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Journal articles on the topic 'Simultaneous synthesis'

Author: Grafiati
Published: 4 June 2021
Last updated: 11 February 2022

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1

Best, Eike, Raymond Devillers, Uli Schlachter, and Harro Wimmel. "Simultaneous Petri Net Synthesis." Scientific Annals of Computer Science 2018, no. 2 (September 25, 2018): 199–236. http://dx.doi.org/10.7561/sacs.2018.2.199.

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2

Shiraishi, Ryoya, Hiromichi Toyota, Shinfuku Nomura, Kazuto Nakajima, Xia Zhu, and Yukiharu Iwamoto. "Simultaneous Synthesis of Diamond and Hydrogen." Key Engineering Materials 825 (October 2019): 77–83. http://dx.doi.org/10.4028/www.scientific.net/kem.825.77.

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A relationship between diamond synthesis and hydrogen production in in-liquid plasma method have been investigated. Approximately 60 % energy can be recovered by collecting hydrogen gas made by ingredient solution decomposition. The relationship is trade-off. When higher energy is used to maintain the substrate temperature, the hydrogen production rate gets faster, but the diamond synthesis rate gets slower. To increase diamond synthesis rate, a method should be established which maintains the substrate temperature by lower energy and generates less hydrogen gas.
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3

Korovin, S. K., and A. S. Fursov. "Simultaneous stabilization: Universal controller synthesis." Automation and Remote Control 72, no. 9 (September 2011): 1852–63. http://dx.doi.org/10.1134/s0005117911090074.

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4

WANG, SHUENN-SHYANG, and BOR-SEN CHEN. "Simultaneous deadbeat tracking controller synthesis." International Journal of Control 44, no. 6 (December 1986): 1579–86. http://dx.doi.org/10.1080/00207178608933687.

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5

Kim, Seong-Eun, Jin-Kook Yoon, and In-Jin Shon. "Simultaneous Synthesis and Consolidation of Nanostructured HfB2–SiC Composite." Journal of Nanoscience and Nanotechnology 21, no. 7 (July 1, 2021): 4011–15. http://dx.doi.org/10.1166/jnn.2021.19243.

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A dense nanostructured 2HfB2-SiC composite was simultaneously synthesized and consolidated by the pulsed current activated sintering method in one step within very short time (two minutes) from mechanically activated 2Hf, B4C and Si powders. Simultaneous combustion synthesis and consolidation were achieved through the combination of the effects of the pulsed current and mechanical pressure. A highly dense 2HfB2–SiC composite with 97.5% relative density was achieved under the simultaneous application of a pressure of 80 MPa and the pulsed current. The fracture toughness of the 2HfB2–SiC composite was higher than that of monolithic HfB2.
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6

Garofalo, Joe. "Simultaneous Synthesis, Regulation, and Arithmetical Performance." Journal of Psychoeducational Assessment 4, no. 3 (September 1986): 229–38. http://dx.doi.org/10.1177/073428298600400306.

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7

Meyers, Harold V., Garrett J. Dilley, Tracy L. Durgin, Timothy S. Powers, Icolas A. Winssinger, Hong Zhu, and Michael R. Pavia. "Multiple simultaneous synthesis of phenolic libraries." Molecular Diversity 1, no. 1 (September 1995): 13–20. http://dx.doi.org/10.1007/bf01715805.

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8

Parlow, John J. "Simultaneous multistep synthesis using polymeric reagents." Tetrahedron Letters 36, no. 9 (February 1995): 1395–96. http://dx.doi.org/10.1016/0040-4039(95)00008-z.

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9

Gras, Christophe, Frédéric Bernard, Frédéric Charlot, Eric Gaffet, and Zuhair A. Munir. "Simultaneous Synthesis and Consolidation of Nanostructured MoSi2." Journal of Materials Research 17, no. 3 (March 2002): 542–49. http://dx.doi.org/10.1557/jmr.2002.0076.

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A new process combining electric field activation and the imposition of pressure from mechanically activated powder mixtures is demonstrated as a means to simultaneously synthesize and densify nano-MoSi2 in one step. Nanophase reactants (Mo + 2Si) produced by mechanical activation are reacted by field activation with the simultaneous application of a uniaxial pressure. Mo + 2Si powders were comilled in a specially designed planetary mill to obtain nanometric reactants but to avoid formation of any product phases. These were then subjected to high alternating currents (1600 A) and pressures of 106 MPa. Under these conditions, a reaction is initiated and completed within a short period of time (3–6 min). The relative density of the product ranged from 82 to 93%. The crystallite size of the MoSi2 compound was determined by x-ray diffraction line-broadening analysis using the Langford method. The size ranged from 58 to 75 nm.
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10

Subrahmanyam, J., R. Mohan Rao, S. Subba Rao, and K. Somaraju. "Simultaneous combustion synthesis and consolidation of intermetallics MoSi2." Journal of Materials Research 11, no. 8 (August 1996): 1859–62. http://dx.doi.org/10.1557/jmr.1996.0234.

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A novel technique has been developed for simultaneous combustion synthesis and consolidation of intermetallics in a single step from elemental powders. The method has been applied for the synthesis and consolidation of MoSi2. A temperature profile of the combusted compact provides the temperature-time regime for consolidation. The products were characterized for density, phase formation, and microstructure.
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11

Hendry, Philip. "Simultaneous Synthesis of Partially Homologous Oligonucleotide Sequences." BioTechniques 25, no. 2 (August 1998): 234–38. http://dx.doi.org/10.2144/98252st03.

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12

Aaltola, Juha. "Simultaneous synthesis of flexible heat exchanger network." Applied Thermal Engineering 22, no. 8 (June 2002): 907–18. http://dx.doi.org/10.1016/s1359-4311(02)00008-x.

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13

Hin Lee, Peng, and Yeng Chai Soh. "Synthesis of simultaneous stabilizing H∞ Controller controller." International Journal of Control 78, no. 18 (December 15, 2005): 1437–46. http://dx.doi.org/10.1080/00207170500327467.

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14

Ye, B., and F. A. Salustri. "Simultaneous tolerance synthesis for manufacturing and quality." Research in Engineering Design 14, no. 2 (April 29, 2003): 98–106. http://dx.doi.org/10.1007/s00163-003-0029-1.

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15

Joe Maeji, N., Gordon Tribbick, Andrew M. Bray, and H. Mario Geysen. "Simultaneous multiple synthesis of peptide-carrier conjugates." Journal of Immunological Methods 146, no. 1 (January 1992): 83–90. http://dx.doi.org/10.1016/0022-1759(92)90051-t.

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16

Cheng, Tianyi, and M. McLean. "Hot extrusion reaction synthesis: Simultaneous synthesis and forming from elemental powders." Materials Letters 29, no. 1-3 (November 1996): 91–99. http://dx.doi.org/10.1016/s0167-577x(96)00124-3.

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17

Kim, Seong-Eun, Jin-Kook Yoon, and In-Jin Shon. "Simultaneous Synthesis and Consolidation of Nanostructured ZrB2–ZrO2 Composite." Journal of Nanoscience and Nanotechnology 20, no. 7 (July 1, 2020): 4349–52. http://dx.doi.org/10.1166/jnn.2020.17578.

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A dense nanostructured 2ZrB2–ZrO2 composite was synthesized by the high-frequency inductionheated combustion synthesis (HFIHCS) method within 2 min in one step from mechanically activated powders of 2B2O3 and 3Zr. Simultaneous combustion synthesis and densification were accomplished under the combined effects of the induced current and mechanical pressure. A highly dense 2ZrB2–ZrO2 composite with relative density of up to 95.5% was produced under the simultaneous application of a pressure of 80 MPa and the induced current. The average grain size and mechanical properties (hardness and fracture toughness) of the composite were investigated.
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18

TSUKAMOTO, Takuji, and Yukihiro YADA. "The simultaneous synthesis of 2- and 4-iodoestradiol." Agricultural and Biological Chemistry 51, no. 7 (1987): 2025–27. http://dx.doi.org/10.1271/bbb1961.51.2025.

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19

Seliger, H., A. Herold, U. Kotschi, J. Lyons, G. Schmidt, and F. Eisenbeiß. "Semi-Mechanized Simultaneous Synthesis of Multiple Oligonucleotide Fragments." Nucleosides and Nucleotides 6, no. 1-2 (January 1987): 137–46. http://dx.doi.org/10.1080/07328318708056187.

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20

Xia, Youyi, and Hongping Xiao. "Hierarchical gold microspheres catalyst: Simultaneous synthesis and immobilization." Journal of Molecular Catalysis A: Chemical 331, no. 1-2 (October 1, 2010): 35–39. http://dx.doi.org/10.1016/j.molcata.2010.07.013.

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21

Wang, Zhijuan, Junhua Yuan, Dongxue Han, Yuanjian Zhang, Yanfei Shen, Daniel Kuehner, Li Niu, and Ari Ivaska. "Simultaneous Synthesis of Polyaniline Nanotubules and Gold Nanoplates." Crystal Growth & Design 8, no. 6 (June 2008): 1827–32. http://dx.doi.org/10.1021/cg060895c.

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22

PARLOW, J. J. "ChemInform Abstract: Simultaneous Multistep Synthesis Using Polymeric Reagents." ChemInform 26, no. 49 (August 17, 2010): no. http://dx.doi.org/10.1002/chin.199549110.

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23

El-Halwagi, Mahmoud M., and Vasilios Manousiouthakis. "Simultaneous synthesis of mass-exchange and regeneration networks." AIChE Journal 36, no. 8 (August 1990): 1209–19. http://dx.doi.org/10.1002/aic.690360810.

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24

Tsukamoto, Takuji, and Yukihiro Yada. "The Simultaneous Synthesis of 2- and 4-Iodoestradiol." Agricultural and Biological Chemistry 51, no. 7 (July 1987): 2025–27. http://dx.doi.org/10.1080/00021369.1987.10868289.

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25

Carvalho, Alexandre F., Tiago Holz, Nuno F. Santos, Marta C. Ferro, Manuel A. Martins, António J. S. Fernandes, Rui F. Silva, and Florinda M. Costa. "Simultaneous CVD synthesis of graphene-diamond hybrid films." Carbon 98 (March 2016): 99–105. http://dx.doi.org/10.1016/j.carbon.2015.10.095.

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26

Torres, R. D., T. R. Strohaecker, J. J. Moore, and G. R. Edwards. "Joining NiAl using simultaneous combustion synthesis and pressure." Scripta Metallurgica et Materialia 30, no. 4 (February 1994): 463–68. http://dx.doi.org/10.1016/0956-716x(94)90604-1.

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27

Silva-Martinez, Marisol, Dietmar Haltrich, Senad Novalic, Klaus D. Kulbe, and Bernd Nidetzky. "Simultaneous enzymatic synthesis of gluconic acid and sorbitol." Applied Biochemistry and Biotechnology 70-72, no. 1 (March 1998): 863–68. http://dx.doi.org/10.1007/bf02920196.

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28

Nidetzky, Bernd, Monika Fürlinger, Dorothee Gollhofer, Iris Malic, Dletmar Haltrich, and Klaus D. Kulbe. "Simultaneous Enzymatic Synthesis of Gluconic Acid and Sorbitol." Applied Biochemistry and Biotechnology 63-65, no. 1 (March 1997): 173–88. http://dx.doi.org/10.1007/bf02920423.

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29

Palacı́n, M. R., N. Casañ-Pastor, and P. Gómez-Romero. "Sol–Gel Synthesis and Simultaneous Oxidation ofLn2Ba2Cu2Ti2O11−δ." Journal of Solid State Chemistry 138, no. 1 (June 1998): 141–48. http://dx.doi.org/10.1006/jssc.1998.7765.

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30

Marin-Ayral, R. M., C. Pascal, F. Martinez, and J. C. Tedenac. "Simultaneous synthesis and densification of titanium nitride by high pressure combustion synthesis." Journal of the European Ceramic Society 20, no. 14-15 (December 2000): 2679–84. http://dx.doi.org/10.1016/s0955-2219(00)00151-5.

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31

Locci, Antonio Mario, Roberto Orrù, and Giacomo Cao. "Simultaneous spark plasma synthesis and consolidation of WC/Co composites." Journal of Materials Research 20, no. 3 (March 1, 2005): 734–41. http://dx.doi.org/10.1557/jmr.2005.0096.

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The single-step synthesis and densification of the WC–6Co cemented carbide starting from elemental powders was obtained by the spark plasma sintering (SPS) technique. The operating conditions that guarantee the complete conversion of the reactants to the desired full dense material have been identified. Specifically, under the application of 800 A and a mechanical pressure of 40 MPa for about 200 s, a product with relative density higher than 99%, hardness of 14.97 ± 0.35 GPa, and 12.5 ± 1.0 MPa m0.5 fracture toughness was obtained. A kinetic investigation of the SPS process was also performed. It revealed that an intermediate phase, i.e., W2C, is the first carbide formed during the carburization process. It was observed that the synthesis and sintering stages take place simultaneously. It was also found that as the applied pulsed current intensity was augmented, the synthesis/sintering time required decreased significantly.
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32

Lu, Zhichao, Zofia Hetman, Gerald B. Hammond, and Bo Xu. "Simultaneous rapid reaction workup and catalyst recovery." Green Chemistry 18, no. 21 (2016): 5769–72. http://dx.doi.org/10.1039/c6gc02448c.

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33

Kotsar', T. V., D. P. Danilovich, S. S. Ordan'yan, and S. V. Vikhman. "SIMULTANEOUS CARBOTHERMAL SYNTHESIS OF THE B4C‒ SIC‒TIB2 POWDERS." NOVYE OGNEUPORY (NEW REFRACTORIES), no. 3 (January 1, 2017): 139–43. http://dx.doi.org/10.17073/1683-4518-2017-3-139-143.

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34

Birewar, Deepak B., and Ignacio E. Grossmann. "Simultaneous synthesis, sizing, and scheduling of multiproduct batch plants." Industrial & Engineering Chemistry Research 29, no. 11 (November 1990): 2242–51. http://dx.doi.org/10.1021/ie00107a008.

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35

Carrillo-Heian, E. M., C. Unuvar, J. C. Gibeling, G. H. Paulino, and Z. A. Munir. "Simultaneous synthesis and densification of niobium silicide/niobium composites." Scripta Materialia 45, no. 4 (August 2001): 405–12. http://dx.doi.org/10.1016/s1359-6462(01)01023-5.

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36

Hamad, A. A., and M. M. El-Halwagi. "Simultaneous Synthesis of Mass Separating Agents and Interception Networks." Chemical Engineering Research and Design 76, no. 3 (March 1998): 376–88. http://dx.doi.org/10.1205/026387698524802.

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37

Zhang, Li-Jun, Da-Xin Shi, and Jia-Rong Li. "Simultaneous Synthesis of Pyrazolopyridines and Pyrazolopyrimidinones Under Microwave Irradiation." Synthetic Communications 39, no. 22 (October 21, 2009): 4010–18. http://dx.doi.org/10.1080/00397910902883629.

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38

Dewkar, Gajanan K., Pedro B. Carneiro, and Matthew C. T. Hartman. "Synthesis of Novel Peptide Linkers: Simultaneous Cyclization and Labeling." Organic Letters 11, no. 20 (October 15, 2009): 4708–11. http://dx.doi.org/10.1021/ol901662c.

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39

Comer, Eamon, and Michael G. Organ. "A Microcapillary System for Simultaneous, Parallel Microwave-Assisted Synthesis." Chemistry - A European Journal 11, no. 24 (December 9, 2005): 7223–27. http://dx.doi.org/10.1002/chem.200500820.

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40

FRANK, R. "ChemInform Abstract: Principles of Simultaneous Synthesis of Multiple Peptides." ChemInform 29, no. 8 (June 23, 2010): no. http://dx.doi.org/10.1002/chin.199808276.

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41

Chen, Cheng-Liang, and Ping-Sung Hung. "Simultaneous synthesis of mass exchange networks for waste minimization." Computers & Chemical Engineering 29, no. 7 (June 2005): 1561–76. http://dx.doi.org/10.1016/j.compchemeng.2004.12.005.

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42

Zhang, Qi, Xue-Feng Wang, Shu-Hong Shen, Qi Lu, Xiaozhi Liu, Haoyi Li, Jingying Zheng, et al. "Simultaneous synthesis and integration of two-dimensional electronic components." Nature Electronics 2, no. 4 (April 2019): 164–70. http://dx.doi.org/10.1038/s41928-019-0233-2.

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43

Kollig, P., and B. M. Al-Hashimi. "Simultaneous scheduling, allocation and binding in high level synthesis." Electronics Letters 33, no. 18 (1997): 1516. http://dx.doi.org/10.1049/el:19971039.

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44

Duan, J. H., F. Yin, and G. C. Jiang. "Synthesis and simultaneous self-assembly of novel antibacterial polyurethanes." IOP Conference Series: Materials Science and Engineering 137 (July 2016): 012028. http://dx.doi.org/10.1088/1757-899x/137/1/012028.

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45

Huang, Ke Feng, and Iftekhar A. Karimi. "Simultaneous synthesis approaches for cost-effective heat exchanger networks." Chemical Engineering Science 98 (July 2013): 231–45. http://dx.doi.org/10.1016/j.ces.2013.05.023.

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46

Huang, Ke feng, and I. A. Karimi. "Efficient algorithm for simultaneous synthesis of heat exchanger networks." Chemical Engineering Science 105 (February 2014): 53–68. http://dx.doi.org/10.1016/j.ces.2013.10.040.

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47

Onishi, Viviani C., Mauro A. S. S. Ravagnani, and José A. Caballero. "Simultaneous synthesis of work exchange networks with heat integration." Chemical Engineering Science 112 (June 2014): 87–107. http://dx.doi.org/10.1016/j.ces.2014.03.018.

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48

Dunmead, S. D., Z. A. Munir, J. B. Holt, and D. D. Kingman. "Simultaneous synthesis and densification of TiC/Ni-Al composites." Journal of Materials Science 26, no. 9 (1991): 2410–16. http://dx.doi.org/10.1007/bf01130188.

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49

García, Norberto, María J. Fernández-Torres, and José A. Caballero. "Simultaneous environmental and economic process synthesis of isobutane alkylation." Journal of Cleaner Production 81 (October 2014): 270–80. http://dx.doi.org/10.1016/j.jclepro.2014.06.016.

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50

Eltarahony, Marwa, Sahar Zaki, Zeinab Kheiralla, and Desouky Abd-El-haleem. "NAP enzyme recruitment in simultaneous bioremediation and nanoparticles synthesis." Biotechnology Reports 18 (June 2018): e00257. http://dx.doi.org/10.1016/j.btre.2018.e00257.

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