Engineering impurity behavior on the micron-scale in metallurgical-grade silicon production by Bernardis, Sarah

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Polymer-composite fibers for transmitting high peak power pulses at 1.55 microns by Ruff, Zachary, Shemuly, Dana, Peng, Xiang, Shapira, Ofer, Wang, Zheng, Fink, Yoel

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High Rate Micron-Sized Ordered LiNi[sub 0.5]Mn[sub 1.5]O[sub 4] by Ma, Xiaohua, Kang, Byoungwoo, Ceder, Gerbrand

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Rate-Dependent Nucleation and Growth of NaO[subscript 2] in Na-O[subscript 2] Batteries by Ortiz Vitoriano, Nagore, Batcho, Thomas Peter, Kwabi, David Gator, Han, Binghong, Pour, Nir, Yao, Koffi Pierre Claver, Thompson, Carl Vernette, Shao-Horn, Yang

“…In addition, we show that the sizes and distributions of NaO2 can be highly dependent on the discharge rate, and we discuss the formation mechanisms responsible for this rate dependence. Micron-sized (∼500 nm) and nanometer-scale (∼50 nm) cubes were found on the top and bottom of a carbon nanotube (CNT) carpet electrode and along CNT sidewalls at 10 mA/g, while only micron-scale cubes (∼2 μm) were found on the top and bottom of the CNT carpet at 1000 mA/g, respectively.…”
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Shape memory zirconia foams through ice templating by Zhao, Xueying, Lai, Alan, Schuh, Christopher A

“…Directional freezing is used to produce foams with micron-sized pores and struts that can locally take advantage of the shape memory effect due to their fine scale. …”
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In situ study of the mechanical properties of airborne haze particles by Ding, MingShuai, Han, WeiZhong, Li, Ju, Ma, Evan, Shan, ZhiWei

“…By employing a state-of-the-art in situ scanning electron microscope compression testing technique, we demonstrate that iron-rich and fly ash haze particles, which account for nearly 70% of the total micron-sized spherical haze particles, are strong enough to generate abrasive damage to most engineering alloys, and therefore can generate significant scratch damage to moving contacting surfaces in high precision machineries. …”
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In-situ observations of single micro-particle impact bonding by Hassani Gangaraj, Seyyed Mostafa, Veysset, David Georges, Nelson, Keith Adam, Schuh, Christopher A

“…We resolve the moment of impact bonding through real-time observations of single particle impacts with micron-scale and nanosecond-level resolution. We offer the first in-situ observation of a material-dependent threshold velocity, above which the particle undergoes an impact-induced jet-like material ejection and adheres to the substrate. …”
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Thermodynamic-driven polychromatic quantum dot patterning for light-emitting diodes beyond eye-limiting resolution by Wang, Yanming, Grossman, Jeffrey C.

“…However, previously reported quantum dot patterning technologies have limitations in demonstrating full-colour pixel arrays with sub-micron feature size, high fidelity, and high post-patterning device performance. …”
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Targeted Magnetic Nanoparticles for Remote Magnetothermal Disruption of Amyloid-β Aggregates by Loynachan, Colleen, Romero Uribe, Gabriela, Christiansen, Michael G., Chen, Ritchie, Ellison, Rachel M., O'Malley, Tiernan T., Froriep, Ulrich, Walsh, Dominic M., Anikeeva, Polina Olegovna

“…A dramatic reduction in aggregate size from microns to tens of nanometers is observed, suggesting that exposure to an AMF effectively destabilizes Aβ deposits decorated with targeted MNPs. …”
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Structured multimaterial filaments for 3D printing of optoelectronics by Loke, Gabriel, Yuan, Rodger, Rein, Michael, Khudiyev, Tural, Jain, Yash, Joannopoulos, John, Fink, Yoel

“…Filaments, structured towards light-detection, are printed into fully-connected 3D serpentine and spherical sensors capable of spatially resolving light at micron resolution across its entire centimeter-scale surface. 0-dimensional metallic microspheres generate light-emitting filaments that are printed into hierarchical 3D objects dotted with electroluminescent pixels at high device resolution of 55 µm not restricted by surface tension effects. …”
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Reduced cracking in polycrystalline ZrO2-CeO2 shape-memory ceramics by meeting the cofactor conditions by Pang, Edward L, McCandler, Caitlin A, Schuh, Christopher A

“…This shortcoming has limited ZrO2-based shape-memory ceramics (SMCs) to micron-sized single- or oligo-crystals to reduce bulk transformation stresses. …”
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Unveiling the carrier transport mechanism in epitaxial graphene for forming wafer-scale, single-domain graphene by Zhou, Xiaodong, Kim, Seyoung, Lee, Yun Seog, Hannon, James B., Yang, Yang, Sadana, Devendra K., Ross, Frances M., Park, Hongsik, Bae, Sanghoon, Cruz, Samuel Steven, Kim, Yunjo, Kim, Jeehwan

“…However, due to carrier scattering near vicinal steps and excess bilayer stripes, the size of electrically uniform domains is limited to the width of the terraces extending up to a few microns. Nevertheless, the origin of carrier scattering at the SiC vicinal steps has not been clarified so far. …”
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Nanoantenna couplers for metal-insulator-metal waveguide interconnects by Onbasli, Mehmet Cengiz, Okyay, Ali K.

“…Size-mismatch between two fundamental components (micron-size fibers and a few hundred nanometers wide waveguides) demands compact coupling methods for implementation of large scale on-chip optoelectronic device integration. …”
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Mitigating mechanical failure of crystalline silicon electrodes for lithium batteries by morphological design by An, Yonghao, Wood, Brandon C., Ye, Jianchao, Chiang, Yet-Ming, Wang, Y. Morris, Tang, Ming, Jiang, Hanqing

“…The results of this study illustrate that morphological design is effective in improving the fracture resistance of micron-sized Si electrodes, which will facilitate their practical application in next-generation Li-ion batteries. …”
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Characterization of Electronic and Ionic Transport in Li[subscript 1-x]Ni[subscript 0.8]Co[subscript 0.15]Al[subscript 0.05]O[subscript 2](NCA) by Amin, MD Ruhul, Ravnsbaek, Dorthe Bomholdt, Chiang, Yet-Ming

“…Chemical diffusion during electrochemical use is limited by lithium transport, but is fast enough over the entire state-of-charge range to allow charge/discharge of micron-scale particles at practical C-rates.…”
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AMORPHOUS THIN FILMS FOR MECHANICALLY FLEXIBLE, MULTI-MATERIAL INTEGRATED PHOTONICS by Geiger, Sarah, Zerdoum, Aidan, Zhang, Ping, Du, Qingyang, Jia, Xinqiao, Novak, Spencer, Smith, Charmayne, Richardson, Kathleen, Musgraves, J. David, Li, Lan, Lin, Hongtao, Ogbuu, Okechukwu, Hu, Juejun

“…Besides polymers, semiconductor NanoMembranes (NMs), thin slices of single crystal semiconductors with sub-micron thickness, are being actively pursued for photonic device integration on flexible substrates. …”
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Web-based interactive simulations and virtual lab for photonics education by Verlage, Erik, Saini, Sajan, Agarwal, Anuradha, Serna, Samuel, Kosciolek, Ryan, Morrisey, Trevor, Kimerling, Lionel C

“…Students learn photonic device and circuit modeling in a 3D online virtual lab environment with interactive simulations of micron-scale photonic visualizations. An intuitive interface highlights the most critical device design parameters and their optimal operational settings for applications in Datacom, wireless communication, sensing, and imaging. …”
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