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Journal articles on the topic 'Organofer'

Author: Grafiati
Published: 4 June 2021
Last updated: 28 January 2023

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1

Musiał, Krzysztof. "César Franck (1822–1890): twórczość kompozytorska na organy – wpływ – dziedzictwo." Pro Musica Sacra 20 (November 23, 2022): 97–121. http://dx.doi.org/10.15633/pms.2005.

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Autor porusza w tekście zagadnienia dotyczące muzyki organowej Césara Francka oraz wpływu jego osoby i twórczości na środowisko organowe we Francji. W pierwszej części artykułu przedstawiona została sytuacja środowiska organowego w kraju przed pojawieniem się autora Six pièces. W kompleksowy sposób scharakteryzowana jest francuska muzyka organowa okresu „klasycznego” oraz porewolucyjna wraz z jej najwybitniejszymi przedstawicielami. Druga część tekstu dotyczy muzyki organowej Césara Francka. Na początku przedstawiono najważniejsze informacje dotyczące jego życiorysu oraz krótką charakterystykę
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2

Schmidt, L. C., V. C. Edelsztein, C. C. Spagnuolo, P. H. Di Chenna, and R. E. Galian. "Light-responsive hybrid material based on luminescent core–shell quantum dots and steroidal organogel." Journal of Materials Chemistry C 4, no. 29 (2016): 7035–42. http://dx.doi.org/10.1039/c6tc02265k.

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An integrated multifunctional QD–organogel hybrid with reversible photoswitchable luminescence properties is reported, combining the intrinsic properties of CdSe/ZnS core–shell QDs, a non-cholesteryl steroid organogel and a photochromic diarylethene.
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3

Patel, A. R., B. Mankoč, M. D. Bin Sintang, A. Lesaffer, and K. Dewettinck. "Fumed silica-based organogels and ‘aqueous-organic’ bigels." RSC Advances 5, no. 13 (2015): 9703–8. http://dx.doi.org/10.1039/c4ra15437a.

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We report the use of fumed silica as a structurant for creating an organogel with a triglyceride solvent (vegetable oil) as the continuous phase. The organogel was further used to prepare aqueous-organic bigels.
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4

Khattab, Tawfik A., Mehrez E. El-Naggar, Meram S. Abdelrahman, Ali Aldalbahi, and Mohammad Rafe Hatshan. "Simple Development of Novel Reversible Colorimetric Thermometer Using Urea Organogel Embedded with Thermochromic Hydrazone Chromophore." Chemosensors 8, no. 4 (2020): 132. http://dx.doi.org/10.3390/chemosensors8040132.

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Thermochromic urea (U) organogel immobilized with a thermochromic tricyanofuran hydrazone (TCFH) chromophore was developed. Thermochromic TCFH chromophore bearing two nitro functional groups on a hydrazone recognition unit was synthesized via an azo-coupling reaction of tricyanofuran (TCF) heterocyclic moiety containing an active methyl group with the diazonium chloride salt of 2,4-dinitroaniline comprising two strongly electron-withdrawing nitro groups. The molecular structure of both intermediates and TCFH dye were characterized by several analytical methods, including 1H NMR, 13C NMR, IR, m
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5

Shchipunov, Yu A. "Lecithin organogel." Colloids and Surfaces A: Physicochemical and Engineering Aspects 183-185 (July 2001): 541–54. http://dx.doi.org/10.1016/s0927-7757(01)00511-8.

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6

Ghan, Sheah Yee, Lee Fong Siow, Chin Ping Tan, Kok Whye Cheong, and Yin Yin Thoo. "Palm Olein Organogelation Using Mixtures of Soy Lecithin and Glyceryl Monostearate." Gels 8, no. 1 (2022): 30. http://dx.doi.org/10.3390/gels8010030.

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The present work investigated the interaction between soy lecithin (SL), glyceryl monostearate (GMS), and water in structuring palm olein (PO) to create an organogel having similar mechanical properties to commercial spread. Extreme vertices mixture design was used to optimize the composition of PO-based organogel. The resulting model showed a good fit to the predicted data with R2 ≥ 0.89. The optimum composition was 8% SL, 22% GMS, 28% water, and 42% PO (w/w) to produce a mean firmness of 1.91 N, spreadability of 15.28 N s−1, and oil binding capacity (OBC) of 83.83%. The OBC of optimized orga
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7

IZU BELLOSO, Miguel José. "Los órganos administrativos transitorios." Revista Vasca de Administración Pública / Herri-Arduralaritzarako Euskal Aldizkaria, no. 120 (August 30, 2021): 407–34. http://dx.doi.org/10.47623/ivap-rvap.120.2021.13.

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LABURPENA: Administrazio-organoen sailkapenek jakintzat eman ohi dute organo guztiek izaera egonkorra eta iraunkorra dutela. Ez dute kontuan hartzen guztiz normala dela zenbait administrazio-organo aldi baterako izaeraz ez ezik, baita izaera iraunkorraz ere, sortzea, xede jakin batez, maiz administrazio-prozedura bakar bat izapidetzeko, eta hura amaituta, desegin egiten direla. Hala legegileak nola zientzia-doktrinak ez diete jaramonik egiten organo horiei, eta administrazio-organoei aplikatu beharreko araudi orokor gehienak ez dira bateragarriak haien izaerarekin. ABSTRACT: Classifications of
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8

Bai, Binglian, Zhiming Li, Haitao Wang, Min Li, Yukihiro Ozaki, and Jue Wei. "Exploring the difference in xerogels and organogels through in situ observation." Royal Society Open Science 5, no. 1 (2018): 170492. http://dx.doi.org/10.1098/rsos.170492.

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Solvent–gelator interactions play a key role in mediating organogel formation and ultimately determine the physico-chemical properties of the organogels and xerogels. The ethanol organogels of 1,4-bis[(3,4,5-trihexyloxy phenyl)hydrazide]phenylene (TC6) were investigated in situ by FT-IR, Raman and fluorescence spectra, and XRD, and it was confirmed that the intermolecular interaction and aggregation structure of TC6 ethanol organogels were quite different from those of xerogels. Simultaneously, unprecedented phase transition from organogel to suspension upon heating was observed in ethanol org
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9

Trivedi, Rashmi, Shraddha Samrit, Yogesh Amgaokar, Urvashi Supe, Milind Umekar, and Kamlesh Wadher. "Formulation and Evaluation of Pluronic -Lecithin Organogel Containing Natural Moisturizing Agent for Xerosis." Journal of Drug Delivery and Therapeutics 12, no. 5 (2022): 170–74. http://dx.doi.org/10.22270/jddt.v12i5.5614.

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Xerosis is a common skin condition as well as a key aspect of a number of diseases associated to hereditary and acquired conditions. The objective of this study was to formulate and evaluate the pluronic lecithin organogel containing natural moisturizing agents for topical application. Different formulations of pluronic lecithin organogels were prepared by using Pluronic F127, Lecithin, Vitamin E, Aloe vera, water, sorbic acid, and potassium sorbate. The gel containing different quantities of Polaxomer, soya lecithin and polyvinyl alcohol were characterized for their mechanical properties and
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10

Zainab Saad Kaddoori, Masar Basim Mohsin Mohamed, and Nawfal Am. Numan. "Organogel investigations as a floating oral system with depot property." Al Mustansiriyah Journal of Pharmaceutical Sciences 20, no. 4 (2022): 132–46. http://dx.doi.org/10.32947/ajps.v20i4.783.

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In this work we investigate span 40, span 60 and SA as a gelators and olive oil (OO) as apolar liquid phase to discover the ability of organogel formed to be floating in acidic media and gain a unique gastroretentive dosage form. In addition, take advantage of the chemical
 
 and physical properties of cinnarizine (CN) as a model drug suitable for gastroretentive systems. The floating parameters were studied where the floating lag time and floating duration for organogel in both solid and liquid states. Organogels charecterization were accomplished through the folowing investigatatio
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11

Belgamwar, VeenaS, MohitS Pandey, DhirajS Chauk, and SanjayJ Surana. "Pluronic lecithin organogel." Asian Journal of Pharmaceutics 2, no. 3 (2008): 134. http://dx.doi.org/10.4103/0973-8398.43295.

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12

Ji, Yan, Gui-Chao Kuang, Xin-Ru Jia, et al. "Photoreversible dendritic organogel." Chemical Communications, no. 41 (2007): 4233. http://dx.doi.org/10.1039/b708239h.

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13

Jeong, Y., M. K. Joo, Y. S. Sohn, and B. Jeong. "Reverse Thermal Organogel." Advanced Materials 19, no. 22 (2007): 3947–50. http://dx.doi.org/10.1002/adma.200700149.

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14

Gao, Baoxiang, Hongxia Li, Defang Xia, Sufang Sun, and Xinwu Ba. "Amphiphilic dendritic peptides: Synthesis and behavior as an organogelator and liquid crystal." Beilstein Journal of Organic Chemistry 7 (February 11, 2011): 198–203. http://dx.doi.org/10.3762/bjoc.7.26.

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New amphiphilic dendritic peptides on dendritic polyaspartic acid were designed and synthesized. The organogel and liquid crystal properties of these amphiphilic dendritic peptides were fully studied by field-emission SEM, temperature dependent FT-IR, differential scanning calorimetry, polarization optical microscopy and X-ray diffraction experiments. Amphiphilic dendritic peptides G3 show good organogel properties with a minimum gelation concentration as low as 1 wt %. Furthermore, amphiphilic dendritic peptides G3 can form a hexagonal columnar liquid crystal assembly over a wide temperature
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15

Pirner, Daniela, Martin Dulle, Miriam E. J. Mauer, and Stephan Förster. "Reinforcement of nanostructured organogels by hydrogen bonds." RSC Advances 6, no. 48 (2016): 42730–38. http://dx.doi.org/10.1039/c6ra03567a.

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16

Giuri, Demetra, Nicola Zanna, and Claudia Tomasini. "Low Molecular Weight Gelators Based on Functionalized l-Dopa Promote Organogels Formation." Gels 5, no. 2 (2019): 27. http://dx.doi.org/10.3390/gels5020027.

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We prepared the small pseudopeptide Lau-l-Dopa(OBn)2-d-Oxd-OBn (Lau = lauric acid; l-Dopa = l-3,4-dihydroxyphenylalanine; d-Oxd = (4R,5S)-4-methyl-5-carboxyl-oxazolidin-2-one; Bn = benzyl) through a number of coupling reactions between lauric acid, protected l-Dopa and d-Oxd with an excellent overall yield. The ability of the product to form supramolecular organogels has been tested with different organic solvents of increasing polarity and compared with the results obtained with the small pseudopeptide Fmoc-l-Dopa(OBn)2-d-Oxd-OBn. The mechanical and rheological properties of the organogels de
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17

Katla, Jagadish, Abhijeet Ojha, Akshay J. M. Nair, Krishnan Rangan, and Sriram Kanvah. "Photophysical studies of pyrenyl cyanostyrenes: effect of trifluoromethyl substitution on gelation." New Journal of Chemistry 42, no. 22 (2018): 18297–304. http://dx.doi.org/10.1039/c8nj04146f.

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18

Sharma, Jaya, Dilip Agrawal, Ashok Kumar Sharma, Mohit Khandelwal, and Shaneza Aman. "New Topical Drug Delivery System Pharmaceutical Organogel: A Review." Asian Journal of Pharmaceutical Research and Development 10, no. 1 (2022): 75–78. http://dx.doi.org/10.22270/ajprd.v10i1.1088.

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A simple working definition of this term'Gel' is a soft, durable or solid material,containing both solids and liquid parts, where the solid part(gelator) exists as amesh / network of aggregates, viz immobilize part of the liquid,a strong network prevents the liquid from leaking flow, especially by local pressure. The gel is called a hydrogel or Organogel depending on the type liquid component: water in hydrogel and a living solvent in organogels .Organogels have been discovered as a multipurpose tool in pharmaceuticals for topical as well as transdermal delivery of various drugs. They are semi
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19

Pradhan, Balaram, Ravindra Kumar Gupta, Suraj Kumar Pathak, Joydip De, Santanu Kumar Pal, and Ammathnadu S. Achalkumar. "Columnar self-assembly of luminescent bent-shaped hexacatenars with a central pyridine core connected with substituted 1,3,4-oxadiazole and thiadiazoles." New Journal of Chemistry 42, no. 5 (2018): 3781–98. http://dx.doi.org/10.1039/c7nj04449f.

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20

Aleksandrowicz, Miłosz. "The Performance Practice of Organ-Playing in 17th Century France According to the Anonymous Manuscript Manière de toucher l’orgue (c.1670-1685)." Roczniki Humanistyczne 68, no. 12 (2020): 121–36. http://dx.doi.org/10.18290/rh206812-9.

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Praktyka wykonawcza francuskiej muzyki organowej XVII wieku według anonimowego rękopisu Manière de toucher l’orgue (ok. 1670-1685)
 Niniejszy artykuł dotyczy praktyki wykonawczej francuskiej muzyki organowej XVII wieku. Punktem wyjścia do poszukiwań w tym zakresie jest anonimowy rękopis Manière de toucher l’orgue dans toute la propreté et la délicatesse qui est en usage aujourd’hui à Paris (Maniery wykonawcze w grze na organach z uwzględnieniem stylu i subtelności stosowanych obecnie w Paryżu) przechowywany w Bibliothèque de l’Arsenal, Paris (ms. 3042, fol. 100-119). Manuskrypt ten został
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21

Ruiz-Palomero, Celia, Stuart R. Kennedy, M. Laura Soriano, Christopher D. Jones, Miguel Valcárcel, and Jonathan W. Steed. "Pharmaceutical crystallization with nanocellulose organogels." Chemical Communications 52, no. 50 (2016): 7782–85. http://dx.doi.org/10.1039/c6cc03088b.

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22

Zhang, Qierui, Frieder Mugele, Piet M. Lugt, and Dirk van den Ende. "Characterizing the fluid–matrix affinity in an organogel from the growth dynamics of oil stains on blotting paper." Soft Matter 16, no. 17 (2020): 4200–4209. http://dx.doi.org/10.1039/c9sm01965k.

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23

Pradhan, Balaram, Nirmalangshu Chakraborty, Ravindra Kumar Gupta, G. Shanker, and Ammathnadu S. Achalkumar. "Nonsymmetrical cholesterol dimers constituting regioisomeric oxadiazole and thiadiazole cores: an investigation of the structure–property correlation." New Journal of Chemistry 41, no. 2 (2017): 879–88. http://dx.doi.org/10.1039/c6nj03141b.

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24

He, Liu, Xia Ran, Jinxing Li, Qiongqiong Gao, Yanmin Kuang, and Lijun Guo. "A highly transparent and autonomic self-healing organogel from solvent regulation based on hydrazide derivatives." Journal of Materials Chemistry A 6, no. 34 (2018): 16600–16609. http://dx.doi.org/10.1039/c8ta04366c.

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25

Richards, Josh E., and Douglas Philp. "A reactive nitrone-based organogel that self-assembles from its constituents in chloroform." Chemical Communications 52, no. 28 (2016): 4995–98. http://dx.doi.org/10.1039/c6cc01259k.

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26

Asthana, Deepak, Sudhir K. Keshri, Geeta Hundal, Gyaneswar Sharma, and Pritam Mukhopadhyay. "Self-assembly patterns of steroid-based all-organic ferroelectrics: valuable insights from the single-crystals derived from an organogel and solution." CrystEngComm 16, no. 22 (2014): 4861–66. http://dx.doi.org/10.1039/c4ce00013g.

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27

Kostyanovsky, Remir G., Denis A. Lenev, Oleg N. Krutius, and Andrey A. Stankevich. "Chirality-directed organogel formation." Mendeleev Communications 15, no. 4 (2005): 140–41. http://dx.doi.org/10.1070/mc2005v015n04abeh002136.

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28

Eastoe, Julian, Margarita Sánchez-Dominguez, Paul Wyatt, and Richard K. Heenan. "A photo-responsive organogel." Chem. Commun., no. 22 (2004): 2608–9. http://dx.doi.org/10.1039/b410158h.

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29

Rahimi, AliReza, Abraham Herzog‐Arbeitman, and Jeannette M. García. "Conductive Recyclable Organogel Composites." Macromolecular Materials and Engineering 304, no. 4 (2019): 1800583. http://dx.doi.org/10.1002/mame.201800583.

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30

Lin, Qi, Xiao-Mei Jiang, Lu Liu, et al. "A novel supramolecular organogel based on acylhydrazone functionalized pillar[5]arene acts as an I− responsive smart material." Soft Matter 13, no. 39 (2017): 7222–26. http://dx.doi.org/10.1039/c7sm01576c.

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31

Katla, Jagadish, Akshay J. M. Nair, Abhijeet Ojha, and Sriram Kanvah. "Organogels composed of trifluoromethyl anthryl cyanostyrenes: enhanced emission and self-assembly." Photochemical & Photobiological Sciences 17, no. 4 (2018): 395–403. http://dx.doi.org/10.1039/c7pp00362e.

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32

Lu, Muwen, Yong Cao, Chi-Tang Ho, and Qingrong Huang. "The enhanced anti-obesity effect and reduced gastric mucosa irritation of capsaicin-loaded nanoemulsions." Food & Function 8, no. 5 (2017): 1803–9. http://dx.doi.org/10.1039/c7fo00173h.

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33

Vierros, S., and M. Sammalkorpi. "Role of hydration in phosphatidylcholine reverse micelle structure and gelation in cyclohexane: a molecular dynamics study." Physical Chemistry Chemical Physics 17, no. 22 (2015): 14951–60. http://dx.doi.org/10.1039/c5cp01799h.

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34

Nishimori, Kana, Esther Cazares-Cortes, Jean-Michel Guigner, Francois Tournilhac, and Makoto Ouchi. "Physical gelation of AB-alternating copolymers made of vinyl phenol and maleimide units: cooperation between precisely incorporated phenol and long alkyl pendant groups." Polymer Chemistry 10, no. 18 (2019): 2327–36. http://dx.doi.org/10.1039/c9py00329k.

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35

Yang, Xiaoli, Yejing Liu, Jiaheng Li, Qi Wang, Ming Yang, and Cong Li. "A novel aggregation-induced-emission-active supramolecular organogel for the detection of volatile acid vapors." New Journal of Chemistry 42, no. 21 (2018): 17524–32. http://dx.doi.org/10.1039/c8nj02616e.

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36

Klaewklod, Amornrat, Vimon Tantishaiyakul, Tanatchaporn Sangfai, Namon Hirun та Supagorn Rugmai. "Chemometric and Experimental Investigations of Organogelation Based on β-Cyclodextrin". Advanced Materials Research 1060 (грудень 2014): 133–36. http://dx.doi.org/10.4028/www.scientific.net/amr.1060.133.

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The evaluation of PEG as a gelation solvent for an organogel based on β-cyclodextrin (β-CyD) was investigated using principal component analysis (PCA). The test tube tilting method was performed to examine the gel formation experimentally. The important descriptors used in the PCA included the Hansen partial solubility parameters. LogP may be able to be used as an additional descriptor for this system. According to PCA analysis, PEG was in a cluster of gelation solvents. Subsequently, various PEG liquid state grades were tested for their ability to gel the system and PEG400 was found to be abl
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37

Tasaki-Handa, Yuiko, Yukie Abe, and Kenta Ooi. "Fabrication of a monolithic cryogel from the cyclohexane organogel of a coordination polymer based on a phosphoester." RSC Advances 6, no. 75 (2016): 71404–8. http://dx.doi.org/10.1039/c6ra12477a.

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38

Venkatesan, Guru A., and Stephen A. Sarles. "Droplet immobilization within a polymeric organogel improves lipid bilayer durability and portability." Lab on a Chip 16, no. 11 (2016): 2116–25. http://dx.doi.org/10.1039/c6lc00391e.

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39

Wang, Jing, Qian Jiang, Xingtian Hao, et al. "Reversible photo-responsive gel–sol transitions of robust organogels based on an azobenzene-containing main-chain liquid crystalline polymer." RSC Advances 10, no. 7 (2020): 3726–33. http://dx.doi.org/10.1039/c9ra10161f.

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40

Ikeda, Toshiaki, Kyohei Hirano, and Takeharu Haino. "A circularly polarized luminescent organogel based on a Pt(ii) complex possessing phenylisoxazoles." Materials Chemistry Frontiers 2, no. 3 (2018): 468–74. http://dx.doi.org/10.1039/c7qm00564d.

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41

Chatterjee, Sayantan, Balamurugan Kuppan, and Uday Maitra. "A self-assembled CdSe QD–organogel hybrid: photophysical and thermoresponsive properties." Dalton Transactions 47, no. 8 (2018): 2522–30. http://dx.doi.org/10.1039/c7dt04454b.

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42

Ren, Shujing, Huiqin Liang, Panpan Sun, Yanan Gao, and Liqiang Zheng. "A tri-responsive and fast self-healing organogel with stretchability based on multiple dynamic covalent bonds." New Journal of Chemistry 44, no. 4 (2020): 1609–14. http://dx.doi.org/10.1039/c9nj05201a.

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43

Guo, Xiwei, Changgeng Zhang, Lei Shi, Qi Zhang, and He Zhu. "Highly stretchable, recyclable, notch-insensitive, and conductive polyacrylonitrile-derived organogel." Journal of Materials Chemistry A 8, no. 39 (2020): 20346–53. http://dx.doi.org/10.1039/d0ta08168j.

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44

Liu, Zhi-Xiong, Yihua Sun, Yu Feng, Hui Chen, Yan-Mei He, and Qing-Hua Fan. "Halogen-bonding for visual chloride ion sensing: a case study using supramolecular poly(aryl ether) dendritic organogel systems." Chemical Communications 52, no. 11 (2016): 2269–72. http://dx.doi.org/10.1039/c5cc09082b.

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45

Liu, De-E., Qixian Chen, Yu-Bo Long, Jianbiao Ma, and Hui Gao. "A thermo-responsive polyurethane organogel for norfloxacin delivery." Polymer Chemistry 9, no. 2 (2018): 228–35. http://dx.doi.org/10.1039/c7py01803g.

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46

Yang, Jianjian, Hua Yan, Hansong Zhang, and Xuemei Wang. "Oil organogel system for magnetorheological fluid." RSC Advances 6, no. 114 (2016): 113463–68. http://dx.doi.org/10.1039/c6ra24257j.

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47

Yao, Hong, Hong-Ping Wu, Jing Chang, Qi Lin, Tai-Bao Wei, and You-Ming Zhang. "A carboxylic acid functionalized benzimidazole-based supramolecular gel with multi-stimuli responsive properties." New Journal of Chemistry 40, no. 6 (2016): 4940–44. http://dx.doi.org/10.1039/c5nj03422a.

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48

Kim, Hyungwoo, Jung Ho Ryu, Hwan Kyu Kim, and Ji Young Chang. "A versatile platform for lanthanide(iii)-containing organogelators: fabrication of the Er(iii)-incorporated polymer nanocomposite from an organogel template." New J. Chem. 41, no. 21 (2017): 12366–70. http://dx.doi.org/10.1039/c7nj02221b.

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49

Wezenberg, Sander J., Christelle M. Croisetu, Marc C. A. Stuart, and Ben L. Feringa. "Reversible gel–sol photoswitching with an overcrowded alkene-based bis-urea supergelator." Chemical Science 7, no. 7 (2016): 4341–46. http://dx.doi.org/10.1039/c6sc00659k.

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50

Galisteo-López, Juan F., Sandra Gómez-Esteban, Berta Gómez-Lor, and Cefe López. "Tunable emission in dye-doped truxene-based organogels through RET." Journal of Materials Chemistry C 3, no. 22 (2015): 5764–68. http://dx.doi.org/10.1039/c5tc00706b.

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