Chemists Establish Fundamentals of Ferroelectric Materials

Ferromagnetic materials are useful because their magnetic polarization makes them rotate to align with magnetic fields. Since external electric fields can reorient the electric polarization of these materials, they are ideal for certain memory applications, such as stored-value cards used in mass-transit systems. Because changes in their polarization cause such materials to physically change shape, ferroelectrics are also crucial “smart materials” for a variety of sensors, such as ultrasound machines and probe-based microscopes. They could even be used as nanoscale motors. 

In a new study published in Nature, Andrew M. Rappe, Blanchard Professor of Chemistry, and lab members Shi Liu and Ilya Grinberg demonstrate a multiscale simulation of lead titanate oxide that provides new understanding about what it takes for polarizations within these materials to switch. This mathematical model, which is built up from the principles of quantum mechanics rather than being derived from physical experiments, will undergird efforts to find and design new ferroelectric materials to specification. 

Despite proliferation in commercial applications, there are many gaps in the theoretical principles that explain the behavior of ferroelectric materials. One such gap is in understanding how discrete regions of differing polarizations, known as domains, interact at their boundaries, or domain walls.

The ferroelectric material Rappe and his colleagues simulated features titanium ions inside six-pointed octahedral “cages” of oxygen ions. The polarization of a given domain is determined by which points of the cages the titanium ions move toward.

“If you apply an electric field that's opposite to the direction of the metal atoms’ alignment,” Rappe says, “they want to move and align with the electric field, but they also feel social pressure from their neighbors to stay the same as each other. That means it takes a lot energy for them all to flip their alignment direction at the same time.

Click here to read the full article.

Arts & Sciences News

1 / 2
University of Pennsylvania, Neubauer Family Foundation, and Philadelphia Police Department Partner to Support Police Leadership Education

The first-of-its-kind graduate degree in the U.S. for police leaders launches this fall at the School of Arts & Sciences.

View Article >
Marisa C. Kozlowski Named Next Associate Dean for the Natural Sciences

Kozlowski, who joined the Penn faculty in 1997, succeeds Mark Trodden, who transitions to the Dean of Penn Arts & Sciences on June 1.

View Article >
One Fourth Year, One Alum Receive 2025 Hertz Fellowship

Eric Tao, C’25, Gr’25 (left), and Suraj Chandran, C’23, were awarded the honor, part of a group of 19 fellows selected this year. Each one receives five years of funding toward a doctoral program.

View Article >
Benjamin Nathans Wins 2025 Pulitzer Prize in General Nonfiction

Nathans, Alan Charles Kors Endowed Term Professor of History, won for his book “To the Success of Our Hopeless Cause: The Many Lives of the Soviet Dissident Movement.”

View Article >
Mark Devlin Elected to National Academy of Sciences

He joins three others from Penn to receive the honor this year, all recognized for “distinguished and continuing achievements in original research.”

View Article >
Michael Jones-Correa and Sophia Rosenfeld Elected to American Academy of Arts & Sciences

They join three others from the University of Pennsylvania, selected as part of the Academy’s mission to convene leaders from “every field of human endeavor to examine new ideas, address issues of importance to the nation and the world, and work together.”

View Article >