Highlights

Colloidal rafts with switchable attractive and repulsive interaction. (top) Schematic and (bottom) optical microscopy images of colloidal rafts that assemble in membranes that have no net chirality. Differential interference microscopy (left) and fluorescence images (right) of colloidal rafts that assemble into crystalline lattices with unusual square symmetry. Such assemblages can be understood by measuring the effective membrane-mediated raft-raft interactions that can switch between repulsions and attractions and which are regulated by the raft chirality.

J. Miller, C. Joshi, A. Baskaran, A Baskaran, M. Hagan (Brandeis University), G. Grason (U. Mass Amherst), and Z. Dogic (UCSB)

We describe hierarchical assemblages of colloidal rods that mimic some of the complexity and reconfigurability of biological structures. In particular, we show that chiral rod-like inclusions dissolved in an achiral colloidal membrane assemble into rafts, which are adaptable finite-sized liquid droplets that exhibit two distinct chiral states of opposite handedness. Interconverting between these two states switches the membrane-mediated raft interactions between long-ranged repulsions and attractions.

PZT-gated SNNO/LSMO composite channels exhibit significantly enhanced field effect switching due to interfacial charge transfer between SNNO and LSMO.

Jun 17, 2019

University of Nebraska - Lincoln

Interfacial Charge Engineering in Ferroelectric-Gated Mott Transistors

X. Chen, X. Zhang, M. A. Koten, Z. Xiao, L. Zhang, Jeffrey E. Shield, Peter A. Dowben and Xia Hong (University of Nebraska - Lincoln)

Nebraska MRSEC researchers have fabricated complex oxide heterostructures with atomic precision, exploiting them to build a prototype nonvolatile Mott transistor.

Building Enduring Pathways in STEM: Incorporating Traditional Ways of Knowing in Materials Research

Jun 12, 2019

Harvard University

Building Enduring Pathways in STEM: Incorporating Traditional Ways of Knowing in Materials Research

This unique partnership between Navajo Technical University and the Harvard MRSEC will build enduring pathways for undergraduate Native American students into STEM by including traditional tribal perspectives and methods of scientific inquiry in materials science research and education.

Acoustophoretic Printing: Printing Soft Materials with Sound

Jun 12, 2019

Harvard University

Acoustophoretic Printing: Printing Soft Materials with Sound

To enhance drop formation, a team at the Harvard MRSEC led by Lewis created a new printing method that relies on generating sound waves to assist gravity, dubbing this new technique acoustophoretic printing.

Microreactors for Abiotic Ligation of nanoRNA

Jun 10, 2019

University of Colorado at Boulder

Microreactors for Abiotic Ligation of nanoRNA

The scientific understanding of evolution is extensive, but limited by some notable, if not embarrassing, gaps. Among the great challenges of basic science is to understand the origin of life, and, in particular, the origin of the double helix structure of stacked base pairs of DNA and RNA, life’s most remarkable molecular creation.

Hydrogels from DNA mimicking polymers and DNA

Jun 10, 2019

University of Colorado at Boulder

Hydrogels from DNA mimicking polymers and DNA

X. Han1, D.W. Domaille1, B.D. Fairbanks1, L. He1, H.R. Colver1, X. Zhang1, J.N. Cha1, C.N. Bowman1 1 Department of Chemical and Biological Engineering, University of Colorado, Boulder, CO 80309, USA.

Radical, light initiated chemical reactions were used to synthesize multifunctional, star-shaped polmyers with each chain end bound to a DNA mimicking polymer (the “Click Nucleic Acid or CNA developed with the support of the NSF).

The Role of Chain Connectivity Across an Interface on the Dynamics of a Nanostructured Block Copolymer

Jun 6, 2019

Princeton University

The Role of Chain Connectivity Across an Interface on the Dynamics of a Nanostructured Block Copolymer

D. Christie1, R.A. Register1, R.D. Priestley1, “The Role of Chain Connectivity Across an Interface on the Dynamics of a Nanostructured Block Copolymer,” Physical Review Letters, 121, 247801 (2018). 1Princeton University

Princeton investigators developed an approach to directly measure the influence of chain connectivity on the glass transition temperature of copolymers for the first time. This development is important as it provides insights into the design of copolymer interfaces for applications in which transport of entities is important.

Schematic of expected conducting lanes where electrons can flow at the boundaries between regions with opposite orientations of electron orbits.

Jun 6, 2019

Princeton University

Controllable electron flow in quantum wires

M. T. Randeria1, K. Agarwal1, B. E. Feldman2, H. Ding1, H. Ji1, R. J. Cava1, S. L. Sondhi1, S. A. Parameswaran3 and A. Yazdani1 1 Princeton Univesity, 2 Stanford University 3 University of Oxford

Princeton investigators detected channels of conducting electrons that form between two quantum states on the surface of a bismuth crystal subjected to a high magnetic field. These two states consist of electrons moving in elliptical orbits with different orientations. The researchers found that the current flow in these channels can be turned on and off, making these channels a new type of controllable quantum wire.

Freely Jointed Polymers Made of Droplets

May 20, 2019

New York University

Freely Jointed Polymers Made of Droplets

Angus McMullen, Miranda Holmes-Cerfon, Francesco Sciortino, Alexander Y. Grosberg, and Jasna Brujic, New York University

Here, we control the valence of DNA-functionalized emulsion droplets to make flexible colloidal polymers. We examine their conformational statistics to show that they are freely jointed. We demonstrate that their end-to-end length scales with the number of bonds in agreement with 2D Flory theory, and that their diffusion follows the Zimm model.

A Fully Voltage-Controlled Spin Logic Device