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2023 | 28 | 160-165

Article title

PREPARATION AND PHYSICOCHEMICAL CHARACTERISTICS OF AN IODINE AND BISMUTH CONTAINING COMPOSITE MATERIAL BASED ON CHITOSAN

Content

Title variants

Languages of publication

EN

Abstracts

EN
We created composite materials by using a straightforward method, combining chitosan, iodine, and bismuth. We used two chitosan with two different molecular masses. We used iodine in the composites as chitosan iodide and bismuth in the form of tetraiodobismuthanuide. We analysed the resulting materials with scanning electron microscopy, X-ray diffraction, temperature-programmed desorption mass spectrometry, and visible light spectroscopy. We observed that bismuth and iodine were evenly distributed throughout the composites and did not separate into distinct phases. These composite materials have the ability to form organised porous sponges, making them suitable for a wide range of applications in different fields.

Keywords

EN

Year

Volume

28

Pages

160-165

Physical description

Contributors

  • Institute of Applied Physics, NAS of Ukraine, 58 Petropavlovska Str., 40000 Sumy, Ukraine
  • Institute of Applied Physics, NAS of Ukraine, 58 Petropavlovska Str., 40000 Sumy, Ukraine
  • Institute of Applied Physics, NAS of Ukraine, 58 Petropavlovska Str., 40000 Sumy, Ukraine
  • Institute of Applied Physics, NAS of Ukraine, 58 Petropavlovska Str., 40000 Sumy, Ukraine

References

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  • [3] Zhao X, Yu G, Yang G; (2004) Carboxymethyl chitosan potassium zinc bismuth and preparation process and application thereof. Patent CN100415773C.
  • [4] Ding H, Chen Z; (2008) Highly bioadhesive and thermosensitive hydrogel, and preparation method and application thereof. Patent CN101297973B.
  • [5] Li X, Zhu X, Wang X, Yuan Y, Guo S; (2012) Bismuth alginate and preparation method and application thereof. Patent CN102558383B.
  • [6] Li Q, Li C, Xiao S, Jiang J, Yao F, Liu W, Tao L, Li A, Li J, Yang G, Cai Z, Li X; (2012) Synthesis of mononuclear (polynuclear) complex of Schiff’s base and bismuth. Patent CN103073598A.
  • [7] Li A, Yu X, Zhu P, Qin Z, Wu Y, Gao N; (2016) Acid-soluble chitosan bismuth and preparation method and application thereof. Patent CN106699925A.
  • [8] Liu W, Han B, Sun M, Sang Q; (2016) Preparation of carboxymethyl chitin bismuth and its application in treating gastritis and gastrelcoma. Patent CN1513882A.
  • [9] Taufik S, Yusof NA, Tee TW, Ramli I; (2011) Bismuth oxide nanoparticles/chitosan/modified electrode as biosensor for DNA hybridization. Int J Electrochem Sci 6, 1880–1891. DOI:10.1016/S1452–3981(23)18153–3
  • [10] Asadpour-Zeynali K, Mollarasouli F; (2014) Bismuth and bismuth-chitosan modified electrodes for determination of two synthetic food colorants by net analyte signal standard addition method. Cent Eur J Chem 12(6), 711–718. DOI:10.2478/s11532–014–0529-z 1
  • [11] Hwang JH, Pathak P, Wang X, Rodriguez KL, Cho HJ, Lee WH; (2019) A novel bismuth-chitosan nanocomposite sensor for simultaneous detection of Pb(II), Cd(II), and Zn (II) in wastewater. Micromachines 10, 511. DOI:10.3390/mi100805115
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  • [13] Sklyar AM, Kalinkevich OV, Chivanov VD, Ryabyshev AG, Kalinkevich AN, Danilchenko SN; (2018) Chitosan iodide: its obtaining, characterization, and thermal behavior. Proc RAS UFA Sci Center 3(2), 56–59. DOI:10.31040/2222–8349–2018–2-3–56–59
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  • [15] Chakraborty A, Pai N, Zhao J, Tuttle BR, Simonov AN, Pecunia V; (2022) Rudorffites and beyond: perovskite-inspired silver/copper pnictohalides for nextgeneration environmentally friendly photovoltaics and optoelectronics. Adv Funct Mater 32, 2203300. DOI:10.1002/adfm.202203300

Document Type

article

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YADDA identifier

bwmeta1.element.psjd-c73dc63e-19af-4ba0-bfa6-f70ac80b173b
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