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Journal articles on the topic 'Functional applications'

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Author: Grafiati
Published: 14 March 2023

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1

Varshney, R. K., M. Prasad, R. Kota, R. Sigmund, Valkoun Börner A, J, U. Scholz, N. Stein, and A. Graner. "Functional molecular markers in barley: Development and applications." Czech Journal of Genetics and Plant Breeding 41, Special Issue (July 31, 2012): 128–33. http://dx.doi.org/10.17221/6152-cjgpb.

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2

Siddiqui, Shadab Alam, and Tamanna Siddiqui. "Non-Functional Testing Framework for Container-Based Applications." Indian Journal of Science and Technology 14, no. 47 (December 23, 2021): 3433–41. http://dx.doi.org/10.17485/ijst/v14i47.1909.

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3

Luk, Yan-Yeung, and Nicholas L. Abbott. "Applications of functional surfactants." Current Opinion in Colloid & Interface Science 7, no. 5-6 (November 2002): 267–75. http://dx.doi.org/10.1016/s1359-0294(02)00067-5.

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4

Lieber, Charles M., and Zhong Lin Wang. "Functional Nanowires." MRS Bulletin 32, no. 2 (February 2007): 99–108. http://dx.doi.org/10.1557/mrs2007.41.

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AbstractNanotechnology offers the promise of enabling revolutionary advances in diverse areas ranging from electronics, optoelectronics, and energy to healthcare. Underpinning the realization of such advances are the nanoscale ma te rials and corresponding nanodevices central to these application areas. Semiconductor nanowires and nanobelts are emerging as one of the most powerful and diverse classes of functional nanoma terials that are having an impact on science and technology. In this issue of MRS Bulletin, several leaders in this vibrant field of research present brief reviews that highlight key aspects of the underlying materials science of nanowires, basic device functions achievable with these materials, and developing applications in electronics and at the interface with biology. This article introduces the controlled synthesis, patterned and designed self-assembly, and unique applications of nanowires in nanoelectronics, nano-optoelectronics, nanosensors, nanobiotechnology, and energy harvesting.
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5

Pillay, Preenan. "Nanomedicines: Considerations and Functional Applications." Acta Scientific Pharmaceutical Sciences 3, no. 6 (May 10, 2019): 75. http://dx.doi.org/10.31080/asps.2019.03.0279.

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6

Prasankumar, Thibeorchews, Sujin Jose, Pulickel M. Ajayan, and Meiyazhagan Ashokkumar. "Functional carbons for energy applications." Materials Research Bulletin 142 (October 2021): 111425. http://dx.doi.org/10.1016/j.materresbull.2021.111425.

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7

Caudai, Claudia, Antonella Galizia, Filippo Geraci, Loredana Le Pera, Veronica Morea, Emanuele Salerno, Allegra Via, and Teresa Colombo. "AI applications in functional genomics." Computational and Structural Biotechnology Journal 19 (2021): 5762–90. http://dx.doi.org/10.1016/j.csbj.2021.10.009.

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8

Koshida, Nobuyoshi, Toshiyuki Ohta, Yoshiyuki Hirano, Romain Mentek, and Bernard Gelloz. "Functional Device Applications of Nanosilicon." Key Engineering Materials 470 (February 2011): 20–26. http://dx.doi.org/10.4028/www.scientific.net/kem.470.20.

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The particular physical functions of quantum-sized silicon have been investigated, along with exploration of their potential device applications. A strong confinement effect fully modifies the original optical, electrical, and thermal properties of bulk silicon. A discussion regarding their control and applications is presented, which addresses blue phosphorescence, enhanced photoconduction, operation of a ballistic electron emitter in solutions, and digital drive of a thermo-acoustic sound emitter.
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9

Nakanishi, Tetsuo. "Functional Silicones in Cosmetic Applications." Journal of Society of Cosmetic Chemists of Japan 34, no. 2 (2000): 120–26. http://dx.doi.org/10.5107/sccj.34.120.

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10

Asadian-Birjand, M., A. Sousa-Herves, D. Steinhilber, J. C. Cuggino, and M. Calderon. "Functional Nanogels for Biomedical Applications." Current Medicinal Chemistry 19, no. 29 (October 1, 2012): 5029–43. http://dx.doi.org/10.2174/0929867311209025029.

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11

Smith, M. "Applications of Functional Protein Microarrays." Journal of Proteomics & Bioinformatics S2, no. 01 (July 2008): 120. http://dx.doi.org/10.4172/jpb.s1000095.

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12

Devan, Rupesh S., Yuan-Ron Ma, Jin-Hyeok Kim, Raghu N. Bhattacharya, and Kartik C. Ghosh. "Functional Nanomaterials for Energy Applications." Journal of Nanomaterials 2015 (2015): 1–2. http://dx.doi.org/10.1155/2015/131965.

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13

Orman, L. "Functional development of database applications." IEEE Transactions on Software Engineering 14, no. 9 (1988): 1280–92. http://dx.doi.org/10.1109/32.6172.

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14

Pillai, Jay J. "Clinical Applications of Functional MRI." Neuroimaging Clinics of North America 24, no. 4 (November 2014): xvii. http://dx.doi.org/10.1016/j.nic.2014.09.002.

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15

Jang, W. D., and K. Kataoka. "Bioinspired applications of functional dendrimers." Journal of Drug Delivery Science and Technology 15, no. 1 (2005): 19–30. http://dx.doi.org/10.1016/s1773-2247(05)50003-0.

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16

Khatri, Zeeshan, Ick-Soo Kim, and Seong Hun Kim. "Functional Nanofibers: Production and Applications." Journal of Nanomaterials 2016 (2016): 1–2. http://dx.doi.org/10.1155/2016/2195787.

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17

Dutta, N. K., Q. Wang, G. Zhu, J. Jaques, A. B. Piccirilli, and J. Leuthold. "Semiconductor Optical Amplifiers-Functional Applications." Journal of Optics 33, no. 4 (December 2004): 197–219. http://dx.doi.org/10.1007/bf03354765.

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18

Szafrańska, Anna. "Difference functional inequalities and applications." Opuscula Mathematica 34, no. 2 (2014): 405. http://dx.doi.org/10.7494/opmath.2014.34.2.405.

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19

Thanh, Nguyễn Thi Kim. "Functional nanoparticles for biomedical applications." Nanoscale 5, no. 23 (2013): 11338. http://dx.doi.org/10.1039/c3nr90095a.

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20

Yoon, Kyunghwan, Benjamin S. Hsiao, and Benjamin Chu. "Functional nanofibers for environmental applications." Journal of Materials Chemistry 18, no. 44 (2008): 5326. http://dx.doi.org/10.1039/b804128h.

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21

Chung, T. C. Mike. "Functional Polyolefins for Energy Applications." Macromolecules 46, no. 17 (August 13, 2013): 6671–98. http://dx.doi.org/10.1021/ma401244t.

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22

Lou, Lihua, Odia Osemwegie, and Seshadri S. Ramkumar. "Functional Nanofibers and Their Applications." Industrial & Engineering Chemistry Research 59, no. 13 (March 13, 2020): 5439–55. http://dx.doi.org/10.1021/acs.iecr.9b07066.

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23

Sherrington, D. C. "Functional polymers and their applications." Reactive Polymers 18, no. 1 (August 1992): 87. http://dx.doi.org/10.1016/0923-1137(92)90297-f.

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24

Sinopoulos, Pavlos. "Applications of Wilson’s functional equation." Aequationes mathematicae 67, no. 1-2 (March 2004): 188–94. http://dx.doi.org/10.1007/s00010-003-2704-8.

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25

Triandini, Evi, I. Gede Suardika, and I. Ketut Putu Suniantara. "Database Click Stream of E-commerce Functional." MATRIK : Jurnal Manajemen, Teknik Informatika dan Rekayasa Komputer 21, no. 1 (November 26, 2021): 75–86. http://dx.doi.org/10.30812/matrik.v21i1.1446.

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The availability of e-commerce functionality that suits for user needs in e-commerce applications will increase the sustainability of application usage and can provide benefits for its users. Many e-commerce applications have been developed, but based on the results of previous research, these e-commerce applications do not pay attention to the availability of functionality and its advantages in the application. A database design to store functional clickstream ecommerce is required to determine the number of features that users are accessing. Database application development is the activity of identifying real-world requirements, analyzing requirements, designing system data and functions, and then implementing operations in the system. The database life cycle method is used to build a database in this study. This research has produced a click stream database that has added functional attributes available in e-commerce, which are accessed by users. The results also show the addition of several tables that will facilitate the management of click stream data functionality from e-commerce applications.
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26

Gorbunov, S. A., Ju A. Bets, and N. L. Naumova. "Experience of resveratrol application in the development of functional applications." Technology and the study of mer-chandise of innovative foodstuffs 61, no. 2 (2020): 38–44. http://dx.doi.org/10.33979/2219-8466-2020-61-2-38-44.

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27

Pavić, Zlatko. "The Applications of Functional Variants of Jensen's Inequality." Journal of Function Spaces and Applications 2013 (2013): 1–5. http://dx.doi.org/10.1155/2013/194830.

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The paper is inspired by McShane's results on the functional form of Jensen's inequality for convex functions of several variables. The work is focused on applications and generalizations of this important result. At that, the generalizations of Jensen's inequality are obtained using the positive linear functionals.
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28

Li, Yujia, Hanzheng Xia, and Jingyi Xu. "Synthesis and Applications of Functional Nanomaterials." Journal of Physics: Conference Series 2133, no. 1 (November 1, 2021): 012006. http://dx.doi.org/10.1088/1742-6596/2133/1/012006.

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Abstract The unique physical and chemical properties and variable application potential of nanomaterials are continuously devoted to stimulating scientists’ studying enthusiasm. Extremely fine grains bring quantities excellent properties such as low density, low elastic modulus, high resistance and low thermal conductivity to nanomaterials, which has extensive use in the photoelectric field, environment, bioengineering and other fields. The research progress of graphene quantum dots, transparent reflective coatings and self-assembled nanotubes are mainly demonstrated. This paper shows the role of graphene quantum dots in solar cells, summarizes the synthesis methods of self-assembled nanotubes and their applications in bioengineering, and describes the development of transparent thermal reflective coatings for energy-saving glass attributed to providing relevant reference and basis for the development and research of nanomaterials.
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29

Mohol, Shubham Shankar, and Varun Sharma. "Functional applications of 4D printing: a review." Rapid Prototyping Journal 27, no. 8 (August 2, 2021): 1501–22. http://dx.doi.org/10.1108/rpj-10-2020-0240.

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Purpose Additive manufacturing has rapidly developed in terms of technology and its application in various types of industries. With this rapid development, there has been significant research in the area of materials. This has led to the invention of Smart Materials (SMs). The 4D printing is basically 3D printing of these SMs. This paper aims to focus on novel materials and their useful application in various industries using the technology of 4D printing. Design/methodology/approach Research studies in 4D printing have increased since the time when this idea was first introduced in the year 2013. The present research study will deeply focus on the introduction to 4D printing, types of SMs and its application based on the various types of stimulus. The application of each type of SM has been explained along with its functioning with respect to the stimulus. Findings SMs have multiple functional applications pertaining to appropriate industries. The 4D printed parts have a distinctive capability to change its shape and self-assembly to carry out a specific function according to the requirement. Afterward, the fabricated part can recover to its 3D printed “memorized” shape once it is triggered by the stimulus. Originality/value The present study highlights the various capabilities of SMs, which is used as a raw material in 4D printing. Graphical abstract
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30

Riad, Khaled, and Lishan Ke. "RoughDroid: Operative Scheme for Functional Android Malware Detection." Security and Communication Networks 2018 (September 20, 2018): 1–10. http://dx.doi.org/10.1155/2018/8087303.

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There are thousands of malicious applications that invade Google Play Store every day and seem to be legal applications. These malicious applications have the ability to link the malware referred to as Dresscode created for network hacking as well as scrolling information. Since Android smartphones are indispensable, there should be an efficient and also unusual protection. Therefore, Android smartphones usually continue to be safeguarded from novel malware. In this paper, we propose RoughDroid, a floppy analysis technique that can discover Android malware applications directly on the smartphone. RoughDroid is based on seven feature sets (FS1,FS2,…,FS7) from the XML manifest file of an Android application, plus three feature sets (FS8,FS9, and FS10) from the Dex file. Those feature sets pass through the Rough Set algorithm to elastically classify the Android application as either benign or malicious. The experimental results mainly consider 20 most common malware families, plus three new malware families (Grabos, TrojanDropper.Agent.BKY, and AsiaHitGroup) that invade Google Play Store at 2017. According to the experimental results, RoughDroid has 95.6% detection performance for the malware families at 1% false-positive rate. Finally, RoughDroid is a lightweight approach for straightly examining downloaded applications on the smartphone.
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31

Panchal, Prachiben, Emmanuel Ogunsona, and Tizazu Mekonnen. "Trends in Advanced Functional Material Applications of Nanocellulose." Processes 7, no. 1 (December 30, 2018): 10. http://dx.doi.org/10.3390/pr7010010.

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The need to transition to more sustainable and renewable technology has resulted in a focus on cellulose nanofibrils (CNFs) and nanocrystals (CNCs) as one of the materials of the future with potential for replacing currently used synthetic materials. Its abundance and bio-derived source make it attractive and sought after as well. CNFs and CNCs are naturally hydrophilic due to the abundance of -OH group on their surface which makes them an excellent recipient for applications in the medical industry. However, the hydrophilicity is a deterrent to many other industries, subsequently limiting their application scope. In either light, the increased rate of progress using CNCs in advanced materials applications are well underway and is becoming applicable on an industrial scale. Therefore, this review explores the current modification platforms and processes of nanocellulose directly as functional materials and as carriers/substrates of other functional materials for advanced materials applications. Niche functional attributes such as superhydrophobicity, barrier, electrical, and antimicrobial properties are reviewed due to the focus and significance of such attributes in industrial applications.
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32

Kim, E. E. "Functional Neuroradiology: Principles and Clinical Applications." Journal of Nuclear Medicine 55, no. 9 (June 26, 2014): 1565. http://dx.doi.org/10.2967/jnumed.114.144345.

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33

Kamont, Z., and K. Kropielnicka. "Implicit difference functional inequalities and applications." Journal of Mathematical Inequalities, no. 3 (2008): 407–27. http://dx.doi.org/10.7153/jmi-02-36.

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34

Simske, Steven J., and Marie Vans. "Functional Applications of Text Analytics Systems." Archiving Conference 2019, no. 1 (May 14, 2019): 116–19. http://dx.doi.org/10.2352/issn.2168-3204.2019.1.0.27.

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35

Talay, Denis, A. D. Egorov, P. I. Sobolevsky, and L. A. Yanovich. "Functional Integrals: Approximate Evaluation and Applications." Mathematics of Computation 64, no. 209 (January 1995): 441. http://dx.doi.org/10.2307/2153348.

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36

Ullah, Sana, Motahira Hashmi, and Ick Soo Kim. "Electrospun Composite Nanofibers for Functional Applications." Polymers 14, no. 11 (June 5, 2022): 2290. http://dx.doi.org/10.3390/polym14112290.

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37

Antipin, Igor Sergeevich, Mikhail Vladimirovich Alfimov, Vladimir Valentinovich Arslanov, Vladimir Alexandrovich Burilov, Sergey Zurabovich Vatsadze, Yan Zigfridovich Voloshin, Konstantin Petrovich Volcho, et al. "Functional supramolecular systems: design and applications." Russian Chemical Reviews 90, no. 8 (2021): 895–1107. http://dx.doi.org/10.1070/rcr5011.

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38

Maksimov, V. P., and P. M. Simonov. "Functional differential equations and their applications." Vestnik Udmurtskogo Universiteta. Matematika. Mekhanika. Komp'yuternye Nauki, no. 2 (April 2008): 87–90. http://dx.doi.org/10.20537/vm080231.

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39

Azbelev, N. V., V. P. Maksimov, and P. M. Simonov. "Functional differential equations and their applications." Vestnik Udmurtskogo Universiteta. Matematika. Mekhanika. Komp'yuternye Nauki, no. 1 (March 2009): 3–23. http://dx.doi.org/10.20537/vm090101.

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40

Jo, Hyun-kyung, and Ji-eun Seo. "Functional Evaluation of Mobile Interior Applications." Journal of the Korean Housing Association 32, no. 3 (June 25, 2021): 173–80. http://dx.doi.org/10.6107/jkha.2021.32.3.173.

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41

Mammola, Stefano, Carlos P. Carmona, Thomas Guillerme, and Pedro Cardoso. "Concepts and applications in functional diversity." Functional Ecology 35, no. 9 (July 30, 2021): 1869–85. http://dx.doi.org/10.1111/1365-2435.13882.

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42

Boender, J., E. Currie, M. Loomes, G. Primiero, and F. Raimondi. "Teaching Functional Patterns through Robotic Applications." Electronic Proceedings in Theoretical Computer Science 230 (November 26, 2016): 17–29. http://dx.doi.org/10.4204/eptcs.230.2.

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43

MIAO, J. "Nanomaterials applications in “green” functional coatings." Nanotechnology Perceptions 8, no. 3 (November 30, 2012): 181–89. http://dx.doi.org/10.4024/n14mi12a.ntp.08.03.

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44

Peckham, P. Hunter, and Jayme S. Knutson. "Functional Electrical Stimulation for Neuromuscular Applications." Annual Review of Biomedical Engineering 7, no. 1 (August 15, 2005): 327–60. http://dx.doi.org/10.1146/annurev.bioeng.6.040803.140103.

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45

Tozer, David J., and Michael J. G. Peach. "Density functional theory and its applications." Physical Chemistry Chemical Physics 16, no. 28 (2014): 14333. http://dx.doi.org/10.1039/c4cp90074j.

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46

Veith, Michael, Juseok Lee, Marina Martinez Miró, C. Kaan Akkan, Cécile Dufloux, and O. Cenk Aktas. "Bi-phasic nanostructures for functional applications." Chemical Society Reviews 41, no. 15 (2012): 5117. http://dx.doi.org/10.1039/c2cs15345a.

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47

Wang, Zhao, Xiaojuan Zhang, Qing Lin, Jingjing Sun, Santanu Bhattachaya, Guosong Chen, and Ruilong Sheng. "Functional Glycopolypeptides: Synthesis and Biomedical Applications." Advances in Polymer Technology 2020 (June 2, 2020): 1–16. http://dx.doi.org/10.1155/2020/6052078.

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Employing natural-based renewable sugar and saccharide resources to construct functional biopolymer mimics is a promising research frontier for green chemistry and sustainable biotechnology. As the mimics/analogues of natural glycoproteins, synthetic glycopolypeptides attracted great attention in the field of biomaterials and nanobiotechnology. This review describes the synthetic strategies and methods of glycopolypeptides and their analogues, the functional self-assemblies of the synthesized glycopolypeptides, and their biological applications such as biomolecular recognition, drug/gene delivery, and cell adhesion and targeting, as well as cell culture and tissue engineering. Future outlook of the synthetic glycopolypeptides was also discussed.
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48

Ferruti, P., and E. Ranucci. "New Functional Polymers for Medical Applications." Polymer Journal 23, no. 5 (May 1991): 541–50. http://dx.doi.org/10.1295/polymj.23.541.

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49

Su, Hua, Yuriy V. Rogovchenko, Youssef Raffoul, Yanbin Sang, and Fuyi Xu. "Nonlinear Functional Difference Equations with Applications." Discrete Dynamics in Nature and Society 2013 (2013): 1–2. http://dx.doi.org/10.1155/2013/360860.

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50

Jellinger, K. A. "Clinical Applications of Functional Brain MRI." European Journal of Neurology 16, no. 4 (April 2009): e86-e86. http://dx.doi.org/10.1111/j.1468-1331.2008.02467.x.

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