Your search keyword '"Nisson, David M."' showing total 6 results

1. Copper migration and surface oxidation of $\text{Cu}_{x}\text{Bi}_2\text{Se}_3$ in ambient pressure environments

Author

Gross, Adam L., Falling, Lorenz, Staab, Matthew C., Montero, Metzli I., Ullah, Rahim R., Nisson, David M., Klavins, Peter, Koski, Kristie J., Curro, Nicholas J., Taufour, Valentin, Nemsak, Slavomir, and Vishik, Inna M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Chemical modifications such as intercalation can be used to modify surface properties or to further functionalize the surface states of topological insulators. Using ambient pressure X-ray photoelectron spectroscopy, we report copper migration in $\text{Cu}_{x}\text{Bi}_2\text{Se}_3$, which occurs on a timescale of hours to days after initial surface cleaving. The increase in near-surface copper proceeds along with the oxidation of the sample surface and large changes in the selenium content. These complex changes are further modelled with core-level spectroscopy simulations, which suggest a composition gradient near the surface which develops with oxygen exposure. Our results shed light on a new phenomenon that must be considered for intercalated topological insulators$\unicode{x2014}$and intercalated materials in general$\unicode{x2014}$that surface chemical composition can change when specimens are exposed to ambient conditions.

Published

2022

2. Copper migration and surface oxidation of CuxBi2Se3 in ambient pressure environments

Author

Gross, Adam L, Falling, Lorenz, Staab, Matthew C, Montero, Metzli I, Ullah, Rahim R, Nisson, David M, Klavins, Peter, Koski, Kristie J, Curro, Nicholas J, Taufour, Valentin, Nemsak, Slavomir, and Vishik, Inna M

Subjects

Macromolecular and Materials Chemistry, Chemical Sciences, Physical Chemistry, Engineering, Materials Engineering, XPS, ambient pressure XPS, topological insulator, intercalated materials, Macromolecular and materials chemistry, Physical chemistry, Materials engineering

Abstract

Chemical modifications such as intercalation can be used to modify surface properties or to further functionalize the surface states of topological insulators (TIs). Using ambient pressure x-ray photoelectron spectroscopy, we report copper migration in C u x B i 2 S e 3 , which occurs on a timescale of hours to days after initial surface cleaving. The increase in near-surface copper proceeds along with the oxidation of the sample surface and large changes in the selenium content. These complex changes are further modeled with core-level spectroscopy simulations, which suggest a composition gradient near the surface which develops with oxygen exposure. Our results shed light on a new phenomenon that must be considered for intercalated TIs—and intercalated materials in general—that surface chemical composition can change when specimens are exposed to ambient conditions.

Published

2022

3. Side chain length affects backbone dynamics in poly(3‐alkylthiophene)s

Author

Zhan, Pengfei, Zhang, Wenlin, Jacobs, Ian E, Nisson, David M, Xie, Renxuan, Weissen, Albree R, Colby, Ralph H, Moulé, Adam J, Milner, Scott T, Maranas, Janna K, and Gomez, Enrique D

Subjects

Macromolecular and Materials Chemistry, Chemical Sciences, conjugated polymers, charge transport, quasi elastic neutron scattering, side chain motion, solid state NMR, Physical Sciences, Engineering, Polymers

Abstract

Charge transport in conjugated polymers may be governed not only by the static microstructure but also fluctuations of backbone segments. Using molecular dynamics simulations, we predict the role of side chains in the backbone dynamics for regiorandom poly(3-alkylthiophene-2,5-diyl)s (P3ATs). We show that the backbone of poly(3-dodecylthiophene-2-5-diyl) (P3DDT) moves faster than that of poly(3-hexylthiophene-2,5-diyl) (P3HT) as a result of the faster motion of the longer side chains. To verify our predictions, we investigated the structures and dynamics of regiorandom P3ATs with neutron scattering and solid state NMR. Measurements of spin-lattice relaxations (T1) using NMR support our prediction of faster motion for side chain atoms that are farther away from the backbone. Using small-angle neutron scattering (SANS), we confirmed that regiorandom P3ATs are amorphous at about 300 K, although microphase separation between the side chains and backbones is apparent. Furthermore, quasi-elastic neutron scattering (QENS) reveals that thiophene backbone motion is enhanced as the side chain length increases from hexyl to dodecyl. The faster motion of longer side chains leads to faster backbone dynamics, which in turn may affect charge transport for conjugated polymers. © 2018 Wiley Periodicals, Inc. J. Polym. Sci., Part B: Polym. Phys. 2018, 56, 1193–1202.

Published

2018

4. Long range order and two-fluid behavior in heavy electron materials

Author

Shirer, Kent R., Shockley, Abigail C., Dioguardi, Adam P., Crocker, John, Lin, Ching H., apRoberts-Warren, Nicholas, Nisson, David M., Klavins, Peter, Cooley, Jason C., Yang, Yi-feng, and Curro, Nicholas J.

Published

2012

5. Nuclear Magnetic Resonance as a Probe of the Topological Insulator Bi2Se3

Author

Nisson, David M., Dioguardi, Adam P., Klavins, Peter, Lin, Ching H., Shirer, Kent, Shockley, Abigail C., Crocker, John, and Curro, Nicholas J.

Published

2014

6. Nuclear Magnetic Resonance as a Probe of the Topological Insulator Bi2Se3.

Author

Nisson, David M., Dioguardi, Adam P., Klavins, Peter, Lin, Ching H., Shirer, Kent, Shockley, Abigail C., Crocker, John, and Curro, Nicholas J.

Published

2014