Your search keyword '"Alina Gorbunova"' showing total 2 results

1. New Trends in Nanoarchitectured SERS Substrates: Nanospaces, 2D Materials, and Organic Heterostructures

Author

Olga Guselnikova, Hyunsoo Lim, Hyun‐Jong Kim, Sung Hyun Kim, Alina Gorbunova, Miharu Eguchi, Pavel Postnikov, Takuya Nakanishi, Toru Asahi, Jongbeom Na, and Yusuke Yamauchi

Subjects

Biomaterials, General Materials Science, General Chemistry, Spectrum Analysis, Raman, Biotechnology, Nanostructures

Abstract

This article reviews recent fabrication methods for surface-enhanced Raman spectroscopy (SERS) substrates with a focus on advanced nanoarchitecture based on noble metals with special nanospaces (round tips, gaps, and porous spaces), nanolayered 2D materials, including hybridization with metallic nanostructures (NSs), and the contemporary repertoire of nanoarchitecturing with organic molecules. The use of SERS for multidisciplinary applications has been extensively investigated because the considerably enhanced signal intensity enables the detection of a very small number of molecules with molecular fingerprints. Nanoarchitecture strategies for the design of new NSs play a vital role in developing SERS substrates. In this review, recent achievements with respect to the special morphology of metallic NSs are discussed, and future directions are outlined for the development of available NSs with reproducible preparation and well-controlled nanoarchitecture. Nanolayered 2D materials are proposed for SERS applications as an alternative to the noble metals. The modern solutions to existing limitations for their applications are described together with the state-of-the-art in bio/environmental SERS sensing using 2D materials-based composites. To complement the existing toolbox of plasmonic inorganic NSs, hybridization with organic molecules is proposed to improve the stability of NSs and selectivity of SERS sensing by hybridizing with small or large organic molecules.

Published

2022

2. Supported Silver Nanoparticles as Catalysts for Liquid-Phase Betulin Oxidation

Author

Anna Grigoreva, Ekaterina Pakrieva, Dmitry Yu. Murzin, Alexey Pestryakov, Alina Gorbunova, E. Kolobova, Nina Bogdanchikova, Sónia A. C. Carabineiro, Päivi Mäki-Arvela, LAQV@REQUIMTE, and DQ - Departamento de Química

Subjects

Boehmite, acid-base properties of support, General Chemical Engineering, Silver nanoparticle, Article, betulin oxidation, Catalysis, law.invention, lcsh:Chemistry, chemistry.chemical_compound, Physisorption, Materials Science(all), law, Structure sensitivity, Betulin oxidation, structure sensitivity, General Materials Science, Calcination, Lewis acids and bases, Acid-base properties of support, Incipient wetness impregnation, Silver catalyst, alumina polymorphic modification, Betulin, silver catalyst, chemistry, lcsh:QD1-999, Alumina polymorphic modification, Chemical Engineering(all), Nuclear chemistry

Abstract

Herein, it has been shown that betulin can be transformed into its biologically active oxo-derivatives (betulone, betulinic and betulonic aldehydes) by liquid-phase oxidation over supported silver catalysts under mild conditions. In order to identify the main factors determining the catalytic behavior of nanosilver catalysts in betulin oxidation, silver was deposited on various alumina supports (γ-alumina and boehmite) using deposition–precipitation with NaOH and incipient wetness impregnation methods, followed by treatment in H2 or O2. Silver catalysts and the corresponding supports were characterized by X-ray diffraction, nitrogen physisorption, inductively coupled plasma optical emission spectroscopy, photoelectron spectroscopy and transmission electron microscopy. It was found that the support nature, preparation and treatment methods predetermine not only the average Ag nanoparticles size and their distribution, but also the selectivity of betulin oxidation, and thereby, the catalytic behavior of Ag catalysts. In fact, the support nature had the most considerable effect. Betulin conversion, depending on the support, increased in the following order: Ag/boehmite &lt, Ag/boehmite (calcined) &lt, Ag/γ-alumina. However, in the same order, the share of side reactions catalyzed by strong Lewis acid centers of the support also increased. Poisoning of the latter by NaOH during catalysts preparation can reduce side reactions. Additionally, it was revealed that the betulin oxidation catalyzed by nanosilver catalysts is a structure-sensitive reaction.

Published

2021