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1. Fine-tuned local coordination environment of Pt single atoms on ceria controls catalytic reactivity.

Author

Tan, Wei, Xie, Shaohua, Le, Duy, Diao, Weijian, Wang, Meiyu, Low, Ke-Bin, Austin, Dave, Hong, Sampyo, Gao, Fei, Dong, Lin, Ma, Lu, Ehrlich, Steven, Rahman, Talat, and Liu, Fudong

Abstract

Constructing single atom catalysts with fine-tuned coordination environments can be a promising strategy to achieve satisfactory catalytic performance. Herein, via a simple calcination temperature-control strategy, CeO2 supported Pt single atom catalysts with precisely controlled coordination environments are successfully fabricated. The joint experimental and theoretical analysis reveals that the Pt single atoms on Pt1/CeO2 prepared at 550 °C (Pt/CeO2-550) are mainly located at the edge sites of CeO2 with a Pt-O coordination number of ca. 5, while those prepared at 800 °C (Pt/CeO2-800) are predominantly located at distorted Ce substitution sites on CeO2 terrace with a Pt-O coordination number of ca. 4. Pt/CeO2-550 and Pt/CeO2-800 with different Pt1-CeO2 coordination environments exhibit a reversal of activity trend in CO oxidation and NH3 oxidation due to their different privileges in reactants activation and H2O desorption, suggesting that the catalytic performance of Pt single atom catalysts in different target reactions can be maximized by optimizing their local coordination structures.

Published
2022

16. Investigation of Nucleation Mechanism and Tapering Observed in ZnO Nanowire Growth by Carbothermal Reduction Technique

Author

Oye Michael, Meyyappan M, Low Ke-Bin, Nicholls Alan, Kar Ayan, Stroscio Michael, and Dutta Mitra

Subjects
ZnO, Nanowires, Microscopy, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Abstract ZnO nanowire nucleation mechanism and initial stages of nanowire growth using the carbothermal reduction technique are studied confirming the involvement of the catalyst at the tip in the growth process. Role of the Au catalyst is further confirmed when the tapering observed in the nanowires can be explained by the change in the shape of the catalyst causing a variation of the contact area at the liquid–solid interface of the nanowires. The rate of decrease in nanowire diameter with length on the average is found to be 0.36 nm/s and this rate is larger near the base. Variation in the ZnO nanowire diameter with length is further explained on the basis of the rate at which Zn atoms are supplied as well as the droplet stability at the high flow rates and temperature. Further, saw-tooth faceting is noticed in tapered nanowires, and the formation is analyzed crystallographically.

Published
2011

19. Atomic Origins of Monoclinic-Tetragonal (Rutile) Phase Transition in Doped VO2 Nanowires

Author

Asayesh-Ardakani, Hasti, primary, Nie, Anmin, additional, Marley, Peter M., additional, Zhu, Yihan, additional, Phillips, Patrick J., additional, Singh, Sujay, additional, Mashayek, Farzad, additional, Sambandamurthy, Ganapathy, additional, Low, Ke-bin, additional, Klie, Robert F., additional, Banerjee, Sarbajit, additional, Odegard, Gregory M., additional, and Shahbazian-Yassar, Reza, additional

Published
2015
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20. Atomic Resolution Study of W-Doped VO2 Nanowires

Author

Asayesh-Ardakani, Hasti, primary, Nie, Anmin, additional, Marley, Peter M., additional, Zhu, Yihan, additional, Phillips, Patrick J., additional, Singh, Sujay, additional, Mashayek, Farzad, additional, Sambandamurthy, Ganapathy, additional, Low, Ke-bin, additional, Klie, Robert F., additional, Banerjee, Sarbajit, additional, Odegard, Gregory M., additional, and Shahbazian-Yassar, Reza, additional

Published
2015
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21. Facile electrochemical synthesis of antimicrobial TiO2 nanotube arrays

Author

Zhao,Yu, Xing,Qi, Janjanam,Jagadeesh, He,Kun, Long,Fei, Low,Ke-Bin, Tiwari,Ashutosh, Zhao,Feng, Shahbazian-Yassar,Reza, Friedrich,Craig, Shokuhfar,Tolou, Zhao,Yu, Xing,Qi, Janjanam,Jagadeesh, He,Kun, Long,Fei, Low,Ke-Bin, Tiwari,Ashutosh, Zhao,Feng, Shahbazian-Yassar,Reza, Friedrich,Craig, and Shokuhfar,Tolou

Abstract

Yu Zhao,1 Qi Xing,2 Jagadeesh Janjanam,3 Kun He,1,4 Fei Long,1 Ke-Bin Low,5 Ashutosh Tiwari,3 Feng Zhao,2 Reza Shahbazian-Yassar,1 Craig Friedrich,1,8 Tolou Shokuhfar1,6–81Department of Mechanical Engineering-Engineering Mechanics, Michigan Technological University, Houghton, MI, USA; 2Department of Biomedical Engineering, Michigan Technological University, Houghton, MI, USA; 3Department of Chemistry, Michigan Technological University, Houghton, MI, USA; 4School of Materials Science and Engineering, Shandong University, Jinan, People’s Republic of China; 5Research Resources Center, University of Illinois at Chicago, Chicago, IL, USA; 6Department of Physics, University of Illinois at Chicago, Chicago, IL, USA; 7Mechanical and Industrial Engineering Department, University of Illinois at Chicago, Chicago, IL, USA; 8Multi-Scale Technologies Institute, Michigan Technological University, Houghton, MI, USAAbstract: Infection-related complications have been a critical issue for the application of titanium orthopedic implants. The use of Ag nanoparticles offers a potential approach to incorporate antimicrobial properties into the titanium implants. In this work, a novel and simple method was developed for synthesis of Ag (II) oxide deposited TiO2 nanotubes (TiNTs) using electrochemical anodization followed by Ag electroplating processes in the same electrolyte. The quantities of AgO nanoparticles deposited in TiNT were controlled by selecting different electroplating times and voltages. It was shown that AgO nanoparticles were crystalline and distributed throughout the length of the nanotubes. Inductively coupled plasma mass spectrometry tests showed that the quantities of released Ag were less than 7 mg/L after 30 days at 37°C. Antimicrobial assay results show that the AgO-deposited TiNTs can effectively kill the Escherichia coli bacteria. Although the AgO-deposited TiNTs showed some cytotoxicity, it should be

Published
2014

24. Atomic Resolution Study of Local Strains in Doped VO2 Nanowires

Author

Asayesh-Ardakani, Hasti, primary, Nie, Anmin, additional, Marley, Peter M., additional, Singh, Sujay, additional, Philips, Patrick J., additional, Mashayek, Farzad, additional, Sambandamurthy, Ganapathy, additional, Low, Ke-bin, additional, Klie, Robert F., additional, Banerjee, Sarbajit, additional, Odegard, Gregory M., additional, and Shahbazian-Yassar, Reza, additional

Published
2014
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27. A New Method for Brazing Nitinol Based on the Quasibinary TiNi-Nb System

Author

Michigan State University, East Lansing, MI, The University of Michigan, Ann Arbor, MI, Grummon, David, Low, Ke-Bin, Foltz, John, Shaw, John, Michigan State University, East Lansing, MI, The University of Michigan, Ann Arbor, MI, Grummon, David, Low, Ke-Bin, Foltz, John, and Shaw, John

Published
2010

37. Composite of LiFePO4with Titanium Phosphate Phases as Lithium-Ion Battery Electrode Material

Author

Koenig, Gary M., Ma, Jiwei, Key, Baris, Fink, Justin, Low, Ke-Bin, Shahbazian-Yassar, Reza, and Belharouak, Ilias

Abstract

We report the synthesis of LiFePO4(LFP) battery materials where during synthesis the iron has been substituted by up to 10 mol % with titanium. Analysis of the Ti-substituted materials revealed that at the substitution levels investigated, the Ti did not form a solid solution with the LFP, but rather minority phases containing Ti phosphates were formed and segregated at the nanoscopic scale. The minority phases were amorphous or not well-crystallized and accepted Li on first discharge in a lithium half cell, and solid state NMR spectra were consistent with one of the constituents being LiTi2(PO4)3. The Ti substituted materials had increased electrochemical capacities and discharge voltages relative to LFP prepared in an equivalent process, and the ability to accept Li on first discharge may find utility in using previously inaccessible capacity in battery cathode formulations and in balancing excess capacity from high energy cathode materials.

Published
2013
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38. Synthesis and Characterization of Semiconductor Tantalum Nitride Nanoparticles

Author

Ho, Chiun-Teh, Low, Ke-Bin, Klie, Robert F., Maeda, Kazuhiko, Domen, Kazunari, Meyer, Randall J., and Snee, Preston T.

Abstract

We have developed colloidal synthesis methods to create nanoparticles (NPs) of tantalum nitride. The particle sizes and crystallinity can be controlled through the use of different organic solvents and reaction times; we demonstrate here NPs ranging in size from 2 to 23 nm. While electron microscopy and selected area diffraction demonstrate the synthesis of NPs of tantalum nitride (which may be partially oxidized), results from X-ray photoelectron spectroscopy reveal that the majority of the tantalum in our sample is present as an unidentified molecular-scale oxide species.

Published
2011
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39. Anomalous metal vaporization from Pt/Pd/Al 2 O 3 under redox conditions.

Author

Meng AC, Low KB, Foucher AC, Li Y, Petrovic I, and Stach EA

Abstract

Al2O3-supported Pt/Pd bimetallic catalysts were studied using in situ atmospheric pressure and ex situ transmission electron microscopy. Real-time observation during separate oxidation and reduction processes provides nanometer-scale structural details - both morphology and chemistry - of supported Pt/Pd particles at intermediate states not observable through typical ex situ experiments. Significant metal vaporization was observed at temperatures above 600 °C, both in pure oxygen and in air. This behavior implies that material transport through the vapor during typical catalyst aging processes for oxidation can play a more significant role in catalyst structural evolution than previously thought. Concomitantly, Pd diffusion away from metallic nanoparticles on the surface of Al2O3 can also contribute to the disappearance of metal particles. Electron micrographs from in situ oxidation experiments were mined for data, including particle number, size, and aspect ratio using machine learning image segmentation. Under oxidizing conditions, we observe not only a decrease in the number of metal particles but also a decrease in the surface area to volume ratio. Some of the metal that diffuses away from particles on the oxide support can be regenerated and reappears back on the catalyst support surface under reducing conditions. These observations provide insight on how rapid cycling between oxidative and reductive catalytic operating conditions affects catalyst structure.

Published
2021
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40. Facile electrochemical synthesis of antimicrobial TiO₂ nanotube arrays.

Author

Zhao Y, Xing Q, Janjanam J, He K, Long F, Low KB, Tiwari A, Zhao F, Shahbazian-Yassar R, Friedrich C, and Shokuhfar T

Subjects
Animals, Anti-Infective Agents pharmacology, Cell Line, Cell Proliferation drug effects, Electrochemical Techniques, Escherichia coli drug effects, Mice, Microbial Sensitivity Tests, Microbial Viability drug effects, Nanotechnology, Oxides pharmacology, Silver Compounds pharmacology, Titanium pharmacology, Anti-Infective Agents chemistry, Metal Nanoparticles chemistry, Nanotubes chemistry, Oxides chemistry, Silver Compounds chemistry, Titanium chemistry
Abstract

Infection-related complications have been a critical issue for the application of titanium orthopedic implants. The use of Ag nanoparticles offers a potential approach to incorporate antimicrobial properties into the titanium implants. In this work, a novel and simple method was developed for synthesis of Ag (II) oxide deposited TiO2 nanotubes (TiNTs) using electrochemical anodization followed by Ag electroplating processes in the same electrolyte. The quantities of AgO nanoparticles deposited in TiNT were controlled by selecting different electroplating times and voltages. It was shown that AgO nanoparticles were crystalline and distributed throughout the length of the nanotubes. Inductively coupled plasma mass spectrometry tests showed that the quantities of released Ag were less than 7 mg/L after 30 days at 37°C. Antimicrobial assay results show that the AgO-deposited TiNTs can effectively kill the Escherichia coli bacteria. Although the AgO-deposited TiNTs showed some cytotoxicity, it should be controllable by optimization of the electroplating parameters and incorporation of cell growth factor. The results of this study indicated that antimicrobial properties could be added to nanotextured medical implants through a simple and cost effective method.

Published
2014
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