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Artículos de revistas sobre el tema "Thermo-sensitive materials"

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Autor: Grafiati
Publicado: 14 de marzo de 2023

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1

Wang, Bin, Zhi Neng Ye, Liu Quan Ji y Nian Xi Hu. "Thermo-Sensitive Materials for the Time-Temperature Indicator". Advanced Materials Research 284-286 (julio de 2011): 2442–45. http://dx.doi.org/10.4028/www.scientific.net/amr.284-286.2442.

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[Purpose] To show storage-resistant food internal quality changes such as canned food. [Method] By measuring the time-temperature-gray relational model of thermo-sensitive paper, compare it with the time-temperature-quality movement model of storage-resistant food. [Results] The analysis of the example show that: through controlling the production process and prescription of thermo-sensitive paper, adjusting the dosage of color-producing reagent, enabling the variation rule of gray match with the quality change of storage-resistant food. [Conclusions] Based colorless dyestuff 2-phenyl-3-methyl-6, 6-2 D-amino fluoran and 2, 2-bis (4-hydroxyphenyl) propane color developer thermo-sensitive system, through controlling the production process and prescription of thermo-sensitive paper to show the quality change of storage-resistant food.
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2

Kato, K., T. Sato, K. Murakami, M. Aoyama y R. Ito. "125. Interstitial Hyperthermia using Thermo-sensitive Ferromagnetic Materials". Japanese Journal of Radiological Technology 49, n.º 2 (1993): 245. http://dx.doi.org/10.6009/jjrt.kj00003501170.

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3

Zhang, Mei, Tian Yu Xu, Yan Cui y Da Hui Sun. "Study on Preparation and Sensitive Properties of Polyethylene Glycol (PEG) / Polyvinyl Alcohol (PVA) Thermo-Sensitive Hydrogel". Advanced Materials Research 306-307 (agosto de 2011): 41–45. http://dx.doi.org/10.4028/www.scientific.net/amr.306-307.41.

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Thermo-sensitive hydrogel have broad application prospects in biochemistry, medicine and other fields. In this paper, PEG as low melting point polymer was grafted at PVA which was as polymer framework of high melting point by copolymerization, a serials of new reversible phase-change materials were obtained and thermo-sensitive hydrogel were prepared because of their swelling properties. The hydrogel swelling behavior was analyzed, thermo-sensitive properties analysis was made by using DSC method, xerogel phase transition behavior was also studied and through which the relationship between PEG phase transition temperature and thermo-sensitive behaviors of the hydrogel was studied. The results showed that the thermo-sensitive hydrogel phase transition temperature was in the range of 36.3~43°C,and the phase transition temperature and the temperature sensitivity existed a certain relationship.
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4

Wang, Sheng, Songqi Ma, Lijun Cao, Qiong Li, Qing Ji, Juncheng Huang, Na Lu, Xiwei Xu, Yanlin Liu y Jin Zhu. "Conductive vitrimer nanocomposites enable advanced and recyclable thermo-sensitive materials". Journal of Materials Chemistry C 8, n.º 34 (2020): 11681–86. http://dx.doi.org/10.1039/d0tc02821e.

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5

Ding, Tao y Jeremy J. Baumberg. "Thermo-responsive plasmonic systems: old materials with new applications". Nanoscale Advances 2, n.º 4 (2020): 1410–16. http://dx.doi.org/10.1039/c9na00800d.

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6

Ju, Ben Zhi, Shu Fen Zhang y Dong Mao Yan. "Dual Thermo- and pH-Responsive Materials Based on Starch". Advanced Materials Research 679 (abril de 2013): 15–21. http://dx.doi.org/10.4028/www.scientific.net/amr.679.15.

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A simple and direct method for preparation of thermo- and pH- responsive materials based on starch is presented. Introduction of 2-hydroxy-3-butoxypropyl as hydrophobic group into starch developed thermo-responsive material, and further introduction of hydrophilic carboxymethyl group could produce dual thermo- and pH-responsive materials. The LCST of these starch-based materials can be easily adjusted at desired temperature between 4.5 and 57.0°C by controlling the molar substitution of 2-hydroxy-3-butoxypropyl and carboxymethyl groups. Furthermore, the LCST of 2-hydroxy-3-butoxypropyl-carboxymethyl starch was also highly sensitive to pH.
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7

Tang, Xin De, Fa Qi Yu, Ye Chen y Mei Shan Pei. "Thermo-Sensitive Nanogated System Based on Polymer-Modified Mesoporous Silica Hybrid Nanoparticles". Key Engineering Materials 538 (enero de 2013): 93–96. http://dx.doi.org/10.4028/www.scientific.net/kem.538.93.

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Mesoporous silica nanoparticles (MSNs) have been employed as a versatile solid support for constructing a variety of hybrid materials for controlled drug delivery. Controlled release systems that integrate external stimuli with nanocarriers have attracted much attention for sensors and drug delivery applications. Mesoporous silica nanoparticles grafted with thermo-sensitive polymers on the surface were fabricated via “grafting to” approach through chemical coupling reaction. The encapsulation and release of drug based on the thermo-sensitive nanogated system were investigated. The thermo-sensitive nanogated system can be expected as one of the promising candidates for drug delivery and controlled release.
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8

Sahoo, Sanjeeb Kumar, Tapas K. De, P. K. Ghosh y Amarnath Maitra. "pH- and Thermo-sensitive Hydrogel Nanoparticles". Journal of Colloid and Interface Science 206, n.º 2 (octubre de 1998): 361–68. http://dx.doi.org/10.1006/jcis.1998.5692.

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9

Yu, Yibin, Yi Cheng, Junye Tong, Lei Zhang, Yen Wei y Mei Tian. "Recent advances in thermo-sensitive hydrogels for drug delivery". Journal of Materials Chemistry B 9, n.º 13 (2021): 2979–92. http://dx.doi.org/10.1039/d0tb02877k.

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Thermo-sensitive hydrogels based on different polymers have been broadly used in the pharmaceutical fields. In this review, the state-of-the-art thermo-sensitive hydrogels for drug delivery are elaborated
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10

Xiao, X. C., L. Y. Chu, W. M. Chen, S. Wang y Y. Li. "Positively Thermo-Sensitive Monodisperse Core–Shell Microspheres". Advanced Functional Materials 13, n.º 11 (4 de noviembre de 2003): 847–52. http://dx.doi.org/10.1002/adfm.200304513.

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11

Hirai, Yuichi, Takayuki Nakanishi, Kohei Miyata, Koji Fushimi y Yasuchika Hasegawa. "Thermo-sensitive luminescent materials composed of Tb(III) and Eu(III) complexes". Materials Letters 130 (septiembre de 2014): 91–93. http://dx.doi.org/10.1016/j.matlet.2014.05.074.

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12

Wang, Huan, Yingli An, Nan Huang, Rujiang Ma, Junbo Li y Linqi Shi. "Contractive Polymeric Complex Micelles as Thermo-Sensitive Nanopumps". Macromolecular Rapid Communications 29, n.º 16 (20 de junio de 2008): 1410–14. http://dx.doi.org/10.1002/marc.200800137.

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13

Sánchez-Moreno, Paola, Juan de Vicente, Stefania Nardecchia, Juan Marchal y Houria Boulaiz. "Thermo-Sensitive Nanomaterials: Recent Advance in Synthesis and Biomedical Applications". Nanomaterials 8, n.º 11 (13 de noviembre de 2018): 935. http://dx.doi.org/10.3390/nano8110935.

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Progress in nanotechnology has enabled us to open many new fronts in biomedical research by exploiting the peculiar properties of materials at the nanoscale. The thermal sensitivity of certain materials is a highly valuable property because it can be exploited in many promising applications, such as thermo-sensitive drug or gene delivery systems, thermotherapy, thermal biosensors, imaging, and diagnosis. This review focuses on recent advances in thermo-sensitive nanomaterials of interest in biomedical applications. We provide an overview of the different kinds of thermoresponsive nanomaterials, discussing their potential and the physical mechanisms behind their thermal response. We thoroughly review their applications in biomedicine and finally discuss the current challenges and future perspectives of thermal therapies.
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14

DWORAK, ANDRZEJ, BARBARA TRZEBICKA, WOJCIECH WALACH y ALICJA UTRATA. "New thermo-sensitive reactive polyethers basing on glycidol". Polimery 48, n.º 07/08 (julio de 2003): 484–89. http://dx.doi.org/10.14314/polimery.2003.484.

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15

Niang, Pape Momar, Zhiwei Huang, Virginie Dulong, Zied Souguir, Didier Le Cerf y Luc Picton. "Thermo-controlled rheology of electro-assembled polyanionic polysaccharide (alginate) and polycationic thermo-sensitive polymers". Carbohydrate Polymers 139 (marzo de 2016): 67–74. http://dx.doi.org/10.1016/j.carbpol.2015.12.022.

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16

Jiang, Caiyun, Ting Wu, Jiaxun Liu y Yuping Wang. "Application of a thermo-sensitive imprinted SERS substrate to the rapid trace detection of ofloxacin". Analytical Methods 12, n.º 39 (2020): 4783–88. http://dx.doi.org/10.1039/d0ay00616e.

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17

Abe, Takashi, Hiroaki Egawa, Hiroshi Ito y Atsuhiko Nitta. "Synthesis and characterization of thermo-sensitive polymeric beads". Journal of Applied Polymer Science 40, n.º 78 (5 de octubre de 1990): 1223–35. http://dx.doi.org/10.1002/app.1990.070400712.

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18

Wang, Qian Qian, Ming Kong, Yi An, Ya Liu, Jing Jing Li, Xuan Zhou, Chao Feng et al. "Hydroxybutyl chitosan thermo-sensitive hydrogel: a potential drug delivery system". Journal of Materials Science 48, n.º 16 (12 de abril de 2013): 5614–23. http://dx.doi.org/10.1007/s10853-013-7356-z.

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19

Cheng, Shu, Wenbin Hu, Hongrui Ye, Lijun Wu, Qinyou Li, Ai Zhou, Minghong Yang, Qiang Zhao y Donglai Guo. "Tapered multicore fiber interferometer for ultra-sensitive temperature sensing with thermo-optical materials". Optics Express 29, n.º 22 (15 de octubre de 2021): 35765. http://dx.doi.org/10.1364/oe.441896.

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20

Robert, François, Anil D. Naik, Bernard Tinant y Yann Garcia. "N-Salicylidene anil anions as thermo-sensitive components of organic–inorganic hybrid materials". Inorganica Chimica Acta 380 (enero de 2012): 104–13. http://dx.doi.org/10.1016/j.ica.2011.08.040.

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21

WANG, MENG KUI y YU QIANG YANG. "PREPARING DOUBLE-BASE THERMO-SENSITIVE CERAMICS WITH NANOPOWDERS". International Journal of Nanoscience 05, n.º 02n03 (abril de 2006): 265–71. http://dx.doi.org/10.1142/s0219581x06004346.

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The preparing process and the properties of thick-film double-based thermo-sensitive material were studied. The preparing steps were as follows: (i) preparing Ba 1-x Sr x TiO 3 micro-powders with chemical co-precipitation method; (ii) adding dispersants and surface active agents into crushing medium powders to prepare Ba 1-x Sr x TiO 3 nanopowders; (iii) preparing V 2 O 3-based micro-powders; (iv) mixing Ba 1-x Sr x TiO 3 nanopowders, V 2 O 3-based micro-powders, donor impurities, acceptor impurities and micro additives according to a certain ratio to make thick-film thermo-sensitive ceramic material. The presintering and sintering temperature of the prepared PTC ceramics were both reduced, which is very meaningful in using cheaper SiC instead of more expensive MoSi 2, prolonging the kiln's life, and lowering the production cost. The samples we prepared did not contain PbO , so they are safe to the environment.
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22

Zhang, Mingming, Wenjuan Chen, Yanhang Hong, Han Chen y Chun Wang. "External temperature control of lymphatic drainage of thermo-sensitive nanomaterials". Biomaterials Science 7, n.º 3 (2019): 750–59. http://dx.doi.org/10.1039/c8bm01298a.

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23

Dutta, Sujan y Daniel Cohn. "Temperature and pH responsive 3D printed scaffolds". Journal of Materials Chemistry B 5, n.º 48 (2017): 9514–21. http://dx.doi.org/10.1039/c7tb02368e.

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This study focused on developing novel materials for 3D printed reverse thermo-responsive (RTR) and pH-sensitive structures, using the stereolithography (SLA) technique and demonstrated the double responsiveness of the constructs printed.
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24

Zhang, Dongying, Zhang Hu, Lingyu Zhang, Sitong Lu, Fengyan Liang y Sidong Li. "Chitosan-Based Thermo-Sensitive Hydrogel Loading Oyster Peptides for Hemostasis Application". Materials 13, n.º 21 (9 de noviembre de 2020): 5038. http://dx.doi.org/10.3390/ma13215038.

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Uncontrolled massive hemorrhage is one of the principal causes of death in trauma emergencies. By using catechol-modified chitosan (CS-C) as the matrix material and β glycerol phosphate (β-GP) as a thermo-sensitive agent, chitosan-based thermo-sensitive hydrogel loading oyster peptides (CS-C/OP/β-GP) were prepared at physiological temperature. The hemostatic performance of CS-C/OP/β-GP hydrogel was tested in vivo and in vitro, and its biological safety was evaluated. The results showed that the in vitro coagulation time and blood coagulation index of CS-C/OP/β-GP hydrogel were better than those of a commercial gelatin sponge. Notably, compared with the gelatin sponge, CS-C/OP/β-GP hydrogel showed that the platelet adhesion and erythrocyte adsorption rates were 38.98% and 95.87% higher, respectively. Additionally, the hemostasis time in mouse liver injury was shortened by 19.5%, and the mass of blood loss in the mouse tail amputation model was reduced by 18.9%. The safety evaluation results demonstrated that CS-C/OP/β-GP had no cytotoxicity to L929 cells, and the hemolysis rates were less than 5% within 1 mg/mL, suggesting good biocompatibility. In conclusion, our results indicate that CS-C/OP/β-GP is expected to be a promising dressing in the field of medical hemostasis.
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25

Yamauchi, Takeshi, Hiroaki Sato, Masato Ando y Norio Tsubokawa. "Preparation and Properties of Smart Nano-Materials from Thermo-Sensitive Polymer Grafted Carbon Nanotubes". ECS Transactions 16, n.º 47 (18 de diciembre de 2019): 13–22. http://dx.doi.org/10.1149/1.3148206.

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26

Antosik, Adrian Krzysztof y Karolina Mozelewska. "Influence of Nanoclay on the Thermo-Mechanical Properties of Silicone Pressure-Sensitive Adhesives". Materials 15, n.º 21 (24 de octubre de 2022): 7460. http://dx.doi.org/10.3390/ma15217460.

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This research was carried on newly obtained innovative materials—self-adhesive one-sided tapes based on silicone pressure-sensitive adhesives. In order to obtain tapes, the stable adhesive composition was subjected to physical modification by incorporating into it various amounts of selected silicon fillers. The produced pressure-sensitive adhesives were tested for viscosity and thermogravimetric analysis, as well as the manufactured tapes; i.e., peel adhesion, tack, cohesion at room and elevated temperature, SAFT test (shear adhesive failure temperature), and shrinkage. The prepared self-adhesive tapes retained their self-adhesive properties at a level close to the initial level while increasing the thermal resistance by 70–75 °C, reaching the level of 220–225 °C. The new self-adhesive materials have application potential and can be used as a material for special applications in the field of electrical engineering and heavy industry.
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27

Li, Yuanpei, Shirong Pan, Wei Zhang y Zhuo Du. "Novel thermo-sensitive core–shell nanoparticles for targeted paclitaxel delivery". Nanotechnology 20, n.º 6 (14 de enero de 2009): 065104. http://dx.doi.org/10.1088/0957-4484/20/6/065104.

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28

Fang, Qiyun, Ying Li, Yingnan Wang, Feng Yao, Shuangqing Wang, Yan Qian, Guoqiang Yang y Wei Huang. "Feasible organic films using noninterfering emitters for sensitive and spatial high-temperature sensing". Journal of Materials Chemistry C 6, n.º 30 (2018): 8115–21. http://dx.doi.org/10.1039/c8tc02591f.

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29

Lv, Chao, Xiao Chen, Bo Jing, Yurong Zhao y Fumin Ma. "Thermo-sensitive amphiphilic supramolecular assembly based on cyclodextrin inclusion". Journal of Colloid and Interface Science 351, n.º 1 (noviembre de 2010): 63–68. http://dx.doi.org/10.1016/j.jcis.2010.07.057.

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30

Zhang, Li, Shiyu Zhang, Huajian Chen, Yu Liang, Bingxia Zhao, Wanxian Luo, Qian Xiao et al. "An acoustic/thermo-responsive hybrid system for advanced doxorubicin delivery in tumor treatment". Biomaterials Science 8, n.º 8 (2020): 2202–11. http://dx.doi.org/10.1039/c9bm01794a.

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31

Maeda, Yoshihumi, Yoshihiro Hasegawa, Kazuhiro Taniguchi, Miyoko Matsushima, Tsutomu Kawabe y Mitsuhiro Shikida. "Energy-less respiration monitoring device using thermo-sensitive film". Microsystem Technologies 26, n.º 2 (15 de mayo de 2019): 489–97. http://dx.doi.org/10.1007/s00542-019-04482-4.

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32

Wu, Fengqin, Qinhua Li, Xiaojuan Zhang, Li Liu, Shixi Wu, Danping Sun, Fengsheng Li y Wei Jiang. "Fabrication and characterization of thermo-sensitive magnetic polymer composite nanoparticles". Journal of Magnetism and Magnetic Materials 324, n.º 7 (abril de 2012): 1326–30. http://dx.doi.org/10.1016/j.jmmm.2011.11.032.

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33

Hasegawa, Yasuchika y Yuichi Kitagawa. "Thermo-sensitive luminescence of lanthanide complexes, clusters, coordination polymers and metal–organic frameworks with organic photosensitizers". Journal of Materials Chemistry C 7, n.º 25 (2019): 7494–511. http://dx.doi.org/10.1039/c9tc00607a.

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Historical and recent advances of lanthanide mononuclear complexes, polynuclear clusters, coordination polymers (CPs) and metal–organic frameworks (MOFs) with temperature-dependent luminescence are reviewed for future thermo-sensitive paints.
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34

Trajin, Baptiste y Paul-Etienne Vidal. "Bond graph multi-physics modeling of encapsulating materials in power electronic modules". European Physical Journal Applied Physics 89, n.º 2 (febrero de 2020): 20902. http://dx.doi.org/10.1051/epjap/2020180287.

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This paper focuses on multi-physics modeling of encapsulating gels in power electronic modules for transient and steady-state simulation. With the emergence of wide-bandgap semiconductors such as SiC or GaN, operating at a higher temperature than conventional Si power chips, this passive element of the packaging appears as a few studied element sensitive to thermal and mechanical stresses. A thermo-mechanical coupled modeling of the material, based on bond graph representation, is presented. This approach allows to establish, under the same formalism, an analogy between the different physical domains. From this analogy, a multi-physical nonlinear state space representation is built, allowing transient simulation of the thermo-mechanical behavior of the material. This way of modeling and simulating is particularly adapted for a preliminary study during the upstream phases of design of the power electronic modules. It quickly establishes the maximum temperature and mechanical strains experienced by the gel.
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35

Song, Yajiao, Haichao Duan, Siyao Zhu, Jianhua Lü y Changli Lü. "Preparation of a temperature-responsive block copolymer-anchored graphene oxide@ZnS NPs luminescent nanocomposite for selective detection of 2,4,6-trinitrotoluene". New Journal of Chemistry 42, n.º 12 (2018): 9598–605. http://dx.doi.org/10.1039/c7nj04515h.

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36

Geng, Wanying, Xufeng Zhou, Jianyan Ding y Yuhua Wang. "Density-functional theory calculations, luminescence properties and fluorescence ratiometric thermo-sensitivity for a novel borate based red phosphor: NaBaSc(BO3)2:Ce3+,Mn2+". Journal of Materials Chemistry C 7, n.º 7 (2019): 1982–90. http://dx.doi.org/10.1039/c8tc06034g.

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37

Kim, Byeonggwan, Haijin Shin, Teahoon Park, Hanwhuy Lim y Eunkyoung Kim. "NIR-Sensitive Poly(3,4-ethylenedioxyselenophene) Derivatives for Transparent Photo-Thermo-Electric Converters". Advanced Materials 25, n.º 38 (15 de julio de 2013): 5483–89. http://dx.doi.org/10.1002/adma.201301834.

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38

Xing, Xue, Qi Xu, Jingtao Du, Li Cheng y Zhigang Liu. "A Modified Fourier Series Solution for a Thermo-Acoustic Tube with Arbitrary Impedance Boundaries". International Journal of Applied Mechanics 12, n.º 05 (junio de 2020): 2050047. http://dx.doi.org/10.1142/s1758825120500477.

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Rijke tube is a benchmark model widely used in thermo-acoustic community. As an alternative to existing modeling methods, this work proposes a modified Fourier series solution for modal characteristic analyses of a one dimensional (1D) thermo-acoustic system. The proposed modeling framework allows the consideration of arbitrary impedance boundaries owing to the special feature of the Fourier expansion series enriched by boundary smoothing polynomial terms. Thermo-acoustic Helmholtz governing equation coupled with a first-order heat release model is discretized through Galerkin procedure. Thermo-acoustic modal parameters are obtained by solving a standard quartic matrix characteristic equation, different from conventionally used root searching based on a transcendental equation. Numerical examples are presented to validate the proposed model through comparisons with results reported in the literature. Influences of boundary impedance are analyzed. Results reveal a quantitative relationship between the thermo-acoustic instability and heat source position with respect to the acoustic mode shapes. Results also show the existence of a sensitive zone, in which the thermo-acoustic modal behavior of the impedance-ended (IE) tube shows drastic changes with the boundary impedance. Meanwhile, a stable zone can be achieved upon a proper setting of the boundary impedance through suitable combination of the real and imaginary parts of the impedance.
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39

Yang, Biao y Wantai Yang. "Thermo-sensitive switching membranes regulated by pore-covering polymer brushes". Journal of Membrane Science 218, n.º 1-2 (1 de julio de 2003): 247–55. http://dx.doi.org/10.1016/s0376-7388(03)00182-0.

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40

Cao, Zheng, Binyang Du, Tianyou Chen, Jingjing Nie, Junting Xu y Zhiqiang Fan. "Preparation and Properties of Thermo-sensitive Organic/Inorganic Hybrid Microgels". Langmuir 24, n.º 22 (18 de noviembre de 2008): 12771–78. http://dx.doi.org/10.1021/la802087n.

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41

Kim, Byeonggwan, Haijin Shin, Teahoon Park, Hanwhuy Lim y Eunkyoung Kim. "Photo-Thermo-Electric Converters: NIR-Sensitive Poly(3,4-ethylenedioxyselenophene) Derivatives for Transparent Photo-Thermo-Electric Converters (Adv. Mater. 38/2013)". Advanced Materials 25, n.º 38 (8 de octubre de 2013): 5520. http://dx.doi.org/10.1002/adma.201370239.

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42

Nasimova, I. R., O. V. Vyshivannaya, M. O. Gallyamov y E. Yu Kozhunova. "Thermo- and pH-Sensitive Microgels Based on Interpenetrating Networks as Components for Creating Polymeric Materials". Polymer Science, Series A 61, n.º 6 (noviembre de 2019): 773–79. http://dx.doi.org/10.1134/s0965545x19060063.

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43

Chen, Tong, Hongwei Zhang y Sanping Zhao. "Stimulus-Responsiveness of Thermo-Sensitive Polymer Hybridized with N-Doped Carbon Quantum Dots and Its Applications in Solvent Recognition and Fe3+ Ion Detection". Polymers 14, n.º 10 (12 de mayo de 2022): 1970. http://dx.doi.org/10.3390/polym14101970.

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To fabricate N-CQDs hybrid thermo-sensitive polymer (poly-N-CQDs), N-doped carbon quantum dots (N-CQDs) with strong blue fluorescence and poly(N-isopropylacrylamide-co-acrylic acid) (poly(NIPAAm-co-AAc)) copolymer with thermo-sensitivity were synthesized, respectively. Subsequently, the coupling reaction between. the -COOH groups of poly(NIPAAm-co-AAc) and the -NH2 groups on the surface of the N-CQDs was carried out. The fluorescence spectra show that the coil-globule transition of the poly-N-CQDs coincided with intensity changes in the scattering peak at excitation wavelength with the temperature variations. The phase transition temperature and the fluorescent intensity of poly-N-CQDs can be regulated by modulating the composition and concentration of poly-N-CQDs as well as the temperature and pH of the local medium. The thermo-sensitivity and fluorescent properties of the poly-N-CQDs displayed good stability and reversibility. The fluorescence intensity and emission wavelengths of the poly-N-CQDs significantly changed in different solvents for solvent recognition. The poly-N-CQDs was employed as a fluorescent probe for Fe3+ detection ranging from 0.025 to 1 mM with a limit of detection (LOD) of 9.49 μM. The hybrid polymer materials have the potential to develop an N-CQDs-based thermo-sensitive device or sensor.
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44

Fumoto, Koji, Hideaki Yamagishi y Masahiro Ikegawa. "A Mini Heat Transport Device Based On Thermo-Sensitive Magnetic Fluid". Nanoscale and Microscale Thermophysical Engineering 11, n.º 1-2 (14 de mayo de 2007): 201–10. http://dx.doi.org/10.1080/15567260701333869.

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45

Guo, Zhaoyuan, Yun Bai, Zhuangzhuang Zhang, Heng Mei, Jing Li, Yuji Pu, Nan Zhao et al. "Thermosensitive polymer hydrogel as a physical shield on colonic mucosa for colitis treatment". Journal of Materials Chemistry B 9, n.º 18 (2021): 3874–84. http://dx.doi.org/10.1039/d1tb00499a.

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46

Yu, Peng, Jing Xie, Yu Chen, Jinming Liu, Yanpeng Liu, Bo Bi, Jun Luo, Sheyu Li, Xulin Jiang y Jianshu Li. "A thermo-sensitive injectable hydroxypropyl chitin hydrogel for sustained salmon calcitonin release with enhanced osteogenesis and hypocalcemic effects". Journal of Materials Chemistry B 8, n.º 2 (2020): 270–81. http://dx.doi.org/10.1039/c9tb02049g.

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47

Mehnert, Markus, Mokarram Hossain y Paul Steinmann. "On nonlinear thermo-electro-elasticity". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 472, n.º 2190 (junio de 2016): 20160170. http://dx.doi.org/10.1098/rspa.2016.0170.

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Resumen
Electro-active polymers (EAPs) for large actuations are nowadays well-known and promising candidates for producing sensors, actuators and generators. In general, polymeric materials are sensitive to differential temperature histories. During experimental characterizations of EAPs under electro-mechanically coupled loads, it is difficult to maintain constant temperature not only because of an external differential temperature history but also because of the changes in internal temperature caused by the application of high electric loads. In this contribution, a thermo-electro-mechanically coupled constitutive framework is proposed based on the total energy approach. Departing from relevant laws of thermodynamics, thermodynamically consistent constitutive equations are formulated. To demonstrate the performance of the proposed thermo-electro-mechanically coupled framework, a frequently used non-homogeneous boundary-value problem, i.e. the extension and inflation of a cylindrical tube, is solved analytically. The results illustrate the influence of various thermo-electro-mechanical couplings.
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48

Pottier, Christophe, Gaëlle Morandi, Virginie Dulong, Zied Souguir, Luc Picton y Didier Le Cerf. "Thermo- and pH-sensitive triblock copolymers with tunable hydrophilic/hydrophobic properties". Journal of Polymer Science Part A: Polymer Chemistry 53, n.º 22 (25 de junio de 2015): 2606–16. http://dx.doi.org/10.1002/pola.27729.

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49

Iemma, F., U. G. Spizzirri, F. Puoci, G. Cirillo, M. Curcio, O. I. Parisi y N. Picci. "Synthesis and release profile analysis of thermo-sensitive albumin hydrogels". Colloid and Polymer Science 287, n.º 7 (9 de abril de 2009): 779–87. http://dx.doi.org/10.1007/s00396-009-2027-y.

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50

Ou, Ranwen, Yaqin Wang, Huanting Wang y Tongwen Xu. "Thermo-sensitive polyelectrolytes as draw solutions in forward osmosis process". Desalination 318 (junio de 2013): 48–55. http://dx.doi.org/10.1016/j.desal.2013.03.022.

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