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Journal articles on the topic 'Bioimaging applications'

Author: Grafiati
Published: 4 June 2021
Last updated: 10 February 2022

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1

Nonappa. "Luminescent gold nanoclusters for bioimaging applications." Beilstein Journal of Nanotechnology 11 (March 30, 2020): 533–46. http://dx.doi.org/10.3762/bjnano.11.42.

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Luminescent nanomaterials have emerged as attractive candidates for sensing, catalysis and bioimaging applications in recent years. For practical use in bioimaging, nanomaterials with high photoluminescence, quantum yield, photostability and large Stokes shifts are needed. While offering high photoluminescence and quantum yield, semiconductor quantum dots suffer from toxicity and are susceptible to oxidation. In this context, atomically precise gold nanoclusters protected by thiol monolayers have emerged as a new class of luminescent nanomaterials. Low toxicity, bioavailability, photostability
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2

Escobedo, Jorge O., Oleksandr Rusin, Soojin Lim, and Robert M. Strongin. "NIR dyes for bioimaging applications." Current Opinion in Chemical Biology 14, no. 1 (2010): 64–70. http://dx.doi.org/10.1016/j.cbpa.2009.10.022.

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3

Terai, Takuya, and Tetsuo Nagano. "Fluorescent probes for bioimaging applications." Current Opinion in Chemical Biology 12, no. 5 (2008): 515–21. http://dx.doi.org/10.1016/j.cbpa.2008.08.007.

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4

Fatima, Atiya, Md Wasi Ahmad, Abdullah Khamis Ali Al Saidi, Arup Choudhury, Yongmin Chang, and Gang Ho Lee. "Recent Advances in Gadolinium Based Contrast Agents for Bioimaging Applications." Nanomaterials 11, no. 9 (2021): 2449. http://dx.doi.org/10.3390/nano11092449.

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Gadolinium (Gd) based contrast agents (CAs) (Gd-CAs) represent one of the most advanced developments in the application of Gd for magnetic resonance imaging (MRI). Current challenges with existing CAs generated an urgent requirement to develop multimodal CAs with good biocompatibility, low toxicity, and prolonged circulation time. This review discussed the Gd-CAs used in bioimaging applications, addressing their advantages and limitations. Future research is required to establish the safety, efficacy and theragnostic capabilities of Gd-CAs. Nevertheless, these Gd-CAs offer extraordinary potent
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5

Muñoz-Flores, Blanca M., Abigail Molina-Paredes, Jesús Lara-Cerón, and Víctor M. Jiménez-Pérez. "Recent advances of synthesis of Boron derivatives and their applications in bioimaging." International Journal of Advances in Medical Biotechnology - IJAMB 1, no. 1 (2018): 8. http://dx.doi.org/10.25061/2595-3931/ijamb/2018.v1i1.6.

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The increasing interest in the luminescent boron materials is due to their potential application in diverse areas such as solar cells, optoelectronic devices, and biological imaging materials. Continuous search for the compounds with better properties, luminescent organoboron materials have been gaining more importance, especially in the development of new technologies and novel techniques for bioimaging, which is a powerful tool to analyze the cellular organelles with important value into the cell biology and medical research. Synthesis, properties, and applications of luminescent boron compo
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6

Ueno, Shoogo, and Masaki Sekino. "Biomagnetics and bioimaging for medical applications." Journal of Magnetism and Magnetic Materials 304, no. 1 (2006): 122–27. http://dx.doi.org/10.1016/j.jmmm.2006.01.252.

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7

Scheer, Hugo, Xiaojing Yang, and Kai-Hong Zhao. "Biliproteins and their Applications in Bioimaging." Procedia Chemistry 14 (2015): 176–85. http://dx.doi.org/10.1016/j.proche.2015.03.026.

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8

Doble, P. "Elemental Bioimaging." Journal of Proteomics & Bioinformatics S2, no. 01 (2008): 125. http://dx.doi.org/10.4172/jpb.s1000099.

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9

Liu, Weijian, Chun Li, Yanjing Ren, et al. "Carbon dots: surface engineering and applications." Journal of Materials Chemistry B 4, no. 35 (2016): 5772–88. http://dx.doi.org/10.1039/c6tb00976j.

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10

Aoki, Kazuhiro. "2-1 Bioimaging Technologies; Bioimaging with Fluorescence Microscopy." Journal of the Institute of Image Information and Television Engineers 67, no. 9 (2013): 742–47. http://dx.doi.org/10.3169/itej.67.742.

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11

Lim, Shi Ying, Wei Shen, and Zhiqiang Gao. "Carbon quantum dots and their applications." Chemical Society Reviews 44, no. 1 (2015): 362–81. http://dx.doi.org/10.1039/c4cs00269e.

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This review covers the progress in the research and development of carbon quantum dots and their applications in chemical sensing, biosensing, bioimaging, nanomedicine, photocatalysis and electrocatalysis.
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12

Kasouni, Athanasia, Theodoros Chatzimitakos, and Constantine Stalikas. "Bioimaging Applications of Carbon Nanodots: A Review." C 5, no. 2 (2019): 19. http://dx.doi.org/10.3390/c5020019.

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Carbon nanodots (CNDs) is the newest member of carbon-based nanomaterials and one of the most promising for the development of new, advanced applications. Owing to their unique and unparalleled physicochemical and photoluminescent properties, they are considered to be a rising star among nanomaterials. During the last decade, many applications have been developed based on CNDs. Among others, they have been used as bioimaging agents to label cells and tissues. In this review, we will discuss the advancements in the applications of CNDs in in the field of imaging, in all types of organisms (i.e.
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13

NAGANO, Tetsuo. "Development of fluorescent probes for bioimaging applications." Proceedings of the Japan Academy, Series B 86, no. 8 (2010): 837–47. http://dx.doi.org/10.2183/pjab.86.837.

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14

Erathodiyil, Nandanan, and Jackie Y. Ying. "Functionalization of Inorganic Nanoparticles for Bioimaging Applications." Accounts of Chemical Research 44, no. 10 (2011): 925–35. http://dx.doi.org/10.1021/ar2000327.

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15

Bolakis, Christos, Irene S. Karanasiou, Dragoslav Grbovic, Gamani Karunasiri, and Nikolaos Uzunoglu. "Optimizing detection methods for terahertz bioimaging applications." Optical Engineering 54, no. 6 (2015): 067107. http://dx.doi.org/10.1117/1.oe.54.6.067107.

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16

Sharma, Rahul Kumar, Sandeep Nigam, Yogendra Nath Chouryal, et al. "Eu-Doped BaF2 Nanoparticles for Bioimaging Applications." ACS Applied Nano Materials 2, no. 2 (2019): 927–36. http://dx.doi.org/10.1021/acsanm.8b02180.

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17

Mousavi, Seyyed Mojtaba, Maryam Zarei, Seyyed Alireza Hashemi, et al. "Gold nanostars-diagnosis, bioimaging and biomedical applications." Drug Metabolism Reviews 52, no. 2 (2020): 299–318. http://dx.doi.org/10.1080/03602532.2020.1734021.

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18

Hu, Rong, Xiao-Bing Zhang, Rong-Mei Kong, Xu-Hua Zhao, Jianhui Jiang, and Weihong Tan. "Nucleic acid-functionalized nanomaterials for bioimaging applications." Journal of Materials Chemistry 21, no. 41 (2011): 16323. http://dx.doi.org/10.1039/c1jm12588e.

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19

Dong, Shuping, and Maren Roman. "Fluorescently Labeled Cellulose Nanocrystals for Bioimaging Applications." Journal of the American Chemical Society 129, no. 45 (2007): 13810–11. http://dx.doi.org/10.1021/ja076196l.

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20

Dias, Gleiston G., Pamella V. B. Pinho, Hélio A. Duarte, et al. "Fluorescent oxazoles from quinones for bioimaging applications." RSC Advances 6, no. 79 (2016): 76056–63. http://dx.doi.org/10.1039/c6ra14701a.

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This work describes a synthetic strategy for the syntheses of four new fluorescent excited state intramolecular proton transfer (ESIPT) prone oxazole derivatives synthesized from lapachol, a naturally occurring naphthoquinone isolated from the Tabebuia species (ipe tree).
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21

Boakye-Yiadom, Kofi Oti, Samuel Kesse, Yaw Opoku-Damoah, et al. "Carbon dots: Applications in bioimaging and theranostics." International Journal of Pharmaceutics 564 (June 2019): 308–17. http://dx.doi.org/10.1016/j.ijpharm.2019.04.055.

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22

Kang, Zhenhui, and Shuit-Tong Lee. "Carbon dots: advances in nanocarbon applications." Nanoscale 11, no. 41 (2019): 19214–24. http://dx.doi.org/10.1039/c9nr05647e.

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We highlight the recent progress in the practical applications of C-Dots, with particular attention to the research in light-emitting devices, bioimaging and biodetection, catalysis, functional materials, and agriculture.
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23

Morselli, Giacomo, Marco Villa, Andrea Fermi, Kevin Critchley, and Paola Ceroni. "Luminescent copper indium sulfide (CIS) quantum dots for bioimaging applications." Nanoscale Horizons 6, no. 9 (2021): 676–95. http://dx.doi.org/10.1039/d1nh00260k.

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24

Wen, Jia, Yongqian Xu, Hongjuan Li, Aiping Lu, and Shiguo Sun. "Recent applications of carbon nanomaterials in fluorescence biosensing and bioimaging." Chemical Communications 51, no. 57 (2015): 11346–58. http://dx.doi.org/10.1039/c5cc02887f.

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25

Yang, Hui, Yi Zhang, Sihui Chen, and Rui Hao. "Micro-optical Components for Bioimaging on Tissues, Cells and Subcellular Structures." Micromachines 10, no. 6 (2019): 405. http://dx.doi.org/10.3390/mi10060405.

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Bioimaging generally indicates imaging techniques that acquire biological information from living forms. Among different imaging techniques, optical microscopy plays a predominant role in observing tissues, cells and biomolecules. Along with the fast development of microtechnology, developing miniaturized and integrated optical imaging systems has become essential to provide new imaging solutions for point-of-care applications. In this review, we will introduce the basic micro-optical components and their fabrication technologies first, and further emphasize the development of integrated optic
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26

Li, Weitao, Ningjia Jiang, Bin Wu, Yuan Liu, Luoman Zhang, and Jianxin He. "Chlorine Modulation Fluorescent Performance of Seaweed-Derived Graphene Quantum Dots for Long-Wavelength Excitation Cell-Imaging Application." Molecules 26, no. 16 (2021): 4994. http://dx.doi.org/10.3390/molecules26164994.

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Biological imaging is an essential means of disease diagnosis. However, semiconductor quantum dots that are used in bioimaging applications comprise toxic metal elements that are nonbiodegradable, causing serious environmental problems. Herein, we developed a novel ecofriendly solvothermal method that uses ethanol as a solvent and doping with chlorine atoms to prepare highly fluorescent graphene quantum dots (GQDs) from seaweed. The GQDs doped with chlorine atoms exhibit high-intensity white fluorescence. Thus, their preliminary application in bioimaging has been confirmed. In addition, clear
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27

Li, Hongxia, Xu Yan, Deshuai Kong, et al. "Recent advances in carbon dots for bioimaging applications." Nanoscale Horizons 5, no. 2 (2020): 218–34. http://dx.doi.org/10.1039/c9nh00476a.

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This review summarized recent advances in CDs-based bioimaging including in vitro imaging in delivering CDs into different types of cells and in vivo applications in distribution and uptake of CDs, imaging-guild drug delivery and tumor therapeutics.
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28

Mauro, Matteo, Alessandro Aliprandi, Dedy Septiadi, Nermin Seda Kehr, and Luisa De Cola. "When self-assembly meets biology: luminescent platinum complexes for imaging applications." Chem. Soc. Rev. 43, no. 12 (2014): 4144–66. http://dx.doi.org/10.1039/c3cs60453e.

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29

Yan, Li, Sevil Gonca, Guangyu Zhu, Wenjun Zhang, and Xianfeng Chen. "Layered double hydroxide nanostructures and nanocomposites for biomedical applications." Journal of Materials Chemistry B 7, no. 37 (2019): 5583–601. http://dx.doi.org/10.1039/c9tb01312a.

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Layered double hydroxide (LDH) nanostructures and related nanocomposites have attracted significant interest in biomedical applications including cancer therapy, bioimaging and antibacterial treatment.
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30

Sun, Bo, Xu Zhen, and Xiqun Jiang. "Development of mesoporous silica-based nanoprobes for optical bioimaging applications." Biomaterials Science 9, no. 10 (2021): 3603–20. http://dx.doi.org/10.1039/d1bm00204j.

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31

Wang, Guan, Junlong Geng, and Ye Liu. "Biocompatible Carbon Dots Clusters with Tunable Sizes for Bioimaging Application." Nano LIFE 06, no. 01 (2016): 1640001. http://dx.doi.org/10.1142/s1793984416400018.

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Carbon dots (Cdots) have been widely applied in labeling cellular or subcellular targets with high resolution due to their small sizes and benign biocompatibility. However, their use for in vivo application suffered from the rapid renal clearance due to their tiny size (c.a. [Formula: see text]6[Formula: see text]nm in diameter). To overcome the drawback, we herein report a sonication assisted method for the preparation of Cdots clusters with tunable sizes. Pluronic F127 was used as the carrier to form the clusters and the feeding ratio of the Cdots to F127 was varied in order to tune the size
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32

Li, Jitao, Asma Khalid, Rajni Verma, et al. "Silk Fibroin Coated Magnesium Oxide Nanospheres: A Biocompatible and Biodegradable Tool for Noninvasive Bioimaging Applications." Nanomaterials 11, no. 3 (2021): 695. http://dx.doi.org/10.3390/nano11030695.

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Fluorescent nanoparticles (NPs) have been increasingly studied as contrast agents for better understanding of biological processes at the cellular and molecular level. However, their use as bioimaging tools is strongly dependent on their optical emission as well as their biocompatibility. This work reports the fabrication and characterization of silk fibroin (SF) coated magnesium oxide (MgO) nanospheres, containing oxygen, Cr3+ and V2+ related optical defects, as a nontoxic and biodegradable hybrid platform for bioimaging applications. The MgO-SF spheres demonstrated enhanced emission efficien
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33

Chen, Juan, Hongmin Meng, Yuan Tian, et al. "Recent advances in functionalized MnO2 nanosheets for biosensing and biomedicine applications." Nanoscale Horizons 4, no. 2 (2019): 321–38. http://dx.doi.org/10.1039/c8nh00274f.

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34

Zaderenko, A. P., C. Caro, M. de la Mata, J. A. Sánchez, and M. J. Sayagués. "Microstructural Characterization of Silver Nanoparticles for Bioimaging Applications." Microscopy and Microanalysis 18, S5 (2012): 53–54. http://dx.doi.org/10.1017/s1431927612012925.

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Silver nanoparticles are emerging as a powerful tool in bioimaging applications owing to their unique plasmonic properties i.e., extremely high molar extinction coefficients, resonant Rayleigh scattering and enhanced local electromagnetic fields. Through the optimization of these properties, by controlling composition, size, shape, and interparticle spacing of nanoparticles and their assemblies, highly enhanced local electromagnetic fields in the vicinity of nanoparticles are achievable giving rise to IR, Raman and fluorescence surface enhanced spectroscopies (SEIRS, SERS and MEF, respectively
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35

Eixenberger, Josh E., Catherine B. Anders, Katelyn Wada, et al. "Defect Engineering of ZnO Nanoparticles for Bioimaging Applications." ACS Applied Materials & Interfaces 11, no. 28 (2019): 24933–44. http://dx.doi.org/10.1021/acsami.9b01582.

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36

Hou, Ji-Ting, Wen Xiu Ren, Kun Li, et al. "Fluorescent bioimaging of pH: from design to applications." Chemical Society Reviews 46, no. 8 (2017): 2076–90. http://dx.doi.org/10.1039/c6cs00719h.

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37

Filippi, M., D. Patrucco, J. Martinelli, et al. "Novel stable dendrimersome formulation for safe bioimaging applications." Nanoscale 7, no. 30 (2015): 12943–54. http://dx.doi.org/10.1039/c5nr02695d.

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Novel low-generation Janus dendrimers were studied to assess their ability to self-assemble into dendrimersomes and to load the magnetic resonance imaging agent Gadoteridol. Stability and biocompatibility of the nanovesicles were investigated in biological fluids, on cell cultures and in healthy mice.
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38

Kairdolf, Brad A., Andrew M. Smith, Todd H. Stokes, May D. Wang, Andrew N. Young, and Shuming Nie. "Semiconductor Quantum Dots for Bioimaging and Biodiagnostic Applications." Annual Review of Analytical Chemistry 6, no. 1 (2013): 143–62. http://dx.doi.org/10.1146/annurev-anchem-060908-155136.

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39

Sathiyamoorthy, Krishnan, Eric M. Strohm, and Michael C. Kolios. "Low-power noncontact photoacoustic microscope for bioimaging applications." Journal of Biomedical Optics 22, no. 4 (2017): 046001. http://dx.doi.org/10.1117/1.jbo.22.4.046001.

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40

Butler, Kimberly S., Charles J. Pearce, Elizabeth A. Nail, Grace A. Vincent, and Dorina F. Sava Gallis. "Antibody Targeted Metal–Organic Frameworks for Bioimaging Applications." ACS Applied Materials & Interfaces 12, no. 28 (2020): 31217–24. http://dx.doi.org/10.1021/acsami.0c07835.

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41

Kim, Hwan Myung, and Bong Rae Cho. "Small-Molecule Two-Photon Probes for Bioimaging Applications." Chemical Reviews 115, no. 11 (2015): 5014–55. http://dx.doi.org/10.1021/cr5004425.

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42

NAGANO, Tetsuo. "Development and Biological Applications of Various Bioimaging Probes." YAKUGAKU ZASSHI 126, no. 10 (2006): 901–13. http://dx.doi.org/10.1248/yakushi.126.901.

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43

Zheng, Xiaoke, Shuli Zeng, Jing Hu, Lan Wu, and Xiandeng Hou. "Applications of silica-based nanoparticles for multimodal bioimaging." Applied Spectroscopy Reviews 53, no. 5 (2018): 377–94. http://dx.doi.org/10.1080/05704928.2017.1355312.

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44

Tsang, Ming-Kiu, Yuen-Ting Wong, and Jianhua Hao. "Cutting-Edge Nanomaterials for Advanced Multimodal Bioimaging Applications." Small Methods 2, no. 1 (2017): 1700265. http://dx.doi.org/10.1002/smtd.201700265.

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45

Shi, Haitang, Jianfei Wei, Li Qiang, Xue Chen, and Xianwei Meng. "Fluorescent Carbon Dots for Bioimaging and Biosensing Applications." Journal of Biomedical Nanotechnology 10, no. 10 (2014): 2677–99. http://dx.doi.org/10.1166/jbn.2014.1881.

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46

Manikandamathavan, Verasundaram M., Natarajan Duraipandy, Manikantan S. Kiran, Vaidyanathan G. Vaidyanathan, and Balachandran U. Nair. "A new platinum(ii) complex for bioimaging applications." RSC Advances 5, no. 32 (2015): 24877–85. http://dx.doi.org/10.1039/c5ra00002e.

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A new Pt(ii) complex bearing terpyridine derivative exhibit specificity towards nuclear DNA. The staining ability has been explored in cell imaging as well as in gel electrophoresis an alternative to highly mutagenic ethidium bromide.
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47

He, Longwei, Xueling Yang, Yong Liu, Xiuqi Kong, and Weiying Lin. "A ratiometric fluorescent formaldehyde probe for bioimaging applications." Chemical Communications 52, no. 21 (2016): 4029–32. http://dx.doi.org/10.1039/c5cc09796g.

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48

Wang, Huai-Song. "Metal–organic frameworks for biosensing and bioimaging applications." Coordination Chemistry Reviews 349 (October 2017): 139–55. http://dx.doi.org/10.1016/j.ccr.2017.08.015.

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49

Xiao, Yan, Zhennan Wu, Qiaofeng Yao, and Jianping Xie. "Luminescent metal nanoclusters: Biosensing strategies and bioimaging applications." Aggregate 2, no. 1 (2021): 114–32. http://dx.doi.org/10.1002/agt2.11.

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50

Colas, Kilian, Susanne Doloczki, Mauricio Posada Urrutia, and Christine Dyrager. "Prevalent Bioimaging Scaffolds: Synthesis, Photophysical Properties and Applications." European Journal of Organic Chemistry 2021, no. 15 (2021): 2133–44. http://dx.doi.org/10.1002/ejoc.202001658.

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