V
Vitaliy L. Budarin
Researcher at University of York
Publications - 124
Citations - 5334
Vitaliy L. Budarin is an academic researcher from University of York. The author has contributed to research in topics: Pyrolysis & Mesoporous material. The author has an hindex of 30, co-authored 121 publications receiving 4059 citations. Previous affiliations of Vitaliy L. Budarin include University of Córdoba (Spain) & Spanish National Research Council.
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Mesoporous carbonaceous materials, preparation and use thereof
Vitaliy L. Budarin,James H. Clark,Rafael Luque,Duncan J. Macquarrie,Krzysztof Milkowski,Robin J. White +5 more
TL;DR: In this article, a carbonaceous material is derived from a polysaccharide by carbonisation, and it is used as a solid catalytic support for a single-input single-output (SISO) system.
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Simple Preparation of Novel Metal-Containing Mesoporous Starches
Manuel Ojeda,Vitaliy L. Budarin,Peter S. Shuttleworth,James H. Clark,Antonio Pineda,Alina M. Balu,Antonio A. Romero,Rafael Luque +7 more
TL;DR: Metal-containing mesoporous starches have been synthesized using a simple and efficient microwave-assisted methodology followed by metal impregnation in the porous gel network and may find promising catalytic applications due to the presence of (hydr)oxides in their composition.
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Starbon®400-HSO3: A green mesoporous carbonaceous solid acid catalyst for the Ritter reaction
TL;DR: The Starbon 400-HSO 3 was used as a green and easily recovered mesoporous carbonaceous solid acid catalyst and applied for the first time to more complex naturally-derived substrates, such as steroids as discussed by the authors.
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An Interesting Class of Porous Polymer-Revisiting the Structure of Mesoporous α-d-Polysaccharide Gels
Robin J. White,Robin J. White,Peter S. Shuttleworth,Vitaliy L. Budarin,Mario De bruyn,Anna Fischer,James H. Clark +6 more
TL;DR: It is found that an increase in the overall double helical amylose content, and their local association structures, are responsible for formation of the porous polysaccharide gel phase.
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Synthesis and application of tuneable carbon─silica composites from the microwave pyrolysis of waste paper for selective recovery of gold from acidic solutions
Konstantina Sotiriou,Nontipa Supanchaiyamat,Tengyao Jiang,Intuorn Janekarn,Andrea Muñoz García,Vitaliy L. Budarin,Duncan J. Macquarrie,Andrew J. Hunt +7 more
TL;DR: This article used microwave pyrolysis bio-oil from waste paper and K60 silica gel to synthesize mesoporous carbon-silica composites with uniquely tuneable surface properties, where functionality and structural characteristics can be altered and enhanced by curing at different temperatures.