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105 results on '"Yeh, Yao-Wen"'

1. Ultra-thin Epitaxial MgB2 on SiC: Substrate Surface Polarity Dependent Properties

Author

Yang, Weibing, Kasaei, Leila, Hijazi, Hussein, Rangan, Sylvie, Yeh, Yao-wen, Sah, Raj K., Paudel, Jay R., Chen, Ke, Gray, Alexander X., Batson, Philip, Feldman, Leonard C., and Xi, Xiaoxing

Subjects
Condensed Matter - Superconductivity, Physics - Applied Physics
Abstract

High quality, ultrathin, superconducting films are required for advanced devices such as hot-electron bolometers, superconducting nanowire single photon detectors, and quantum applications. Using Hybrid Physical-Chemical Vapor Deposition (HPCVD), we show that MgB2 films as thin as 4 nm can be fabricated on the carbon terminated 6H-SiC (0001) surface with a superconducting transition temperature above 33K and a rms roughness of 0.7 nm. Remarkably, the film quality is a function of the SiC surface termination, with the C-terminated surface preferred to the Si-terminated surface. To understand the MgB2 thin film/ SiC substrate interactions giving rise to this difference, we characterized the interfacial structures using Rutherford backscattering spectroscopy/channeling, electron energy loss spectroscopy, and x-ray photoemission spectroscopy. The MgB2/SiC interface structure is complex and different for the two terminations. Both terminations incorporate substantial unintentional oxide layers influencing MgB2 growth and morphology, but with different extent, intermixing and interface chemistry. In this paper, we report measurements of transport, resistivity, and critical superconducting temperature of MgB2/SiC that are different for the two terminations, and link interfacial structure variations to observed differences. The result shows that the C face of SiC is a preferred substrate for the deposition of ultrathin superconducting MgB2 films.

Published
2023

2. Synthesis of an aqueous, air-stable, superconducting 1T'-WS$_2$ monolayer-ink

Author

Song, Xiaoyu, Singha, Ratnadwip, Cheng, Guangming, Yeh, Yao-Wen, Kamm, Franziska, Khoury, Jason F., Pielnhofer, Florian, Batson, Philip E., Yao, Nan, and Schoop, Leslie M.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Liquid-phase chemical exfoliation is ideal to achieve industry scale production of two-dimensional (2D) materials for a wide range of application such as printable electronics, catalysis and energy storage. However, many impactful 2D materials with potentials in quantum technologies can only be studied in lab settings due to their air-sensitivity, and loss of physical performance after chemical processing. Here, we report a simple chemical exfoliation method to create a stable, aqueous, surfactant-free, superconducting ink containing phase-pure 1T'-WS$_2$ monolayers that are isotructural to the air-sensitive topological insulator 1T'-WTe$_2$. We demonstrate that thin films can be cast on both hard and flexible substrates. The printed film is metallic at room temperature and superconducting below 7.3 K, shows strong anisotropic unconventional superconducting behavior with an in-plane and out-of-plane upper critical magnetic field of 30.1 T and 5.3 T, has a critical current of 44 mA, and is stable at ambient conditions for at least 30 days. Our results show that chemical processing can provide an engineering solution, which makes non-trivial 2D materials that used to be only studied in laboratories commercially accessible., Comment: 19 pages, 4 figures

Published
2022

3. Polarization selectivity of aloof-beam electron energy-loss spectroscopy in one-dimensional ZnO nanorods

Author

Yeh, Yao-Wen, Singh, Sobhit, Vanderbilt, David, and Batson, Philip E.

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics, Physics - Instrumentation and Detectors
Abstract

Orientation dependent electronic properties of wurtzite zinc oxide nanorods are characterized by aloof beam electron energy-loss spectroscopy (EELS) carried out in a scanning transmission electron microscope (STEM). The two key crystal orientation differentiating transitions specific to the in-plane (13.0 eV) and out-of-plane (11.2 eV) directions with respect to the wurtzite structure are examined by first principles density-functional theory calculations. We note some degree of orientation dependence at the onset of direct band gap transition near 3.4 eV. We demonstrate that good polarization selectivity can be achieved by placing the electron probe at different locations around the specimen with increasing impact parameter while keeping the beam-specimen orientation fixed. The observed results are qualitatively elucidated in terms of the perpendicular electric fields generated by the fast electron (60 kV) used in the microscope. The fact that good polarization selectivity can be achieved by aloof beam EELS without the requirement of sample reorientation is an attractive aspect from the characterization method point of view in the STEM-EELS community., Comment: 9 pages and 9 figures

Published
2021

5. Root-Growth of Boron Nitride Nanotubes: Experiments and \textit{Ab Initio} Simulations

Author

Santra, Biswajit, Ko, Hsin-Yu, Yeh, Yao-Wen, Martelli, Fausto, Kaganovich, Igor, Raitses, Yevgeny, and Car, Roberto

Subjects
Physics - Chemical Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have synthesized boron nitride nanotubes (BNNTs) in an arc in presence of boron and nitrogen species only, without transition metals. We find that BNNTs are often attached to pure boron nanoparticles, suggesting that root-growth is a likely mechanism for their formation. To gain further insight into this process we have studied key mechanisms for root growth of BNNTs on the surface of a liquid boron droplet by ab initio molecular dynamics simulations. We find that nitrogen atoms reside predominantly on the droplet surface where they organize to form boron nitride islands below 2400 K. To minimize contact with the liquid particle underneath, the islands assume non-planar configurations that are likely precursors for the thermal nucleation of cap structures. Once formed, the caps are stable and can easily incorporate nitrogen and boron atoms at their base, resulting in further growth. Our simulations support the root-growth mechanism of BNNTs and provide comprehensive evidence of the active role played by liquid boron., Comment: supporting inofrmation inlcuded

Published
2018
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6. Measuring Chern numbers above the Fermi level in the Type II Weyl semimetal Mo$_x$W$_{1-x}$Te$_2$

Author

Belopolski, Ilya, Xu, Su-Yang, Ishida, Yukiaki, Pan, Xingchen, Yu, Peng, Sanchez, Daniel S., Neupane, Madhab, Alidoust, Nasser, Chang, Guoqing, Chang, Tay-Rong, Wu, Yun, Bian, Guang, Zheng, Hao, Huang, Shin-Ming, Lee, Chi-Cheng, Mou, Daixiang, Huang, Lunan, Song, You, Wang, Baigeng, Wang, Guanghou, Yeh, Yao-Wen, Yao, Nan, Rault, Julien E., Fèvre, Patrick Le, Bertran, François, Jeng, Horng-Tay, Kondo, Takeshi, Kaminski, Adam, Lin, Hsin, Liu, Zheng, Song, Fengqi, Shin, Shik, and Hasan, M. Zahid

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

It has recently been proposed that electronic band structures in crystals give rise to a previously overlooked type of Weyl fermion, which violates Lorentz invariance and, consequently, is forbidden in particle physics. It was further predicted that Mo$_x$W$_{1-x}$Te$_2$ may realize such a Type II Weyl fermion. One crucial challenge is that the Weyl points in Mo$_x$W$_{1-x}$Te$_2$ are predicted to lie above the Fermi level. Here, by studying a simple model for a Type II Weyl cone, we clarify the importance of accessing the unoccupied band structure to demonstrate that Mo$_x$W$_{1-x}$Te$_2$ is a Weyl semimetal. Then, we use pump-probe angle-resolved photoemission spectroscopy (pump-probe ARPES) to directly observe the unoccupied band structure of Mo$_x$W$_{1-x}$Te$_2$. For the first time, we directly access states $> 0.2$ eV above the Fermi level. By comparing our results with $\textit{ab initio}$ calculations, we conclude that we directly observe the surface state containing the topological Fermi arc. Our work opens the way to studying the unoccupied band structure as well as the time-domain relaxation dynamics of Mo$_x$W$_{1-x}$Te$_2$ and related transition metal dichalcogenides., Comment: Incorporates earlier results presented in arXiv:1512.09099, by the same authors

Published
2016
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7. Unoccupied electronic structure and signatures of topological Fermi arcs in the Weyl semimetal candidate Mo$_x$W$_{1-x}$Te$_2$

Author

Belopolski, Ilya, Xu, Su-Yang, Ishida, Yukiaki, Pan, Xingchen, Yu, Peng, Sanchez, Daniel S., Neupane, Madhab, Alidoust, Nasser, Chang, Guoqing, Chang, Tay-Rong, Wu, Yun, Bian, Guang, Zheng, Hao, Huang, Shin-Ming, Lee, Chi-Cheng, Mou, Daixiang, Huang, Lunan, Song, You, Wang, Baigeng, Wang, Guanghou, Yeh, Yao-Wen, Yao, Nan, Rault, Julien, Lefevre, Patrick, Bertran, François, Jeng, Horng-Tay, Kondo, Takeshi, Kaminski, Adam, Lin, Hsin, Liu, Zheng, Song, Fengqi, Shin, Shik, and Hasan, M. Zahid

Subjects
Condensed Matter - Materials Science
Abstract

Weyl semimetals have sparked intense research interest, but experimental work has been limited to the TaAs family of compounds. Recently, a number of theoretical works have predicted that compounds in the Mo$_x$W$_{1-x}$Te$_2$ series are Weyl semimetals. Such proposals are particularly exciting because Mo$_x$W$_{1-x}$Te$_2$ has a quasi two-dimensional crystal structure well-suited to many transport experiments, while WTe$_2$ and MoTe$_2$ have already been the subject of numerous proposals for device applications. However, with available ARPES techniques it is challenging to demonstrate a Weyl semimetal in Mo$_x$W$_{1-x}$Te$_2$. According to the predictions, the Weyl points are above the Fermi level, the system approaches two critical points as a function of doping, there are many irrelevant bulk bands, the Fermi arcs are nearly degenerate with bulk bands and the bulk band gap is small. Here, we study Mo$_x$W$_{1-x}$Te$_2$ for $x = 0.07$ and 0.45 using pump-probe ARPES. The system exhibits a dramatic response to the pump laser and we successfully access states $> 0.2$eV above the Fermi level. For the first time, we observe direct, experimental signatures of Fermi arcs in Mo$_x$W$_{1-x}$Te$_2$, which agree well with theoretical calculations of the surface states. However, we caution that the interpretation of these features depends sensitively on free parameters in the surface state calculation. We comment on the prospect of conclusively demonstrating a Weyl semimetal in Mo$_x$W$_{1-x}$Te$_2$., Comment: 24 pages, 4 figures

Published
2015

8. TiO2/TiN Interface Enables Integration of Ni5P4 Electrocatalyst with a III–V Tandem Photoabsorber for Stable Unassisted Solar-Driven Water Splitting

Author

Hwang, Shinjae, primary, Gu, Hengfei, additional, Young, James L., additional, Steiner, Myles A., additional, Laursen, Anders B., additional, Crichton, Ryan A., additional, Yeh, Yao-Wen, additional, Batson, Philip E., additional, Feldman, Leonard C., additional, Li, Mengjun, additional, Wyatt, Keenan, additional, Safari, Ahmad, additional, Deutsch, Todd G., additional, Garfunkel, Eric, additional, and Dismukes, G. Charles, additional

Published
2024
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9. Synthesis of an aqueous, air-stable, superconducting 1T′-WS 2 monolayer ink

Author

Song, Xiaoyu, primary, Singha, Ratnadwip, additional, Cheng, Guangming, additional, Yeh, Yao-Wen, additional, Kamm, Franziska, additional, Khoury, Jason F., additional, Hoff, Brianna L., additional, Stiles, Joseph W., additional, Pielnhofer, Florian, additional, Batson, Philip E., additional, Yao, Nan, additional, and Schoop, Leslie M., additional

Published
2023
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10. Interfacial Connections between Organic Perovskite/n + Silicon/Catalyst that Allow Integration of Solar Cell and Catalyst for Hydrogen Evolution from Water

Author

Gu, Hengfei, primary, Zhang, Fei, additional, Hwang, Shinjae, additional, Laursen, Anders B., additional, Liu, Xin, additional, Park, So Yeon, additional, Yang, Mengjin, additional, Bramante, Rosemary C., additional, Hijazi, Hussein, additional, Kasaei, Leila, additional, Feldman, Leonard C., additional, Yeh, Yao‐Wen, additional, Batson, Philip E., additional, Larson, Bryon W., additional, Li, Mengjun, additional, Li, Yifei, additional, Wyatt, Keenan, additional, Young, James L., additional, Teeluck, Krishani, additional, Zhu, Kai, additional, Garfunkel, Eric, additional, and Dismukes, G. Charles, additional

Published
2023
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12. Frontispiece: Structurally Defined Water‐Soluble Metallofullerene Derivatives towards Biomedical Applications

Author

Li, Yanbang, primary, Biswas, Rohin, additional, Kopcha, William P., additional, Dubroca, Thierry, additional, Abella, Laura, additional, Sun, Yue, additional, Crichton, Ryan A., additional, Rathnam, Christopher, additional, Yang, Letao, additional, Yeh, Yao‐Wen, additional, Kundu, Krishnendu, additional, Rodríguez‐Fortea, Antonio, additional, Poblet, Josep M., additional, Lee, Ki‐Bum, additional, Hill, Stephen, additional, and Zhang, Jianyuan, additional

Published
2023
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14. Structurally Defined Water‐Soluble Metallofullerene Derivatives towards Biomedical Applications

Author

Li, Yanbang, primary, Biswas, Rohin, additional, Kopcha, William P., additional, Dubroca, Thierry, additional, Abella, Laura, additional, Sun, Yue, additional, Crichton, Ryan A., additional, Rathnam, Christopher, additional, Yang, Letao, additional, Yeh, Yao‐Wen, additional, Kundu, Krishnendu, additional, Rodríguez‐Fortea, Antonio, additional, Poblet, Josep M., additional, Lee, Ki‐Bum, additional, Hill, Stephen, additional, and Zhang, Jianyuan, additional

Published
2022
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15. Interfacial Connections between Organic Perovskite/n+ Silicon/Catalyst that Allow Integration of Solar Cell and Catalyst for Hydrogen Evolution from Water.

Author

Gu, Hengfei, Zhang, Fei, Hwang, Shinjae, Laursen, Anders B., Liu, Xin, Park, So Yeon, Yang, Mengjin, Bramante, Rosemary C., Hijazi, Hussein, Kasaei, Leila, Feldman, Leonard C., Yeh, Yao‐Wen, Batson, Philip E., Larson, Bryon W., Li, Mengjun, Li, Yifei, Wyatt, Keenan, Young, James L., Teeluck, Krishani, and Zhu, Kai

Subjects
PHOTOCATHODES, SOLAR cells, TITANIUM nitride, ELECTROLYTIC corrosion, STANDARD hydrogen electrode, DIFFUSION barriers, PEROVSKITE
Abstract

The rapidly increasing solar conversion efficiency (PCE) of hybrid organic–inorganic perovskite (HOIP) thin‐film semiconductors has triggered interest in their use for direct solar‐driven water splitting to produce hydrogen. However, application of these low‐cost, electronic‐structure‐tunable HOIP tandem photoabsorbers has been hindered by the instability of the photovoltaic‐catalyst‐electrolyte (PV+E) interfaces. Here, photolytic water splitting is demonstrated using an integrated configuration consisting of an HOIP/n+silicon single junction photoabsorber and a platinum (Pt) thin film catalyst. An extended electrochemical (EC) lifetime in alkaline media is achieved using titanium nitride on both sides of the Si support to eliminate formation of insulating silicon oxide, and as an effective diffusion barrier to allow high‐temperature annealing of the catalyst/TiO2‐protected‐n+silicon interface necessary to retard electrolytic corrosion. Halide composition is examined in the (FA1‐xCsx)PbI3 system with a bandgap suitable for tandem operation. A fill factor of 72.5% is achieved using a Spiro‐OMeTAD‐hole‐transport‐layer (HTL)‐based HOIP/n+Si solar cell, and a high photocurrent density of −15.9 mA cm−2 (at 0 V vs reversible hydrogen electrode) is attained for the HOIP/n+Si/Pt photocathode in 1 m NaOH under simulated 1‐sun illumination. While this thin‐film design creates stable interfaces, the intrinsic photo‐ and electro‐degradation of the HOIP photoabsorber remains the main obstacle for future HOIP/Si tandem PEC devices. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Interfacial connections between organic perovskite/n+ silicon/catalyst that allow integration of solar cell and catalyst for hydrogen evolution from water

Author

Gu, Hengfei, primary, Zhang, Fei, additional, Hwang, Shinjae, additional, Laursen, Anders B., additional, Liu, Xin, additional, Park, So Yeon, additional, Yang, Mengjin, additional, Bramante, Rosemary C., additional, Hijazi, Hussein, additional, Kasaei, Leila, additional, Feldman, Leonard C., additional, Yeh, Yao-Wen, additional, Batson, Philip E., additional, Larson, Bryon W., additional, Li, Mengjun, additional, Li, Yifei, additional, Zhu, Kai, additional, Garfunkel, Eric, additional, and Dismukes, G. Charles, additional

Published
2022
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20. Structurally Defined Water‐Soluble Metallofullerene Derivatives towards Biomedical Applications.

Author

Li, Yanbang, Biswas, Rohin, Kopcha, William P., Dubroca, Thierry, Abella, Laura, Sun, Yue, Crichton, Ryan A., Rathnam, Christopher, Yang, Letao, Yeh, Yao‐Wen, Kundu, Krishnendu, Rodríguez‐Fortea, Antonio, Poblet, Josep M., Lee, Ki‐Bum, Hill, Stephen, and Zhang, Jianyuan

Subjects
GADOLINIUM, BUCKMINSTERFULLERENE, CONTRAST media, REACTIVE oxygen species, METALLOFULLERENES, DRUG design, HEAVY metals
Abstract

Endohedral metallofullerenes (EMFs) are excellent carriers of rare‐earth element (REE) ions in biomedical applications because they preclude the release of toxic metal ions. However, existing approaches to synthesize water‐soluble EMF derivatives yield mixtures that inhibit precise drug design. Here we report the synthesis of metallobuckytrio (MBT), a three‐buckyball system, as a modular platform to develop structurally defined water‐soluble EMF derivatives with ligands by choice. Demonstrated with PEG ligands, the resulting water‐soluble MBTs show superb biocompatibility. The Gd MBTs exhibit superior T1 relaxivity than typical Gd complexes, potentially superseding current clinical MRI contrast agents in both safety and efficiency. The Lu MBTs generated reactive oxygen species upon light irradiation, showing promise as photosensitizers. With their modular nature to incorporate other ligands, we anticipate the MBT platform to open new paths towards bio‐specific REE drugs. [ABSTRACT FROM AUTHOR]

Published
2023
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22. Soft Chemical Synthesis of HxCrS2: An Antiferromagnetic Material with Alternating Amorphous and Crystalline Layers

Author

Song, Xiaoyu, Cheng, Guangming, Weber, Daniel, Pielnhofer, Florian, Lei, Shiming, Klemenz, Sebastian, Yeh, Yao-Wen, Filsinger, Kai A., Arnold, Craig B., Yao, Nan, Schoop, Leslie M., Song, Xiaoyu, Cheng, Guangming, Weber, Daniel, Pielnhofer, Florian, Lei, Shiming, Klemenz, Sebastian, Yeh, Yao-Wen, Filsinger, Kai A., Arnold, Craig B., Yao, Nan, and Schoop, Leslie M.

Abstract

We report a new HxCrS2-based crystalline/amorphous layered material synthesized by soft chemical methods. We study the structural nature and composition of this material with atomic resolution scanning transmission electron microscopy (STEM), revealing a complex structure consisting of alternating layers of amorphous and crystalline lamellae. Furthermore, the magnetic properties show evidence for increased magnetic frustration compared to the parent compound NaCrS2. Finally, we show that this material can be exfoliated, thus providing a facile synthesis method for chromium-sulfide-based ultrathin layers. The material reported herein can not only be a source of new thin TMD-related sheets for potential application in catalysis but also be of interest for realizing new 2D magnetic materials.

Published
2019

26. Influence of Bulky Organo‐Ammonium Halide Additive Choice on the Flexibility and Efficiency of Perovskite Light‐Emitting Devices

Author

Zhao, Lianfeng, primary, Rolston, Nicholas, additional, Lee, Kyung Min, additional, Zhao, Xunhua, additional, Reyes‐Martinez, Marcos A., additional, Tran, Nhu L., additional, Yeh, Yao‐Wen, additional, Yao, Nan, additional, Scholes, Gregory D., additional, Loo, Yueh‐Lin, additional, Selloni, Annabella, additional, Dauskardt, Reinhold H., additional, and Rand, Barry P., additional

Published
2018
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36. Extremely Low Operating Current Resistive Memory Based on Exfoliated 2D Perovskite Single Crystals for Neuromorphic Computing

Author

Tian, He, Zhao, Lianfeng, Wang, Xuefeng, Yeh, Yao-Wen, Yao, Nan, Rand, Barry P., and Ren, Tian-Ling

Abstract

Extremely low energy consumption neuromorphic computing is required to achieve massively parallel information processing on par with the human brain. To achieve this goal, resistive memories based on materials with ionic transport and extremely low operating current are required. Extremely low operating current allows for low power operation by minimizing the program, erase, and read currents. However, materials currently used in resistive memories, such as defective HfOx, AlOx, TaOx, etc., cannot suppress electronic transport (i.e., leakage current) while allowing good ionic transport. Here, we show that 2D Ruddlesden–Popper phase hybrid lead bromide perovskite single crystals are promising materials for low operating current nanodevice applications because of their mixed electronic and ionic transport and ease of fabrication. Ionic transport in the exfoliated 2D perovskite layer is evident viathe migration of bromide ions. Filaments with a diameter of approximately 20 nm are visualized, and resistive memories with extremely low program current down to 10 pA are achieved, a value at least 1 order of magnitude lower than conventional materials. The ionic migration and diffusion as an artificial synapse is realized in the 2D layered perovskites at the pA level, which can enable extremely low energy neuromorphic computing.

Published
2024
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37. Fermi arc electronic structure and Chern numbers in the type-II Weyl semimetal candidateMoxW1−xTe2

Author

Belopolski, Ilya, primary, Xu, Su-Yang, additional, Ishida, Yukiaki, additional, Pan, Xingchen, additional, Yu, Peng, additional, Sanchez, Daniel S., additional, Zheng, Hao, additional, Neupane, Madhab, additional, Alidoust, Nasser, additional, Chang, Guoqing, additional, Chang, Tay-Rong, additional, Wu, Yun, additional, Bian, Guang, additional, Huang, Shin-Ming, additional, Lee, Chi-Cheng, additional, Mou, Daixiang, additional, Huang, Lunan, additional, Song, You, additional, Wang, Baigeng, additional, Wang, Guanghou, additional, Yeh, Yao-Wen, additional, Yao, Nan, additional, Rault, Julien E., additional, Le Fèvre, Patrick, additional, Bertran, François, additional, Jeng, Horng-Tay, additional, Kondo, Takeshi, additional, Kaminski, Adam, additional, Lin, Hsin, additional, Liu, Zheng, additional, Song, Fengqi, additional, Shin, Shik, additional, and Hasan, M. Zahid, additional

Published
2016
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40. 3D Printed Programmable Release Capsules

Author

Gupta, Maneesh K., primary, Meng, Fanben, additional, Johnson, Blake N., additional, Kong, Yong Lin, additional, Tian, Limei, additional, Yeh, Yao-Wen, additional, Masters, Nina, additional, Singamaneni, Srikanth, additional, and McAlpine, Michael C., additional

Published
2015
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45. Biotemplated Synthesis of PZT Nanowires

Author

PRINCETON UNIV NJ, Cung, Kellye, Han, Booyeon J, Nguyen, Thanh D, Mao, Sheng, Yeh, Yao-Wen, Xu, Shiyou, Naik, Rajesh R, Poirier, Gerald, Yao, Nan, Purohit, Prashant K, PRINCETON UNIV NJ, Cung, Kellye, Han, Booyeon J, Nguyen, Thanh D, Mao, Sheng, Yeh, Yao-Wen, Xu, Shiyou, Naik, Rajesh R, Poirier, Gerald, Yao, Nan, and Purohit, Prashant K

Abstract

Piezoelectric nanowires are an important class of smart materials for next-generation applications including energy harvesting, robotic actuation, and bioMEMS. Lead zirconate titanate (PZT), in particular, has attracted significant attention, owing to its superior electromechanical conversion performance. Yet, the ability to synthesize crystalline PZT nanowires with well-controlled properties remains a challenge. Applications of common nanosynthesis methods to PZT are hampered by issues such as slow kinetics, lack of suitable catalysts, and harsh reaction conditions. Here we report a versatile biomimetic method, in which biotemplates are used to define PZT nanostructures, allowing for rational control over composition and crystallinity. Specifically, stoichiometric PZT nanowires were synthesized using both polysaccharide (alginate) and bacteriophage templates. The wires possessed measured piezoelectric constants of up to 132 pm/V after poling, among the highest reported for PZT nanomaterials. Further, integrated devices can generate up to 0.820 W/cm2 of power. These results suggest that biotemplated piezoelectric nanowires are attractive candidates for stimuli-responsive nanosensors, adaptive nanoactuators, and nanoscale energy harvesters., Published in Nano Letters, v13 p6197-6202, 25 Nov 2013. Sponsored in part by AFOSR.

Published
2013

46. Biotemplated Synthesis of PZT Nanowires

Author

Cung, Kellye, primary, Han, Booyeon J., additional, Nguyen, Thanh D., additional, Mao, Sheng, additional, Yeh, Yao-Wen, additional, Xu, Shiyou, additional, Naik, Rajesh R., additional, Poirier, Gerald, additional, Yao, Nan, additional, Purohit, Prashant K., additional, and McAlpine, Michael C., additional

Published
2013
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48. Nanoscale Flexoelectricity

Author

Nguyen, Thanh D., primary, Mao, Sheng, additional, Yeh, Yao‐Wen, additional, Purohit, Prashant K., additional, and McAlpine, Michael C., additional

Published
2013
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49. In SituPreparation of Metal Halide Perovskite Nanocrystal Thin Films for Improved Light-Emitting Devices

Author

Zhao, Lianfeng, Yeh, Yao-Wen, Tran, Nhu L., Wu, Fan, Xiao, Zhengguo, Kerner, Ross A., Lin, YunHui L., Scholes, Gregory D., Yao, Nan, and Rand, Barry P.

Abstract

Hybrid organic–inorganic halide perovskite semiconductors are attractive candidates for optoelectronic applications, such as photovoltaics, light-emitting diodes, and lasers. Perovskite nanocrystals are of particular interest, where electrons and holes can be confined spatially, promoting radiative recombination. However, nanocrystalline films based on traditional colloidal nanocrystal synthesis strategies suffer from the use of long insulating ligands, low colloidal nanocrystal concentration, and significant aggregation during film formation. Here, we demonstrate a facile method for preparing perovskite nanocrystal films in situand that the electroluminescence of light-emitting devices can be enhanced up to 40-fold through this nanocrystal film formation strategy. Briefly, the method involves the use of bulky organoammonium halides as additives to confine crystal growth of perovskites during film formation, achieving CH3NH3PbI3and CH3NH3PbBr3perovskite nanocrystals with an average crystal size of 5.4 ± 0.8 nm and 6.4 ± 1.3 nm, respectively, as confirmed through transmission electron microscopy measurements. Additive-confined perovskite nanocrystals show significantly improved photoluminescence quantum yield and decay lifetime. Finally, we demonstrate highly efficient CH3NH3PbI3red/near-infrared LEDs and CH3NH3PbBr3green LEDs based on this strategy, achieving an external quantum efficiency of 7.9% and 7.0%, respectively, which represent a 40-fold and 23-fold improvement over control devices fabricated without the additives.

Published
2017
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50. Flexible Piezoelectric PMN–PT Nanowire-BasedNanocomposite and Device.

Author

Xu, Shiyou, Yeh, Yao-wen, Poirier, Gerald, McAlpine, Michael C., Register, Richard A., and Yao, Nan

Subjects
*PIEZOELECTRIC materials, *NANOWIRES, *NANOCOMPOSITE materials, *ENERGY harvesting, *CRYSTAL structure, *POLYMERS, *TITANATES
Abstract

Piezoelectricnanocomposites represent a unique class of materialsthat synergize the advantageous features of polymers and piezoelectricnanostructures and have attracted extensive attention for the applicationsof energy harvesting and self-powered sensing recently. Currently,most of the piezoelectric nanocomposites were synthesized using piezoelectricnanostructures with relatively low piezoelectric constants, resultingin lower output currents and lower output voltages. Here, we reporta synthesis of piezoelectric (1 – x)Pb(Mg1/3Nb2/3)O3–xPbTiO3(PMN–PT) nanowire-based nanocomposite withsignificantly improved performances for energy harvesting and self-poweredsensing. With the high piezoelectric constant (d33) andthe unique hierarchical structure of the PMN–PT nanowires,the PMN–PT nanowire-based nanocomposite demonstrated an outputvoltage up to 7.8 V and an output current up to 2.29 μA (currentdensity of 4.58 μA/cm2); this output voltage is morethan double that of other reported piezoelectric nanocomposites, andthe output current is at least 6 times greater. The PMN–PTnanowire-based nanocomposite also showed a linear relationship ofoutput voltage versus strain with a high sensitivity. The enhancedperformance and the flexibility of the PMN–PT nanowire-basednanocomposite make it a promising building block for energy harvestingand self-powered sensing applications. [ABSTRACT FROM AUTHOR]

Published
2013
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