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969 results on '"Jiang, Ju"'

104. A Randomized Trial on the Effect of Transcutaneous Electrical Nerve Stimulator on Glycemic Control in Patients with Type 2 Diabetes

Author

Lu, Jin-Ying, primary, Ou, Horng-Yih, additional, Wu, Chung-Ze, additional, Yang, Chwen-Yi, additional, Jiang, Ju-Ying, additional, Lu, Chieh-Hsiang, additional, Jiang, Yi-Der, additional, Chang, Tien-Jyun, additional, Chang, Yi-Cheng, additional, Hsieh, Meng-Lun, additional, Wu, Wan-Chen, additional, Li, Hung-Yuan, additional, Du, Ye-Fong, additional, Lin, Ching-Han, additional, Hung, Hao-Chang, additional, Tien, Kai-Jen, additional, Yeh, Nai-Cheng, additional, Lee, Shang-Yu, additional, Yu, Hui-I, additional, and Chuang, Lee-Ming, additional

Published
2022
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105. TiO2-coated LiNi0.9Co0.08Al0.02O2 cathode materials with enhanced cycle performance for Li-ion batteries

Author

Wei-Wei Li, Jie Yang, Jiang-Ju Si, Xue-Yi Sun, and Xiang-Jun Zhang

Subjects
Materials science, Scanning electron microscope, 020502 materials, Metals and Alloys, 02 engineering and technology, Electrolyte, Condensed Matter Physics, Cathode, law.invention, 0205 materials engineering, Chemical engineering, Transmission electron microscopy, law, Electrode, Materials Chemistry, Particle, Physical and Theoretical Chemistry, High-resolution transmission electron microscopy, Current density
Abstract

Ni-rich cathode material is one of the most promising materials for Li-ion batteries in electric vehicles. However, fading capacity, poor cyclic stability and high pH value are still major challenges, which suppress its practical application. In this study, spherical LiNi0.9Co0.08Al0.02O2 powders with 0.4 wt% TiO2 coating layer were prepared by impregnation–hydrolysis method. Scanning electron microscopy (SEM), high-resolution transmission electron microscopy (HRTEM) and X-ray diffraction (XRD) results show that TiO2 is uniformly coated on the surface of LiNi0.9Co0.08Al0.02O2 particle and slightly embedded into LiNi0.9Co0.08Al0.02O2 particles. After 100 cycles at 2.0C, 0.4 wt% TiO2-coated LiNi0.9Co0.08Al0.02O2 electrode delivers much higher discharge capacity retention (77.0%) than the pristine LiNi0.9Co0.08Al0.02O2 electrode (63.3%). The excellent cycling performance of 0.4 wt% TiO2-coated LiNi0.9Co0.08Al0.02O2 electrode at a high discharge ratio is due to a TiO2 coating layer which can effectively reduce the direct contact between cathode material and electrolyte, suppress the oxidation of electrolyte, improve electrical conductivity of the electrode and increase the stability of the structure. With the increase of current density, TCNC sample clearly exhibits enhanced cycling performance with higher capacity retention, and the capacity retention of TCNC increases by 22% at 2.0 C.

Published
2020

106. Effect of Na Doping or Substitution on the Structural and Electrochemical Properties of Cobalt-Free Li-Rich Mn-Based Cathode Materials

Author

Wei Wei Li, Jie Yang, Wu Ke Lang, S.N. Blegoa, Jiang Ju Si, and Lu Yao

Subjects
Materials science, Mechanical Engineering, Inorganic chemistry, Substitution (logic), Doping, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Electrochemistry, 01 natural sciences, Cathode, 0104 chemical sciences, law.invention, chemistry, Mechanics of Materials, law, General Materials Science, 0210 nano-technology, Cobalt
Abstract

Cobalt-free Li-rich Mn-based cathode materials are considered to be the next generation of Li-ion batteries due to low cost, high discharge capacities and high safety feature. However, there are still several serious issues that need to be solved urgently, such as low initial coulombic efficiency, low rate capability, poor cycling performance and voltage fading. Na doping or substitution is introduced to improve the electrochemical performance of Li1.2Mn0.6Ni0.2O2 cathode material, which is synthesized by sol-gel method. The effect of Na doping or substitution on the morphological, structural and electrochemical properties was systematically studied and analyzed by scanning electron microscope (SEM), X-Ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), cell test system and electrochemical workstation. These results illustrate that lattice layer spacing is enlarged by Na doping or substitution, which is beneficial for the diffusion of Li-ion, and the voltage fading is successfully suppressed. The best electrochemical properties were obtained when Na doping, which is attributed to the stronger structural stability and better reversibility of Li+ during the initial charge and discharge process.

Published
2020

107. Space-confined synthesis of CoNi nanoalloy in N-doped porous carbon frameworks as efficient oxygen reduction catalyst for neutral and alkaline aluminum-air batteries

Author

Chaopeng Fu, Jian Yang, Baode Sun, Lin He, Jiao Zhang, Jiang Ju, Wei Zhang, and Min Jiang

Subjects
Materials science, Aqueous solution, Renewable Energy, Sustainability and the Environment, Doping, Energy Engineering and Power Technology, chemistry.chemical_element, Electrocatalyst, Electrochemistry, Catalysis, Metal, chemistry, Chemical engineering, visual_art, visual_art.visual_art_medium, General Materials Science, Porosity, Carbon
Abstract

Exploring efficient and stable non-precious metal electrocatalysts for oxygen reduction reaction in neutral and alkaline solutions is of great importance for metal-air batteries. Herein, an efficient and stable electrocatalyst with CoNi nanoalloy (10-20 nm) uniformly embedded in porous N-doped carbon framework (CoNi-NCF) for neutral and alkaline primary Al-air batteries is prepared and studied. The CoNi-NCF electrocatalyst shows superior ORR performance in terms of half-wave potential of 0.91 V in 0.1 M KOH solution and 0.64 V in 3.5 wt% NaCl solution, outperforming those of the commercial Pt/C catalyst. Supported by in situ electrochemical Raman spectra and density functional theory calculations, the rich dual active sites of CoNi nanoalloy and porous N-doped carbon contributes to the outstanding ORR performance. Impressively, when employed as a cathode catalyst in both aqueous and solid flexible Al-air batteries, the CoNi-NCF-based Al-air batteries show the highest discharge performance, long-time durability and high flexibility, demonstrating the promising potential for practical application.

Published
2020

108. Additional file 1 of Elevated N-terminal pro C-type natriuretic peptide is associated with mortality in patients undergoing transcatheter aortic valve replacement

Author

Hu, Po, Chen, Han, Wang, Li-Han, Jiang, Ju-Bo, Li, Jia-Min, Tang, Meng-Yao, Guo, Yu-Chao, Zhu, Qi-Feng, Pu, Zhao-Xia, Lin, Xin-Ping, Ng, Stella, Liu, Xian-Bao, and Wang, Jian-An

Abstract

Additional file 1: Table 1S. Cox multivariable models for determinants of cumulative mortality.

Published
2022
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109. Additional file 2 of Elevated N-terminal pro C-type natriuretic peptide is associated with mortality in patients undergoing transcatheter aortic valve replacement

Author

Hu, Po, Chen, Han, Wang, Li-Han, Jiang, Ju-Bo, Li, Jia-Min, Tang, Meng-Yao, Guo, Yu-Chao, Zhu, Qi-Feng, Pu, Zhao-Xia, Lin, Xin-Ping, Ng, Stella, Liu, Xian-Bao, and Wang, Jian-An

Subjects
cardiovascular system, cardiovascular diseases, circulatory and respiratory physiology
Abstract

Additional file 2: Table 2S. Comparison of ROC curves in patients with LVEF lower than 50%.

Published
2022
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110. Serologic evidence of scrub typhus in the Peruvian Amazon

Author

Kocher, Claudine, Jiang, Ju, Morrison, Amy C., Castillo, Roger, Leguia, Mariana, Loyola, Steev, Ampuero, Julia S., Cespedes, Manuel, Halsey, Eric S., Bausch, Daniel G., and Richards, Allen L.

Subjects
Enzyme-linked immunosorbent assay -- Analysis, Disease transmission -- Analysis, Infection -- Analysis, Scrub typhus -- Analysis, Adult respiratory distress syndrome -- Analysis, Health
Abstract

Infections with scrub typhus group orientiae (STGO) are a common and widespread cause of fever in Asia, the western Pacific, and northern Australia (the tsutsugamushi triangle). The causative pathogen, Orientia [...]

Published
2017
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111. An Overview of Technological Parameter Optimization in the Case of Laser Cladding

Author

Kaiming Wang, Wei Liu, Yuxiang Hong, H. M. Shakhawat Sohan, Yonggang Tong, Yongle Hu, Mingjun Zhang, Jian Zhang, Dingding Xiang, Hanguang Fu, and Jiang Ju

Subjects
Materials Chemistry, Surfaces and Interfaces, Surfaces, Coatings and Films
Abstract

This review examines the methods used to optimize the process parameters of laser cladding, including traditional optimization algorithms such as single-factor, regression analysis, response surface, and Taguchi, as well as intelligent system optimization algorithms such as neural network models, genetic algorithms, support vector machines, the new non-dominance ranking genetic algorithm II, and particle swarm algorithms. The advantages and disadvantages of various laser cladding process optimization methods are analyzed and summarized. Finally, the development trend of optimization methods in the field of laser cladding is summarized and predicted. It is believed that the result would serve as a foundation for future studies on the preparation of high-quality laser cladding coatings.

Published
2023

113. Mechanical Properties, Electronic Structures, and Debye Temperature of NixBy Compounds Obtained by the First Principles Calculations

Author

Kaiming Wang, Dong Du, Baohua Chang, Yuxiang Hong, Jiang Ju, Shuting Sun, and Hanguang Fu

Subjects
NixBy compounds, first-principles, mechanical properties, electronic structures, Debye temperature, Crystallography, QD901-999
Abstract

Mechanical properties, electronic properties, and Debye temperatures of NixBy (Ni3B, Ni2B, Ni4B3 and NiB) compounds were obtained by the first principles calculations based on the density functional theory (DFT). The results showed that the formation enthalpy of the NixBy compounds were stable with negative formation enthalpy. NiB had the largest B, G, and E, and the smallest υ; it also had the highest hardness (10.8 GPa) and Debye temperature (681.8 K). Ni4B3 had the strongest anisotropy. It was found that the valence bonds of the NixBy compounds studied were composed of both metal bond and covalent bond, and the mechanical properties and Debye temperature of the NixBy compounds increased with the increase of the B atomic ratio.

Published
2018
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114. Optimization of Process Parameters, Microstructure, and Properties of Laser Cladding Fe-Based Alloy on 42CrMo Steel Roller

Author

Jiang Ju, Yang Zhou, Maodong Kang, and Jun Wang

Subjects
laser cladding, Fe-based powder, process parameters, microstructure, properties, mould foot roller, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

The mould foot roller is a key component of a continuous casting machine. In order to investigate the possibility of using laser cladding to repair mould foot roller, Fe-based powders and 42CrMo steel are used in this work. The laser cladding process parameters were optimized by orthogonal experiments. The chemical compositions, microstructure, properties of the cladding layer under the optimum process parameters, and substrate were systematically investigated by using optical microscopy (OM), scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS), X-ray diffraction (XRD), microhardness test, wear test, and salt spray corrosion test. The results indicate that the primary factor affecting the width and depth of the cladding layer is laser power. The scanning speed also has a significant effect on the height of the cladding layer. The optimum process parameters for repairing the mould foot roller are 2 kW laser power, 4 mm/s scanning speed, and 15 g/min feeding rate of powder. Along the depth direction of the cladding layer, the microstructure of the coating gradually transforms from plane crystal, cell grains, or dendrites to equiaxed grains. The matrix is mainly martensite with retained austenite; the eutectic phase is composed of netlike M2B, particulate M23(C,B)6, and M7(C,B)3 phase. The hardness of the cladding layer is significantly improved, about three times that of the substrate. The weight loss of the cladding layer is just half that of the substrate. Its wear resistance and corrosion resistance have been significantly improved. The work period of the laser cladding-repaired foot roller is much longer than for the surfacing welding-repaired one. In summary, laser cladding technology can increase the life of mould foot rollers.

Published
2018
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115. Emerging tick-borne Rickettsia and Ehrlichia at joint base Langley-Eustis, fort Eustis, Virginia

Author

Miller, Melissa K., Jiang, Ju, Truong, Melissa, Yarina, Tamasin, Evans, Holly, Christensen, Timothy P., and Richards, Allen L.

Subjects
Ehrlichia -- Health aspects -- Research, Rickettsiae -- Health aspects -- Research, Health
Abstract

Rickettsiae and related ehrlichial organisms are obligate intracellular bacteria carried by mites, fleas, ticks, and lice and are the agents of numerous tick-borne diseases found in Virginia, such as Rocky [...]

Published
2016

116. Finerenone in Patients With Chronic Kidney Disease and Type 2 Diabetes According to Baseline HbA1c and Insulin Use: An Analysis From the FIDELIO-DKD Study

Author

Rossing, Peter, primary, Burgess, Ellen, additional, Agarwal, Rajiv, additional, Anker, Stefan D., additional, Filippatos, Gerasimos, additional, Pitt, Bertram, additional, Ruilope, Luis M., additional, Gillard, Pieter, additional, MacIsaac, Richard J., additional, Wainstein, Julio, additional, Joseph, Amer, additional, Brinker, Meike, additional, Roessig, Lothar, additional, Scott, Charlie, additional, Bakris, George L., additional, Vallejos, Augusto, additional, MacIsaac, Richard, additional, Schernthaner, Guntram, additional, Canziani, Maria Eugenia F., additional, Temelkova-Kurktschiev, Theodora, additional, Tobe, Sheldon, additional, González, Fernando, additional, Liu, Zhi-Hong, additional, Ángelo, Andrés, additional, Bonfanti, Cadena, additional, Francisco Jaramillo, Carlos, additional, Prazny, Martin, additional, Rossing, Peter, additional, Strand, Jorma, additional, Marre, Michel, additional, Schmieder, Roland, additional, Wanner, Christoph, additional, Sarafidis, Pantelis A., additional, Chan, Juliana, additional, Rosivall, László, additional, Eustace, Joseph, additional, Grossman, Ehud, additional, Yagil, Yoram, additional, Remuzzi, Giuseppe, additional, Koya, Daisuke, additional, Wada, Takashi, additional, Madero Rovalo, Magdalena, additional, Gansevoort, Ron, additional, Kooy, Adriaan, additional, Finnes, Trine, additional, De Leon, Froilan, additional, Gumprecht, Janusz, additional, Teixeira e Costa, Fernando, additional, Dreval, Alexander, additional, Vathsala, Anantharaman, additional, Amod, Aslam, additional, Gon Kim, Sin, additional, Wan Lee, Byung, additional, Pascual Santos, Julio, additional, Tengmark, Bengt-Olov, additional, Burnier, Michel, additional, Lee, Chien-Te, additional, Yamwong, Sukit, additional, Sari, Ramazan, additional, McCafferty, Kieran, additional, Mankovsky, Borys, additional, Adler, Sharon, additional, Fried, Linda, additional, Toto, Robert, additional, Williams, Mark, additional, Quang Khanh, Tran, additional, Aizenberg, Diego, additional, Bartolacci, Inés, additional, Besada, Diego, additional, Bittar, Julio, additional, Chahin, Mariano, additional, Elbert, Alicia, additional, Gelersztein, Elizabeth, additional, Liberman, Alberto, additional, Maffei, Laura, additional, Pérez Manghi, Federico, additional, Sanabria, Hugo, additional, Viñes, Gloria, additional, Wassermann, Alfredo, additional, Abhayaratna, Walter, additional, Acharya, Shamasunder, additional, Ekinci, Elif, additional, Lee, Darren, additional, Mann Mah, Peak, additional, Nelson, Craig, additional, Packham, David, additional, Pape, Alexia, additional, Roger, Simon, additional, Stephenson, Hugo, additional, Suranyi, Michael, additional, Wittert, Gary, additional, Vale, Elizabeth, additional, Clodi, Martin, additional, Ebenbichler, Christoph, additional, Fliesser-Görzer, Evelyn, additional, Hanusch, Ursula, additional, Krebs, Michael, additional, Lhotta, Karl, additional, Ludvik, Bernhard, additional, Mayer, Gert, additional, Neudorfer, Peter, additional, Paulweber, Bernhard, additional, Prager, Rudolf, additional, Preiß, Wolfgang, additional, Prischl, Friedrich, additional, Schernthaner, Gerit-Holger, additional, Sourij, Harald, additional, Wiesholzer, Martin, additional, Doubel, Peter, additional, Engelen, Wendy, additional, Hougardy, Jean-Michel, additional, Krzesinski, Jean-Marie, additional, Maes, Bart, additional, Speeckaert, Marijn, additional, Stas, Koen, additional, van Gaal, Luc, additional, Vanbelleghem, Hilde, additional, Antunes, Daniela, additional, Botelho, Roberto, additional, Brito, Claudia, additional, Canani, Luis, additional, Eugenia Canziani, Maria, additional, Cerqueira, Maria, additional, de Paula, Rogerio, additional, Eliaschewitz, Freddy, additional, Eduardo Figueiredo, Carlos, additional, Forti, Adriana, additional, Hissa, Miguel, additional, Leite Jr, Maurilo, additional, Lima, Emerson, additional, Noronha, Irene, additional, Paolino, Bruno, additional, Paschoalin, Nathalia, additional, Paschoalin, Raphael, additional, Pecoits Filho, Roberto, additional, Pereira, Marcio, additional, Portes, Evandro, additional, Precoma, Dalton, additional, Rea, Rosangela, additional, Riella, Miguel, additional, Eduardo Salles, Joao, additional, Vasconcellos, Eduardo, additional, Vencio, Sergio, additional, Apostolova, Emiliya, additional, Boshnyashka, Radostina, additional, Farah, Ghassan, additional, Georgiev, Dimitar, additional, Gushterova, Valentina, additional, Klyuchkova, Neli, additional, Lucheva, Mariya, additional, Manova, Petya, additional, Minkova, Dotska, additional, Nonchev, Boyan, additional, Pichmanova, Mariyana, additional, Prakova, Zhulieta, additional, Rangelov, Rangel, additional, Rashkov, Rosen, additional, Stanchev, Pavel, additional, Stoyanovska-Elencheva, Bilyana, additional, Tagarev, Zhivko, additional, Temelkova-Kurktschieva, Theodora, additional, Vasileva, Svetla, additional, Yoncheva-Mihaylova, Mariana, additional, Barre, Paul, additional, Carlson, Brian, additional, Conway, James, additional, Cournoyer, Serge, additional, Dumas, Richard, additional, Fikry, Sameh, additional, Goluch, Richard, additional, Hamet, Pavel, additional, Hart, Randolph, additional, Henein, Sam, additional, Liutkus, Joanne, additional, Madore, Francois, additional, Martinho, Valdemar, additional, Mazza, Giuseppe, additional, McFarlane, Philip, additional, O'Keefe, Dennis, additional, Peterson, Sean, additional, Schwartz, Daniel, additional, Shu, Daniel, additional, Steele, Andrew, additional, Tellier, Guy, additional, Tennankore, Karthik, additional, Tsoukas, George, additional, Tytus, Richard, additional, Vitou, Louise, additional, Walsh, Michael, additional, Weisnagel, Stanley, additional, Wilderman, Igor, additional, Yale, Jean-Francois, additional, Cobos, Jorge, additional, Godoy, Juan, additional, Lobos, Sergio, additional, Carlos Palma, Juan, additional, Carlos Prieto, Juan, additional, Reyes, Eliana, additional, Romero, Carmen, additional, Saavedra, Victor, additional, Vega, Mario, additional, Bu, Ruifang, additional, Cai, Hanqing, additional, Chen, Nan, additional, Chen, Qinkai, additional, Chen, Dejun, additional, Cheng, Jinluo, additional, Dong, Youping, additional, Dong, Junwu, additional, Guan, Tianjun, additional, Hao, Chuanming, additional, Huang, Wen, additional, Jiang, Fangfang, additional, Lei, Minxiang, additional, Li, Ling, additional, Li, Zhonghe, additional, Li, Xuemei, additional, Li, Jingmei, additional, Li, Yan, additional, Liang, Xinling, additional, Liang, Bo, additional, Liu, Fang, additional, Liu, Yinghong, additional, Liu, Yuantao, additional, Liu, Zhihong, additional, Long, Gang, additional, Lu, Guoyuan, additional, Lu, Weiping, additional, Lu, Yibing, additional, Luo, Ping, additional, Ma, Jianhua, additional, Mo, Zhaohui, additional, Niu, Jianying, additional, Peng, Ai, additional, Shen, Jiansong, additional, Shen, Feixia, additional, Shi, Bingyin, additional, Su, Qing, additional, Sun, Zhuxing, additional, Tang, Shuifu, additional, Tong, Nanwei, additional, Wang, Hao, additional, Wang, Xinjun, additional, Wang, Lihua, additional, Wang, Guixia, additional, Wang, Jianqin, additional, Wang, Yangang, additional, Wang, Li, additional, Wei, Jiali, additional, Wu, Tianfeng, additional, Wu, Chaoqing, additional, Xing, Changying, additional, Xiong, Fei, additional, Xu, Xudong, additional, Xu, Ning, additional, Yan, Tiekun, additional, Yang, Jinkui, additional, Yin, Aiping, additional, Zeng, Longyi, additional, Zhang, Hao, additional, Zhang, Yanlin, additional, Zhang, Ying, additional, Zhao, Wenjing, additional, Zhao, Zhiquan, additional, Zheng, Hongguang, additional, Zhong, Ling, additional, Zhu, Dalong, additional, Zhuang, Yongze, additional, Arango, Clara, additional, Barrera, Sandra, additional, Beltrán López, Nelly, additional, Benitez, Diego, additional, Blanco, Guillermo, additional, Cadena, Andrés, additional, Coronel, Julian, additional, Cure, Carlos, additional, Durán, Carlos, additional, González, Alexander, additional, Guzmán, Gustavo, additional, Hernández, Eric, additional, Ibarra, Jaime, additional, Jaramillo, Carlos, additional, Jaramillo, Nicolás, additional, Kattah, William, additional, Molina, Dora, additional, Sánchez, Gregorio, additional, Terront, Mónica, additional, Trujillo, Freddy, additional, Urina, Miguel, additional, Vargas, Ruben, additional, Villegas, Iván, additional, Yupanqui, Hernán, additional, Alferi, Dino, additional, Brada, Michal, additional, Brezina, Jiri, additional, Bucek, Petr, additional, Edelsberger, Tomas, additional, Gulakova, Drahomira, additional, Hasalova Zapletalova, Jitka, additional, Hola, Olga, additional, Hornova, Lucie, additional, Houdova, Jana, additional, Hrmova, Helena, additional, Karasek, David, additional, Kopecka, Sarka, additional, Kovar, Richard, additional, Krcova, Eva, additional, Kuchar, Jiri, additional, Kutejova, Vlasta, additional, Lubanda, Hana, additional, Matyasek, Ivo, additional, Mokrejsova, Magdalena, additional, Okenka, Libor, additional, Pumprla, Jiri, additional, Tomanek, Pavel, additional, Bech, Jesper, additional, Faber, Jens, additional, Gislason, Gunnar, additional, Hangaard, Jørgen, additional, Jaroslaw Pacyk, Grzegorz, additional, Juhl, Claus, additional, Krarup, Thure, additional, Lindhardt, Morten, additional, Madsbad, Sten, additional, Nielsen, Joan, additional, Pedersen-Bjergaard, Ulrik, additional, Poulsen, Per, additional, Rasmussen, Ole, additional, Schousboe, Karoline, additional, Honkasalo, Mikko, additional, Humaloja, Kari, additional, Kananen, Kristiina, additional, Kantola, Ilkka, additional, Koistinen, Arvo, additional, Korsoff, Pirkko, additional, Lahtela, Jorma, additional, Nieminen, Sakari, additional, Nieminen, Tuomo, additional, Sadeharju, Karita, additional, Sulosaari, Sakari, additional, Cariou, Bertrand, additional, Chantrel, François, additional, Clavel, Sylvaine, additional, Combe, Christian, additional, Fauvel, Jean-Pierre, additional, Gallouj, Karim, additional, Gouet, Didier, additional, Guerci, Bruno, additional, Guerrot, Dominique, additional, Hourmant, Maryvonne, additional, Klein, Alexandre, additional, Mariat, Christophe, additional, Mesbah, Rafik, additional, Le Meur, Yannick, additional, Monier, Arnaud, additional, Moranne, Olivier, additional, Serusclat, Pierre, additional, Vendrely, Benoit, additional, Verges, Bruno, additional, Zaoui, Philippe, additional, Axthelm, Christoph, additional, Bergmann, Andreas, additional, Birkenfeld, Andreas L., additional, Braun, Hermann, additional, Busch, Klaus, additional, Contzen, Christel, additional, Degenhardt, Stefan, additional, Derwahl, Karl, additional, Giebel, Thomas, additional, Hagenow, Andreas, additional, Haller, Hermann, additional, Hasslacher, Christoph, additional, Horacek, Thomas, additional, Jungmair, Wolfgang, additional, Kloos, Christof, additional, Koch, Thorsten, additional, Krüger, Thilo, additional, Mühlfeld, Anja, additional, Müller, Joachim, additional, Pfützner, Andreas, additional, Pistrosch, Frank, additional, Rose, Ludger, additional, Rump, Lars, additional, Schettler, Volker, additional, Schiefke, Ingolf, additional, Schlichthaar, Heike, additional, Schröppel, Bernd, additional, Schürholz, Thomas, additional, Sigal, Helena, additional, Stemler, Lutz, additional, Strack, Georg, additional, Täschner, Heidrun, additional, Toursarkissian, Nicole, additional, Tschöpe, Diethelm, additional, Ulmer, Achim, additional, van der Giet, Markus, additional, Winkelmann, Bernhard R., additional, Boletis, Ioannis, additional, Hatziagelaki, Erifili, additional, Ioannidis, Ioannis, additional, Kounadi, Theodora, additional, Makriniotou, Ioanna, additional, Papadopoulou, Dorothea, additional, Papagianni, Aikaterini, additional, Passadakis, Ploumis, additional, Stefanidis, Ioannis, additional, Pang Ip, Tai, additional, Lee, Paul, additional, Yan Andrea Luk, On, additional, Wang, Angela, additional, Yeung, Vincent, additional, Bajcsi, Dora, additional, Danos, Peter, additional, Harcsa, Eleonora, additional, Kazup, Szilvia, additional, Keltai, Katalin, additional, Kirschner, Robert, additional, Kiss, Julianna, additional, Kovacs, Laszlo, additional, Lamboy, Beata, additional, Literati-Nagy, Botond, additional, Mileder, Margit, additional, Nagy, Laszlo, additional, Noori, Ebrahim, additional, Nyirati, Gabor, additional, Petro, Gizella, additional, Schneider, Karoly, additional, Szocs, Albert, additional, Vasas, Szilard, additional, Wudi, Krisztina, additional, Zilahi, Zsolt, additional, Zsom, Marianna, additional, Eustace, Joe, additional, Holian, John, additional, Reddan, Donal, additional, O'Meara, Yvonne, additional, Abramof Ness, Rosane, additional, Adawi, Faiad, additional, Armaly, Zaher, additional, Atar, Shaul, additional, Ben Chetrit, Sydney, additional, Berar Yanay, Noa, additional, Chernin, Gil, additional, Darawsha, Mahmud, additional, Efrati, Shai, additional, Elias, Mazen, additional, Farber, Evgeny, additional, Glandt, Mariela, additional, Halabi, Majdi, additional, Khazim, Khaled, additional, Liberty, Idit, additional, Mosenzon, Ofri, additional, Nimer, Assy, additional, Schwartz, Doron, additional, Zukermann, Robert, additional, Ilieva Parvanova, Aneliya, additional, Avogaro, Angelo, additional, Giorgio Battaglia, Giovanni, additional, Tiziano Bevilacqua, Maurizio, additional, Bonora, Enzo, additional, Antonio Bossi, Carlo, additional, Calabrò, Paolo, additional, Luigi Cavalot, Franco, additional, Cimino, Roberto, additional, Gennaro Cozzolino, Mario, additional, David, Salvatore, additional, Emdin, Michele, additional, Fiaccadori, Enrico, additional, Fiorina, Paolo, additional, Bruno Giorda, Carlo, additional, Cristina Gregorini, Maria, additional, La Manna, Gaetano, additional, Carlo Maggi, Davide, additional, Manti, Roberta, additional, Meregalli, Giancarla, additional, Pani, Antonello, additional, Perico, Norberto, additional, Piatti, PierMarco, additional, Pisani, Antonio, additional, Ettore Pontiroli, Antonio, additional, Ponzani, Paola, additional, Santorelli, Gennaro, additional, Santoro, Domenico, additional, Scanziani, Renzo, additional, Teatini, Ugo, additional, Tonolo, Giancarlo, additional, Trevisan, Roberto, additional, Maria Veronelli, Anna, additional, Luciano Viviani, Giorgio, additional, Araki, Hideo, additional, Ebisui, Osamu, additional, Fujita, Naruhiro, additional, Furuya, Ryuichi, additional, Hamamoto, Yoshiyuki, additional, Hatazaki, Masahiro, additional, Hayashi, Terumasa, additional, Higashi, Takayuki, additional, Hirohata, Yoshihide, additional, Horinouchi, Shuji, additional, Inagaki, Masayuki, additional, Ishii, Masao, additional, Ishiko, Tamayo, additional, Jinnouchi, Hideaki, additional, Kanai, Hidetoshi, additional, Kanda, Daisuke, additional, Kanehara, Hideo, additional, Kashima, Masayuki, additional, Kato, Kiyoe, additional, Katsuki, Takeshi, additional, Kawamitsu, Katsunori, additional, Kawasaki, Satsuki, additional, Kikuchi, Fumi, additional, Kikuchi, Hidetoshi, additional, Kobayashi, Kunihisa, additional, Koide, Junko, additional, Kubota, Miyuki, additional, Kusano, Yoshiro, additional, Maeda, Hajime, additional, Matsubayashi, Sunao, additional, Matsumoto, Kazunari, additional, Matsuo, Yasuto, additional, Matsuoka, Naoki, additional, Miyaoka, Hiroaki, additional, Murao, Satoshi, additional, Nakayama, Mikihiro, additional, Nakazawa, Jun, additional, Nomiyama, Takashi, additional, Noritake, Masayuki, additional, Ogiwara, Takayuki, additional, Ohashi, Hiroshi, additional, Okamoto, Hideki, additional, Osonoi, Takeshi, additional, Sasaki, Nobuhiro, additional, Sekigami, Taiji, additional, Shibasaki, Taro, additional, Shibata, Hirotaka, additional, Shinoda, Junji, additional, Sobajima, Hiroshi, additional, Sugitatsu, Kazuya, additional, Sugiura, Toshiyuki, additional, Sugiyama, Toru, additional, Suzuki, Daisuke, additional, Suzuki, Hiroyuki, additional, Suzuki, Masaaki, additional, Takeda, Asami, additional, Tanaka, Asami, additional, Tanaka, Seiichi, additional, Tsunematsu, Izumi, additional, Ujihara, Makoto, additional, Yamada, Daishiro, additional, Yamada, Masayo, additional, Yamagata, Kazuo, additional, Yamakawa, Ken, additional, Yamakawa, Fumiko, additional, Yamasaki, Yoshimitsu, additional, Yambe, Yuko, additional, Yanagida, Taihei, additional, Yanai, Hidekatsu, additional, Yasuda, Tetsuyuki, additional, Kriauciuniene, Dovile, additional, Lasiene, Jurate, additional, Navickas, Antanas, additional, Radzeviciene, Lina, additional, Urbanaviciene, Egle, additional, Urbonas, Gediminas, additional, Velaviciene, Audrone, additional, Abd Ghani, Rohana, additional, Azizah Aziz, Nor, additional, Yuan Lee, Li, additional, Loong Loh, Chek, additional, Mohd Ali, Norhaliza, additional, Mohd Noor, Nurain, additional, Nur Fatnoon, Nik, additional, Ahmad, Nik, additional, Ratnasingam, Jeyakantha, additional, Hasnul Halimi Bin, Wan, additional, Hasan, Wan, additional, Mohd Izani, Wan, additional, Mohamed, Wan, additional, Avila Pardo, Sandro, additional, Bastidas Adrian, Miriam, additional, Chew Wong, Alfredo, additional, Escobedo de la Peña, Jorge, additional, Fanghänel Salmón, Guillermo, additional, González Gálvez, Guillermo, additional, Gutiérrez Ochoa, Ramiro, additional, Irizar Santana, Saúl, additional, Méndez Machado, Gustavo, additional, Nevarez Ruiz, Luis, additional, Ramos Ibarra, Denisse, additional, Ramos López, Gabriel, additional, Sauque Reyna, Leobardo, additional, Solache Ortiz, Gustavo, additional, Valdez Ortiz, Rafael, additional, Villagordoa Mesa, Juan, additional, Bakker, R.C., additional, Barendregt, J.N.M., additional, Boonstra, A.H., additional, Bos, Willem, additional, Brouwer, C.B., additional, van Buren, M., additional, Krekels, Marielle, additional, van Leendert, Ruud J.M., additional, Lieverse, Louis A.G., additional, Luik, P.T., additional, Lars Penne, E., additional, Smak Gregoor, Peter, additional, Vogt, Liffert, additional, Baker, John, additional, Crawford, Veronica, additional, Cutfield, Rick, additional, Dunn, Peter, additional, Krebs, Jeremy, additional, Nirmalaraj, Kingsley, additional, Scott, Russell, additional, Smuts, Nine, additional, Eriksen, Erik, additional, Høivik, Hans, additional, Karlsson, Thomas, additional, Scott Munk, Peter, additional, Radtke, Maria, additional, Risberg, Knut, additional, Rocke, Jan, additional, Solnør, Leidulv, additional, Stenehjem, Aud-Eldrid, additional, Tafjord, Anne-Beathe, additional, Pamugas, Glenda, additional, Panelo, Araceli, additional, Perez, Ronald, additional, Tanque, Maribel, additional, Tirador, Louie, additional, Villa, Michael, additional, Butrymowicz, Patrycja, additional, Ciechanowski, Kazimierz, additional, Cieslik, Grazyna, additional, Franek, Edward, additional, Hoffmann, Michal, additional, Krzykowska, Jolanta, additional, Kurnatowska, Ilona, additional, Landa, Katarzyna, additional, Madrzejewski, Adam, additional, Madziarska, Katarzyna, additional, 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Albota, Adrian, additional, Bala, Cornelia, additional, Barbonta, Hortensia, additional, Caceaune, Elena, additional, Catrinoui, Doina, additional, Constantin, Ciprian, additional, Dumitrescu, Adriana, additional, Mindrescu, Nicoleta, additional, Mistode, Cristina, additional, Negrisanu, Gabriela, additional, Onaca, Adriana, additional, Paveliu, Silvia, additional, Pintilei, Ella, additional, Pop, Lavinia, additional, Popa, Amorin, additional, Popescu, Alexandrina, additional, Radulian, Gabriela, additional, Szilagyi, Iosif, additional, Turcu, Liana, additional, Vacaru, Georgeta, additional, Vlad, Adrian, additional, Antsiferov, Mikhail, additional, Arkhipov, Mikhail, additional, Babkin, Andrey, additional, Barbarash, Olga, additional, Baranov, Vitaliy, additional, Chernyavskaya, Elena, additional, Demko, Arkadiy, additional, Edin, Anton, additional, Ermakova, Polina, additional, Fadeev, Valentin, additional, Galyavich, Albert, additional, Gaysina, Leyla, additional, Gordeev, Ivan, additional, Ipatko, Irina, additional, Kalashnikova, Marina, additional, Khalimov, Yuriy, additional, Klimontov, Vadim, additional, Kobalava, Zhanna, additional, Kosmacheva, Elena, additional, Koziolova, Natalya, additional, Kvitkova Sergey Levashov, Lyudmila, additional, Libis, Roman, additional, Marasaev, Vyacheslav, additional, Malykh, Natalia, additional, Martynenko, Vladimir, additional, Malyutina, Sofya, additional, Merai, Imad, additional, Mkrtumyan, Ashot, additional, Nechaeva, Galina, additional, Petunina, Nina, additional, Palyutin, Shamil, additional, Pimenov, Leonid, additional, Rechkova, Elena, additional, Rodionova, Tatyana, additional, Rymar, Oksana, additional, Sardinov, Ruslan, additional, Semenova, Olga, additional, Sherenkov, Alexander, additional, Solovev, Oleg, additional, Smolyarchuk, Elena, additional, Strongin, Leonid, additional, Ukhanova, Olga, additional, Verlan, Nadezhda, additional, Vorokhobina, Natalya, additional, Yakhontov, Davyd, additional, Yakushin, Sergey, additional, Zakharova, Elena, additional, Zalevskaya, Alsu, additional, Zanozina, Olga, additional, Zhdanova, Elena, additional, Zhukova, Larisa, additional, Zykova, Tatyana, additional, Fang Sum, Chee, additional, Muhummad Suhail, Sufi, additional, San Tan, Ru, additional, Wong, Edmund, additional, Babikova, Jana, additional, Buganova, Ingrid, additional, Dzupina, Andrej, additional, Ochodnicka, Zuzana, additional, Sosovec, Dalibor, additional, Spodniakova, Denisa, additional, Ahmed, Fayzal, additional, Bhana, Sindeep, additional, Distiller, Larry, additional, Jansen van Rensburg, Dirkie, additional, Joshi, Mukesh, additional, Joshi, Shaifali, additional, Lakha, Deepak, additional, Mitha, Essack, additional, Podgorski, Gracjan, additional, Ranjith, Naresh, additional, Rayner, Brian, additional, Rheeder, Paul, additional, Sarvan, Mohamed, additional, Seeber, Mary, additional, Siebert, Heidi, additional, Tayob, Mohammed, additional, Trokis, Julien, additional, Urbach, Dorothea, additional, van Zyl, Louis, additional, Choi, Bum-Soon, additional, Gi Choi, Moon, additional, Chung, ChoonHee, additional, Hwang, YouCheol, additional, Kim, ChongHwa, additional, Kim, InJoo, additional, Kim, JaeHyeon, additional, Kim, SinGon, additional, Kim, SungGyun, additional, Hee Kim, Tae, additional, Lee, WooJe, additional, Lee, ByungWan, additional, Wook Lee, Kang, additional, Oh, Kook-Hwan, additional, Eun Oh, Ji, additional, Kyu Oh, Yun, additional, Oh, Dong-Jin, additional, Park, Junbeom, additional, Joon Shin, Seok, additional, Sung, Su-Ah, additional, Myung Yu, Jae, additional, Agraz, Irene, additional, Javier Ampudia, Francisco, additional, Bouarich, Hanane, additional, Calero, Francesca, additional, Castro, Cristina, additional, Cigarrán Guldris, Secundino, additional, Cruzado Garrit, Josep, additional, de Álvaro, Fernando, additional, Galcerán, Josep, additional, González Albarrán, Olga, additional, Hernández Jaras, Julio, additional, Ibernón, Meritxell, additional, Martínez Deben, Francisco, additional, Dolores Martínez Esteban, Ma, additional, María Pascual Izuel, José, additional, Martins, Judith, additional, Mediavilla, Juan, additional, Michán, Alfredo, additional, Poch, Esteban, additional, Polaina Rusillo, Manuel, additional, Sánchez Juan, Carlos, additional, Santamaría Olmo, Rafael, additional, Julián, José, additional, de la Morena, Segura, additional, Soto, Alfonso, additional, Troya, Maribel, additional, Bruchfeld, Annette, additional, Curiac, Dan, additional, Eliasson, Ken, additional, Frank, Malin, additional, Guron, Gregor, additional, Hellberg, Olof, additional, Hellgren, Margareta, additional, Larnefeldt, Hans, additional, Lindholm, Carl-Johan, additional, Löndahl, Magnus, additional, Rein-Hedin, Erik, additional, Soveri, Inga, additional, Spaak, Jonas, additional, Ackermann, Daniel, additional, Bilz, Stefan, additional, Forster, Christian, additional, Kalbermatter, Stefan, additional, Kistler, Andreas, additional, Pechére-Bertschi, Antoinette, additional, Schultes, Bernd, additional, Chang, Chiz-Tzung, additional, Hung, Cheng-Chieh, additional, Jiang, Ju-Ying, additional, Lin, Shuei-Liong, additional, Tarng, Der-Cherng, additional, Tu, Shih-Te, additional, Wu, Mai-Szu, additional, Wu, Ming-Ju, additional, Deerochanawong, Chaicharn, additional, Kitiyakara, Chagriya, additional, Ophascharoensuk, Vuddhidej, additional, Pongchaiyakul, Chatlert, additional, Satirapoj, Bancha, additional, Eren, Necmi, additional, Gul, Ibrahim, additional, Gulel, Okan, additional, Kocyigit, Ismail, additional, Kumbasar, Abdulbaki, additional, Sahin, Idris, additional, Sayin, Burak, additional, Tavli, Talat, additional, Ustundag, Sedat, additional, Yenicerioglu, Yavuz, additional, Bondarets, Iryna, additional, Botsyurko, Volodymyr, additional, Chernikova, Viktoriia, additional, Donets, Oleksandra, additional, Fushtey, Ivan, additional, Grachova, Mariia, additional, Isayeva, Anna, additional, Kogut, Dmytro, additional, Komisarenko, Julia, additional, Kravchun, Nonna, additional, Malyar, Kateryna, additional, Martynyuk, Liliya, additional, Maslyanko, Vitaliy, additional, Myshanych, Halyna, additional, Pererva, Larysa, additional, Pertseva, Nataliia, additional, Serhiyenko, Oleksandr, additional, Smirnov, Ivan, additional, Sokolova, Liubov, additional, Stryzhak, Vasyl, additional, Vlasenko, Maryna, additional, AbouSaleh, Ahmad, additional, Barratt, Jonathan, additional, Dang, Cuong, additional, Kahal, Hassan, additional, Kirk, Adam, additional, Kilvert, Anne, additional, Phi Kon, Sui, additional, Patel, Dipesh, additional, Rice, Sam, additional, Vijayaraman, Arutchelvam, additional, Wong, Yuk-ki, additional, Gibson, Martin, additional, Wahba, Mona, additional, Zaidi, Reza, additional, Acosta, Idalia, additional, Adams, Atoya, additional, Ajani, Dilawar, additional, Ali, Slamat, additional, Alicic, Radica, additional, Al-Karadsheh, Amer, additional, Alla, Sreedhara, additional, Allison, D., additional, Andrawis, Nabil, additional, Arif, Ahmed, additional, Awad, Ahmed, additional, Azizad, Masoud, additional, Bahrami, Michael, additional, Bansal, Shweta, additional, Barag, Steven, additional, Barakzoy, Ahmad, additional, Barney, Mark, additional, Barzilay, Joshua, additional, Bashir, Khalid, additional, Bautista, Jose, additional, Beddhu, Srinivasan, additional, Belo, Diogo, additional, Benjamin, Sabrina, additional, Berenji, Ramin, additional, Bhargava, Anuj, additional, Birriel, Jose, additional, Brietzke, Stephen, additional, Brosius, Frank, additional, Brusco, Osvaldo, additional, Burgner, Anna, additional, Busch, Robert, additional, Canadas, Rafael, additional, Caramori, Maria, additional, Cardona, Jose, additional, Case, Christopher, additional, Cruz, Humberto, additional, Dandillaya, Ramprasad, additional, Dawoud, Dalia, additional, Din, Zia, additional, Dixon, Bradley, additional, Doshi, Ankur, additional, Drakakis, James, additional, El Shahawy, Mahfouz, additional, El-Meanawy, Ashraf, additional, El-Shahawy, Mohammed, additional, Evans, John, additional, Fadda, George, additional, Farooq, Umar, additional, Fernando, Roland, additional, Fink, Raymond, additional, First, Brian, additional, Fitz-Patrick, David, additional, Flack, John, additional, Fluck, Patrick, additional, Fogelfeld, Leon, additional, Fonseca, Vivian, additional, Frias, Juan, additional, Galphin, Claude, additional, Garcia-Mayol, Luis, additional, Goldstein, Gary, additional, Gonzalez, Edgar, additional, Gonzalez-Abreu, Francisco, additional, Gore, Ashwini, additional, Grant, David, additional, Habwe, Violet, additional, Hamilton, Maxine, additional, Hammoud, Jamal, additional, Handelsman, Stuart, additional, Hartman, Israel, additional, Heigerick, Glenn, additional, Henry, Andrew, additional, Hernandez, German, additional, Hernandez-Cassis, Carlos, additional, Herrera, Carlos, additional, Hertel, Joachim, additional, Huang, Wenyu, additional, Iglesias, Rogelio, additional, Iranmanesh, Ali, additional, Jackson, Timothy, additional, Jain, Mahendra, additional, Jamerson, Kenneth, additional, Johnson, Karen, additional, Judd, Eric, additional, Kaplan, Joshua, additional, Kayali, Zeid, additional, Khan, Bobby, additional, Khan, Muhammad, additional, Kharait, Sourabh, additional, Sue Kirkman, M., additional, Kopyt, Nelson, additional, Kotzker, Wayne, additional, Kovesdy, Csaba, additional, Kreit, Camil, additional, Krishna, Arvind, additional, Kronfli, Saeed, additional, Lee, Keung, additional, LeJeune, Derek, additional, Lemus, Brenda, additional, Leon-Forero, Carlos, additional, Linfert, Douglas, additional, Lora, Henry, additional, Lurie, Alexander, additional, Maddukuri, Geetha, additional, Magno, Alexander, additional, Maletz, Louis, additional, Mandayam, Sreedhar, additional, Markell, Mariana, additional, Mayfield, Ronald, additional, Mbogua, Caroline, additional, McMullen, Dierdre, additional, Meisner, Carl, additional, Minton, Stephen, additional, Mocherla, Bharat, additional, Mohandas, Rajesh, additional, Montero, Manuel, additional, Moustafa, Moustafa, additional, Nadkarni, Salil, additional, Nakhle, Samer, additional, Navarro, Jesus, additional, Neyra, Nilda, additional, Nica, Romanita, additional, Nicol, Philip, additional, Norwood, Paul, additional, Numrungroad, Visal, additional, O'Donovan, Richard, additional, Odugbesan, A., additional, Paoli-Bruno, Jorge, additional, Parikh, Samir, additional, Patel, Rakesh, additional, Peixoto, Aldo, additional, Pergola, Pablo, additional, Perlman, Alan, additional, Pettis, Karlton, additional, Pisoni, Roberto, additional, Ponduchi, Mirela, additional, Posada, Jorge, additional, Prabhakar, Sharma, additional, Radhakrishnan, Jai, additional, Rahman, Mahboob, additional, Raina, Rupesh, additional, Rastogi, Anjay, additional, Reisin, Efrain, additional, Rendell, Marc, additional, Robertson, David, additional, Rocco, Michael, additional, Romeu, Hugo, additional, Rosas, Sylvia, additional, Rosenfeld, Jack, additional, Ross, Dennis, additional, Rothman, Jeffrey, additional, Rudolph, Lance, additional, Ruhullah, Yusuf, additional, Ruoff, Gary, additional, Ryu, Jeffrey, additional, Sahani, Mandeep, additional, Sam, Ramin, additional, Samuels, Garfield, additional, Sanchez, William, additional, Santos, Vladimir, additional, Satko, Scott, additional, Saxena, Sanjeev, additional, Scott, David, additional, Seco, Gilberto, additional, Seek, Melvin, additional, Serota, Harvey, additional, Shafi, Tariq, additional, Shahid, Nauman, additional, Shanik, Michael, additional, Sharma, Santosh, additional, Sinha, Arjun, additional, Smelser, James, additional, Smith, Mark, additional, Soe, Kyaw, additional, Solomon, Richard, additional, Soroka, Eugene, additional, Soufer, Joseph, additional, Spinowitz, Bruce, additional, Spry, Leslie, additional, Suarez, Rosa, additional, Subramanian, Bala, additional, Szerlip, Harold, additional, Tamirisa, Aparna, additional, Thomson, Stephen, additional, Tran, Tuan-Huy, additional, Treger, Richard, additional, Trullenque, Gretel, additional, Turk, Thomas, additional, Umpierrez, Guillermo, additional, Urbach, Daniel, additional, Valdes, Martin, additional, Valika, Shujauddin, additional, Vega, Damaris, additional, Weissman, Peter, additional, Whaley-Connell, Adam, additional, Winston, Jonathan, additional, Wise, Jonathan, additional, Wynne, Alan, additional, Zeig, Steven, additional, Chu, Phuong, additional, Van Hoang, Lam, additional, Khanh, Tran, additional, Thi Phi Nga, Nguyen, additional, Nguyen Son, Pham, additional, and Phuong Tran, Lan, additional

Published
2022
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126. Genetic Diversity Evaluation and Conservation of Kam Fragrant Glutinous Rice (Oryza sativa L.) Germplasm in Southeast Guizhou, China

Author

Jiang-Ju Zhou, Wen-Hua Zhang, Yong Xiong, Chunlin Long, Qiyi Lei, and Jing Luo

Subjects
Germplasm, Plant Science, Biology, Plant disease resistance, Article, Sustainable agriculture, genomics, Ecology, Evolution, Behavior and Systematics, Genetic diversity, Oryza sativa, Food security, Ecology, business.industry, Botany, food and beverages, Folk classification, respiratory system, landraces protection, rice varieties, Biotechnology, traditional folk classification, Ethnobotany, QK1-989, morphological traits, business, human activities
Abstract

The genetic diversity of rice germplasm is the basis for increases in rice yield and quality. The collection, assessment, and protection of the genetic diversity of rice germplasm is important for achieving sustainable agriculture and assuring food security. Many underdeveloped indigenous areas have abundant and valuable rice germplasm resources. However, in-depth assessments of the genetic diversity of rice germplasm from these areas and studies related to protecting these traditional cultures are not available. In this study, from 2005 to 2016, the authors have conducted in-depth evaluation of the genetic diversity of Kam fragrant glutinous rice germplasm resources in southeast Guizhou by using multidisciplinary comprehensive methods such as ethnobotany, cultural anthropology, and modern molecular markers. In total, 376 Kam fragrant glutinous rice samples from 42 villages in the Dong community in southeast Guizhou were collected. Agronomic traits of panicles were complex and exhibited diversity. Some varieties had good disease resistance and adaptation to cold and wet climates. The Dong people named the Kam fragrant glutinous rice varieties by using seven elements, including diverse traits, growth environment, and origin. Traditional folk classification, in addition to morphology and biological analysis using molecular markers, indicates that Kam fragrant glutinous rice includes 91 varieties. Kam fragrant glutinous rice comprises a very high number of varieties, most of which are japonica-type and exhibit a high level of genetic diversity. The traditional folk classification of Kam fragrant glutinous rice by the Dong community is consistent with the biological classification. The traditional naming of Kam fragrant glutinous rice provides an important reference for understanding its genetic diversity. The high level of genetic diversity in Kam fragrant glutinous rice is not only related to the natural environment of the area but also tightly linked with the abundant and diverse Dong ethnic traditional cultures, which has led to protection of Kam fragrant glutinous rice’s genetic diversity.

Published
2021

135. Effect of Chromium Content on Microstructure, Hardness, and Wear Resistance of As-Cast Fe-Cr-B Alloy

Author

Jian Lin, Yongping Lei, Ye Tian, Hanguang Fu, Jiang Ju, and Shengqiang Ma

Subjects
010302 applied physics, Materials science, Scanning electron microscope, Mechanical Engineering, Metallurgy, Alloy, chemistry.chemical_element, 02 engineering and technology, engineering.material, 021001 nanoscience & nanotechnology, Microstructure, 01 natural sciences, Chromium, chemistry, Mechanics of Materials, Ferrite (iron), Martensite, 0103 physical sciences, engineering, General Materials Science, Pearlite, 0210 nano-technology, Eutectic system
Abstract

The effects of chromium content on microstructure, hardness and wear resistance of as-cast Fe-xCr-1.0B (x = 0, 4, 8, 12, 16, 20) alloys were investigated by means of optical microscope (OM), scanning electron microscope (SEM), x-ray diffractometer (XRD), hardness tester and ring block wear tester. The results showed that the microstructures of chromium-free alloy were mainly composed of pearlite, ferrite, and eutectic borocarbides, and the hardness was very low, only 18.8 HRC. With the increase in chromium content, the matrix of as-cast Fe-Cr-B alloy gradually began to transform from pearlite and ferrite to lath martensite, and the type of borocarbides changed from Fe2(B, C) to M2(B, C), M7(C, B)3 and M23(C, B)6 (M = Fe, Cr). When the chromium content was 12 wt.%, the hardness of alloy reached the highest value of 61.1 HRC, and the wear resistance of alloy was the best. The results of worn surface analysis showed that the wear failure of as-cast Fe-Cr-B alloy was mainly caused by multiple plastic deformation and micro-cutting.

Published
2019

136. Microstructure and property of laser clad Fe-based composite layer containing Nb and B4C powders

Author

Guan Liu, Dong Du, Jiang Ju, Hanguang Fu, Kaiming Wang, Baohua Chang, and Shuting Sun

Subjects
Materials science, Mechanical Engineering, Abrasive, Alloy, Composite number, Metals and Alloys, 02 engineering and technology, Substrate (electronics), engineering.material, 010402 general chemistry, 021001 nanoscience & nanotechnology, Microstructure, 01 natural sciences, Indentation hardness, 0104 chemical sciences, Mechanics of Materials, Phase (matter), Materials Chemistry, engineering, Composite material, 0210 nano-technology, Layer (electronics)
Abstract

In present study, Fe-based composite layers were fabricated on steel substrate by laser cladding with or without the addition of Nb and B4C in Fe-based alloy powders. The phase composition, microstructure evolution, microhardness and wear properties of Fe-based composite layers were studied. The results showed that the phases in the Fe-based composite layer were mainly α-Fe, Fe2B, Cr7C3 and Cr23C6. The addition of Nb and B4C resulted in the in-situ formation of NbC phase, an increase in the amount of Fe2B phase, and the refinement of the microstructure in the Fe-based composite layer. The microhardness of the Fe-based composite layer was increased by 269.5 HV0.5 and the wear resistance was improved to about 1.5 times the original wear resistance when the 5% Nb and 5% B4C powders were added. The wear mechanisms of both two Fe-based composite layers were abrasive wear and adhesive wear.

Published
2019

137. Improved corrosion resistance of Ni-modified Fe-Cr-B steel in molten zinc via phase transformation and microstructure control

Author

Haiyan Gao, Yang Zhou, Rui Gao, Jun Wang, Mengmeng Wang, Yangyang Fan, Maodong Kang, Yangyong Zhao, Jiang Ju, and Yahui Liu

Subjects
Materials science, Alloy, chemistry.chemical_element, 02 engineering and technology, Zinc, engineering.material, 01 natural sciences, Corrosion, Metal, chemistry.chemical_compound, Boride, 0103 physical sciences, Materials Chemistry, Eutectic system, 010302 applied physics, Metallurgy, Surfaces and Interfaces, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Microstructure, Surfaces, Coatings and Films, chemistry, visual_art, visual_art.visual_art_medium, engineering, 0210 nano-technology, Solid solution
Abstract

This paper presents the microstructure evolution and corrosion resistance of Fe-18wt.%Cr-1wt.%Mo-3.5wt.%B alloy against molten zinc at 520 °C. The objective of this study is to obtain Fe-B alloy with superior corrosion resistance through microstructure regulation and to reveal the underlying corrosion mechanism. The results show that the metal matrix of as-cast Fe-Cr-B alloys have undergone a transition from α-(Fe, Cr, Ni) solid solution into γ-(Fe, Cr, Ni) solid solution, while the eutectic boride is further refined with the increasing of Ni addition in the steels. The corrosion resistance of the Fe-Cr-B alloys has significantly been enhanced, with an optimal Ni addition at 10 wt%. Thermodynamic calculations and EPMA results show that Ni mainly exists in the matrix, leading to the transformation of the matrix structure. The improvement of corrosion performance can be attributed to two factors: the refined boride network in Ni-modified Fe-Cr-B alloy act as a barrier for Fe/Zn reaction, and the formation of face-centered cubic (fcc) structure also contributed to improve corrosion resistance owing to a more densely packed structure compared to body-centered cubic (bcc) structure. In the initial stage of corrosion, the de-alloying of Ni occurs first, which result in the transformation from γ-(Fe, Cr, Ni) to α-(Fe, Cr, Ni). Corrosion mechanism for test alloys in molten zinc may be mainly dominated by the formation and propagation of cracks in the borides. The cracks initiated due to the discrepancy in thermal expansion coefficients between Fe-Zn phases and the borides.

Published
2019

138. Studies on as-cast microstructure and oxidation behavior of the Fe Cr B Al alloys at 1073 K

Author

Yang Zhou, Min Jiang, Jun Wang, Hanguang Fu, Zhen Zhang, Maodong Kang, Kaiming Wang, Jiang Ju, and Yangyong Zhao

Subjects
010302 applied physics, Austenite, Materials science, Alloy, Analytical chemistry, Intermetallic, Oxide, 02 engineering and technology, engineering.material, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Microstructure, 01 natural sciences, Surfaces, Coatings and Films, chemistry.chemical_compound, chemistry, Martensite, 0103 physical sciences, engineering, Orthorhombic crystal system, 0210 nano-technology, Instrumentation, Solid solution
Abstract

Based on the Fe Cr B alloy, the Fe 12Cr 1.5B xAl (x = 0, 2, 4, 6 and 8 wt%) alloys were designed by adding Al. The as-cast microstructure and cyclic oxidation behavior have been investigated extensively in this study. The results reveal that the as-cast microstructure of Fe Cr B alloy consists of martensite (bcc), retained austenite (orthorhombic) and M2(B,C)-bct, M7(C,B)3-hcp, M23(C,B)6-complex fcc boron-carbides, gradually changing to α-(Fe,Al,Cr) solid solution (bcc), M2(B,C)-bct, M7(C,B)3-hcp, M23(C,B)6-complex fcc boron-carbides and Fe3Al intermetallic compound with the increasing of Al contents. The oxidation kinetics of all alloy samples follow a parabolic oxidation kinetic law. The oxidation rate constant kp in Al-free Fe Cr B alloy is nearly four times of that in Fe Cr B 8Al alloy. The additions of Al refine the grains and make the distribution of elements more uniform, which results in forming a continuous and dense oxide film containing Al2O3 oxide with excellent fluidity and thermal stability, remarkably enhancing the high temperature oxidation resistance of Fe Cr B Al alloy.

Published
2019

139. Strain-magnetization effect in superelastic Ni-Mn-Ga microfiber

Author

Jun Wang, Haiyan Gao, Maodong Kang, Jiang Ju, Mengmeng Wang, Manuel Vázquez, Yangyong Zhao, Jing Xue, Shubin Wang, and Yong Zhang

Subjects
010302 applied physics, Austenite, Materials science, business.product_category, Strain (chemistry), Mechanical Engineering, Metals and Alloys, Reverse transformation, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Magnetization, Mechanics of Materials, Martensite, Diffusionless transformation, 0103 physical sciences, Microfiber, General Materials Science, Melt spinning, Composite material, 0210 nano-technology, business
Abstract

Ni-Mn-Ga microfiber with a diameter of 80 μm was produced by glass-coated melt spinning method. The martensitic transformation temperature, TM, and the reverse transformation temperature, TA, is 279 K and 290 K, respectively. The as-cast microfiber shows nearly fully recoverable superelastic strain as large as ~10%, and perfect strain-magnetization effect, as the stress-induced martensite has lower initial susceptibility and higher saturation magnetization than the austenite. It will be a potential non-destructively and noncontactually monitor sensor material.

Published
2019

140. Temperature-dependent deformation mechanisms and microstructural degradation of a polycrystalline nickel-based superalloy

Author

Yahui Liu, Zhen Zhang, Maodong Kang, Jun Wang, Jiang Ju, Yun Wu, Junwei Yu, Baode Sun, and Ying Ning

Subjects
Materials science, Mechanical Engineering, Metals and Alloys, Transgranular fracture, Fractography, 02 engineering and technology, Intergranular corrosion, 010402 general chemistry, 021001 nanoscience & nanotechnology, Microstructure, 01 natural sciences, 0104 chemical sciences, Superalloy, Brittleness, Deformation mechanism, Mechanics of Materials, Materials Chemistry, Composite material, 0210 nano-technology, Ductility
Abstract

The mechanical behavior of cast nickel-based superalloy Inconel 718 was investigated via hot tensile experiments at 650 °C, 800 °C, and 950 °C to understand the thermal instability of its metallurgic microstructure. Test specimens, which were machined from investment casting, were subjected to a standard heat treatment. Post-tensile testing, microstructure characterization, and fractography observations were conducted with a scanning electron microscope (SEM) and a transmission electron microscope (TEM). The resulting data revealed that the deterioration of toughness and ductility occurred at temperatures above 650 °C. Numerous shear bands and lattice mismatch suggested that plastic deformation through slip movement dominated the ductile fracture mode of the nickel-based superalloy at 650 °C. In contrast, surficial microporosity and grain boundary weakening caused early brittle rupture, before the material yielded, at 800 °C. Significant strain accumulation within grains contributed to plastic flow in the direction of the applied stress load, resulting in intergranular and transgranular fracture at 950 °C. Microstructural evidence displayed the interface debonding between the carbide and the matrix at 950 °C, indicating the temperature limitation of the carbide pileup.

Published
2019

141. Diabetic neuropathic pain induced by streptozotocin alters the expression profile of non-coding RNAs in the spinal cord of mice as determined by sequencing analysis

Author

Qing Ming Xiong, Lei Zhang, Wan You He, Zai Sheng Qin, Jiang Ju Huang, Jian He, Han Bin Wang, and Dong Lin Li

Subjects
neuropathic pain, Cancer Research, Oncogene, diabetes, sequence analysis, Protein digestion, Cell, spinal cord, chemical and pharmacologic phenomena, General Medicine, Articles, Biology, Molecular medicine, Cell biology, Pathogenesis, medicine.anatomical_structure, Immunology and Microbiology (miscellaneous), microRNA, medicine, non-coding RNAs, Signal transduction, Gene
Abstract

Diabetic neuropathic pain (DNP) is one of the most serious complications of diabetes. Patients with DNP always exhibit spontaneous and stimulus-evoked pain. However, the pathogenesis of DNP remains to be fully elucidated. Non-coding RNAs (ncRNAs) serve important roles in several cellular processes and dysregulated expression may result in the development of several diseases, including DNP. Although ncRNAs have been suggested to be involved in the pathogenesis of DNP, their precise roles remain to be determined. In the present study, sequencing analysis was used to investigate the expression patterns of coding genes, microRNAs (miRNAs), long ncRNAs (lncRNAs) and circular RNAs (circRNAs) in the spinal cord of mice with streptozotocin (STZ)-induced DNP. A total of 30 mRNAs, 148 miRNAs, 9 lncRNAs and 135 circRNAs exhibited significantly dysregulated expression 42 days after STZ injection. Functional enrichment analysis indicated that protein digestion and absorption pathways were the most significantly affected pathways of the differentially expressed (DE) mRNAs. The Rap1 signaling pathway, human T-lymphotropic virus-I infection and the MAPK signaling pathway were the three most significant pathways of the DE miRNAs. A total of 2,118 distinct circRNAs were identified and the length of the majority of the circRNAs was 1,000 nt) with a median length of 620 nt. In the present study, the expression characteristics of coding genes, miRNAs, lncRNAs and circRNAs in DNP mice were determined; it paves the road for further studies on the mechanisms associated with DNP and potentially facilitates the discovery of novel ncRNAs for therapeutic targeting in the management of DNP.

Published
2021

142. Novel Bartonella agent as cause of verruga peruana

Author

Blazes, David L., Mullins, Kristin, Smoak, Bonnie L., Jiang, Ju, Canal, Enrique, Solorzano, Nelson, Hall, Eric, Meza, Rina, Maguina, Ciro, Myers, Todd, Richards, Allen L., and Laughlin, Larry

Subjects
Verruga peruana -- Health aspects, Bacterial infections -- Health aspects, Infection -- Health aspects, Health
Abstract

Bartonellosis is a disease caused by infection with species from the Bartonella genus. In South America, infection with B. bacilliformis, an a-2 proteobacterium, may cause a life-threatening bacterial infection (1,2). [...]

Published
2013
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143. Rickettsia felis infection in febrile patients, Western Kenya, 2007-2010

Author

Maina, Alice N., Knobel, Darryn L., Jiang, Ju, Halliday, Jo, Feikin, Daniel R., Cleaveland, Sarah, Nganga, Zipporah, Junghae, Muthoni, Breiman, Robert F., Richards, Allen L., and Njenga, M. Kariuki

Subjects
Medical research -- Health aspects, Medicine, Experimental -- Health aspects, Infection -- Health aspects, Health
Abstract

Rickettsioses are a major human health problem in many parts of the world, including sub-Saharan Africa (1,2). Awareness of rickettsiae as causes of public health problems has been increasing; several [...]

Published
2012
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146. Endemic scrub typhus-like illness, Chile

Author

Balcells, M. Elvira, Rabagliati, Ricardo, Garcia, Patricia, Poggi, Helena, Oddo, David, Concha, Marcela, Abarca, Katia, Jiang, Ju, Kelly, Daryl J., Richards, Allen L., and Fuerst, Paul A.

Subjects
RNA -- Analysis, Immunoglobulin G -- Analysis, Health
Abstract

The primary hosts for Rickettsia species are arthropods that can also act as disease vectors for humans and other vertebrates. Ticks are vectors for most rickettsioses caused by spotted fever [...]

Published
2011
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147. African Tick-Bite Fever

Author

Fralish, Matthew S., Mangalindan, Kristin E., Farris, Christina M., Jiang, Ju, Green, Margaret C., and Blaylock, Jason M.

Published
2020
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149. Carios kelleyi (Acari: Ixodida: Argasidae) Infected With Rickettsial Agents Documented Infesting Housing in Kansas, United States

Author

Nadolny, Robyn M, primary, Kennedy, Ashley C, additional, Rodgers, James M, additional, Vincent, Zachary T, additional, Cornman, Hannah, additional, Haynes, Scott A, additional, Casal, Cory, additional, Robbins, Richard G, additional, Richards, Allen L, additional, Jiang, Ju, additional, and Farris, Christina M, additional

Published
2021
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150. Sealing Behaviour in Transcatheter Bicuspid and Tricuspid Aortic Valves Replacement through Patient-Specific Computational Modeling

Author

Liu, Xian-Bao, primary, Fan, Jia-Qi, additional, Mortier, Peter, additional, He, Yu-Xin, additional, Zhu, Qi-Feng, additional, Guo, Yu-Chao, additional, Lin, Xin-Ping, additional, Li, Hua-Jun, additional, Jiang, Ju-Bo, additional, Rocatello, Giorgia, additional, Oliveira, Vanda, additional, Dezutter, Tim, additional, Sondergaard, Lars, additional, and Wang, Jian-An, additional

Published
2021
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