Аннотация:
A new type of composite oxygen biosensor has been developed. It is based on fine tuning the adhesive and fouling properties of the surface employing modified nanodiamonds with various functional groups. Operability of the sensor has been demonstrated using Pseudomonas putida K12 bacteria.
Образец цитирования:
P. V. Melnikov, A. Yu. Aleksandrovskaya, A. V. Safonov, N. M. Popova, B. V. Spitsyn, A. O. Naumova, N. K. Zaitsev, “Tuning the wetting angle of fluorinated polymer with modified nanodiamonds: towards new type of biosensors”, Mendeleev Commun., 30:4 (2020), 453–455
Образцы ссылок на эту страницу:
https://www.mathnet.ru/rus/mendc1220
https://www.mathnet.ru/rus/mendc/v30/i4/p453
Эта публикация цитируется в следующих 11 статьяx:
Veronika Fedina, Daria Lavrova, Tatyana Dyachkova, Anastasia Pasko, Anton Zvonarev, Victor Panfilov, Olga Ponamoreva, Sergey Alferov, “Polymer-Based Conductive Nanocomposites for the Development of Bioanodes Using Membrane-Bound Enzyme Systems of Bacteria Gluconobacter oxydans in Biofuel Cells”, Polymers, 15:5 (2023), 1296
K. E. Chekurov, A. I. Barabanova, I. V. Blagodatskikh, O. V. Vyshivannaya, A. V. Muranov, A. S. Peregudov, A. R. Khokhlov, “Polymerization of 2-(Perfluorohexyl)ethyl Methacrylate in the Presence of 2-Cyano-2-propyl Dithiobenzoate in Supercritical CO2”, Dokl Chem, 503:2 (2022), 57
Vyacheslav A. Arlyapov, Yulia V. Plekhanova, Olga A. Kamanina, Hideaki Nakamura, Anatoly N. Reshetilov, “Microbial Biosensors for Rapid Determination of Biochemical Oxygen Demand: Approaches, Tendencies and Development Prospects”, Biosensors, 12:10 (2022), 842
Pavel V. Melnikov, Anastasia Yu. Alexandrovskaya, Alina O. Naumova, Vyacheslav A. Arlyapov, Olga A. Kamanina, Nadezhda M. Popova, Nikolay K. Zaitsev, Nikolay A. Yashtulov, “Optical Oxygen Sensing and Clark Electrode: Face-to-Face in a Biosensor Case Study”, Sensors, 22:19 (2022), 7626
Alena L. Krapivko, Yegor D. Ryabkov, Fedor V. Drozdov, Nikolay A. Yashtulov, Nikolay K. Zaitsev, Aziz M. Muzafarov, “Chemical Structural Coherence Principle on Polymers for Better Adhesion”, Polymers, 14:14 (2022), 2829
Pavel Melnikov, Alexander Bobrov, Yuriy Marfin, “On the Use of Polymer-Based Composites for the Creation of Optical Sensors: A Review”, Polymers, 14:20 (2022), 4448
Lyubov S. Kuznetsova, Vyacheslav A. Arlyapov, Olga A. Kamanina, Elizaveta A. Lantsova, Sergey E. Tarasov, Anatoly N. Reshetilov, “Development of Nanocomposite Materials Based on Conductive Polymers for Using in Glucose Biosensor”, Polymers, 14:8 (2022), 1543
László Mérai, Ágota Deák, Imre Dékány, László Janovák, “Fundamentals and utilization of solid/ liquid phase boundary interactions on functional surfaces”, Advances in Colloid and Interface Science, 303 (2022), 102657
O. A. Soboleva, “Stabilization of nanodiamond dispersions with nonionic surfactant Igepal CA-630 in water and dimethyl sulfoxide”, Mendeleev Commun., 32:3 (2022), 411–413
Yu. V. Kulvelis, O. N. Primachenko, I. V. Gofman, A. S. Odinokov, A. V. Shvidchenko, E. B. Yudina, E. A. Marinenko, V. T. Lebedev, A. Ya. Vul, “Modification of the mechanism of proton conductivity of the perfluorinated membrane copolymer by nanodiamonds”, Russ Chem Bull, 70:9 (2021), 1713
Pavel V. Melnikov, Anastasia Yu. Alexandrovskaya, Alina O. Naumova, Nadezhda M. Popova, Boris V. Spitsyn, Nikolay K. Zaitsev, Nikolay A. Yashtulov, “Modified Nanodiamonds as a Means of Polymer Surface Functionalization. From Fouling Suppression to Biosensor Design”, Nanomaterials, 11:11 (2021), 2980
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