanoparticles opens up new frontiers in nanotechnology and materials science, as we further pursue green ways to engineer gold at USF!" 

The researchers' recently published article in PNAS Nexus, "", explores and offers insights into the world of nanoscale metallic deformation and 2D leaf formation. The understanding gained from this study can lead to the development of a broad palette of nanocrystals and nanometals, paving the way for exciting future applications in renewable energy, quantum computing, and nanomedicine.

鈥淭he inception of this solid-state 2D transformation technique is merely the starting point. Its versatility extends beyond gold, making it applicable to a diverse array of materials," said Md Rubayat-E Tanjil, a 国产短视频doctoral candidate in Mechanical Engineering and a first author on this paper. "As we share our findings with the scientific community, we eagerly anticipate advancing our understanding of nanoscale metallic deformation and unveiling new science.鈥 

engineering student

Mechanical Engineering student and NSF S-STEM/FGLSAMP Scholar Keegan Suero

The study revealed that the induced 2D morphologies of the gold leaves were dependent on various factors, including the precursor nanoparticles' original shape, size, and ordering before their compression. Because of the malleability of gold, this nanomanufacturing technique has the potential to precisely control the 2D gold leaf's shape, lateral size, and thickness, opening up new avenues in diverse applications.

鈥淭he effort we put in towards achieving uniform large-area compression of nanocrystals paid off in the end," said Keegan Suero, a Mechanical Engineering junior.  "I am thrilled to be a part of this remarkable endeavor, and, of course, there is a wealth of science yet to be unearthed!鈥 Suero, a participant within the NSF funded Florida-Georgia Louis Stokes Alliance for Minority Participation (FGLSAMP) and Scholarships for Science, Technology, and Engineering, and Mathematics (S-STEM) programs, has been working in Wang's lab since transferring from Hillsborough Community College.

With the convergence of ancient artistry and nanotechnology, this study not only expands our understanding of nanoscale materials but also showcases the timeless appeal of gold and its significance in shaping our past, present, and future.

This research was made possible through and with support from the National Science Foundation (NSF) and American Chemical Society (ACS).

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