| Cycloaddition of Biomass-Derived Furans for Catalytic Production of Renewable p-Xylene CL Williams, CC Chang, P Do, N Nikbin, S Caratzoulas, DG Vlachos, ... Acs Catalysis 2 (6), 935-939, 2012 | 488 | 2012 |
| A DFT study of the acid-catalyzed conversion of 2, 5-dimethylfuran and ethylene to p-xylene N Nikbin, PT Do, S Caratzoulas, RF Lobo, PJ Dauenhauer, DG Vlachos Journal of catalysis 297, 35-43, 2013 | 177 | 2013 |
| Diels–Alder cycloaddition of 2-methylfuran and ethylene for renewable toluene SK Green, RE Patet, N Nikbin, CL Williams, CC Chang, J Yu, RJ Gorte, ... Applied Catalysis B: Environmental 180, 487-496, 2016 | 126 | 2016 |
| Kinetic regime change in the tandem dehydrative aromatization of furan Diels–Alder products RE Patet, N Nikbin, CL Williams, SK Green, CC Chang, W Fan, ... Acs Catalysis 5 (4), 2367-2375, 2015 | 114 | 2015 |
| p-Xylene Formation by Dehydrative Aromatization of a Diels–Alder Product in Lewis and Brønsted Acidic Zeolites N Nikbin, S Feng, S Caratzoulas, DG Vlachos The Journal of Physical Chemistry C 118 (42), 24415-24424, 2014 | 98 | 2014 |
| A First Principles‐Based Microkinetic Model for the Conversion of Fructose to 5‐Hydroxymethylfurfural N Nikbin, S Caratzoulas, DG Vlachos ChemCatChem 4 (4), 504-511, 2012 | 69 | 2012 |
| On the Brønsted Acid-Catalyzed Homogeneous Hydrolysis of Furans. N Nikbin, S Caratzoulas, DG Vlachos ChemSusChem 6 (11), 2013 | 49 | 2013 |
| Catalysis at the sub-nanoscale: complex CO oxidation chemistry on a few Au atoms N Nikbin, N Austin, DG Vlachos, M Stamatakis, G Mpourmpakis Catalysis Science & Technology 5 (1), 134-141, 2015 | 36 | 2015 |
| A Combined DFT and Statistical Mechanics Study for the CO Oxidation on the Au10–1 Cluster N Nikbin, G Mpourmpakis, DG Vlachos The Journal of Physical Chemistry C 115 (41), 20192-20200, 2011 | 35 | 2011 |
| Inhibition of xylene isomerization in the production of renewable aromatic chemicals from biomass-derived furans CL Williams, KP Vinter, RE Patet, CC Chang, N Nikbin, S Feng, ... Acs Catalysis 6 (3), 2076-2088, 2016 | 29 | 2016 |
| On the oligomerization mechanism of Brønsted acid-catalyzed conversion of furans to diesel-range fuels N Nikbin, S Caratzoulas, DG Vlachos Applied Catalysis A: General 485, 118-122, 2014 | 17 | 2014 |
| Purification of biomolecules combining ATPS and membrane chromatography M Puthirasigamany, I Hamm, FA Van Winssen, N Nikbin, P Kreis, A Gorak, ... Food and Bioproducts Processing 92 (2), 152-160, 2014 | 9 | 2014 |
| Continuous reactor network design for rigid polyol production Y Wen, LT Biegler, MP Ochoa, L Matthews, J Ferrio, J Weston, N Nikbin Chemical Engineering Science 230, 116189, 2021 | 8 | 2021 |
| Cycloaddition of Biomass-derived Furans for Catalytic Production of p-Xylene CL Williams, CC Chang, P Do, N Nikbin, S Caratzoulas, DG Vlachos, ... ACS Catalysis 2 (5), 2012 | 1 | 2012 |
| Semi-batch process for making polycarbonate polyols via copolymerization of carbon dioxide and an oxirane N Nikbin, DA Babb US Patent 11,566,105, 2023 | | 2023 |
| Continuous reactor network design for multi‐product rigid polyols under uncertainty Y Wen, LT Biegler, MP Ochoa, J Weston, N Nikbin, J Ferrio Journal of Advanced Manufacturing and Processing 4 (3), e10122, 2022 | | 2022 |
| Purification process for polyether-carbonate polyols MA Bigi, N Nikbin US Patent App. 17/424,259, 2022 | | 2022 |
| Continuous reactor network design for multiple rigid polyol productions Y Wen, LT Biegler, MP Ochoa, J Weston, N Nikbin, J Ferrio Journal of Advanced Manufacturing and Processing 4 (1), e10101, 2022 | | 2022 |
| Polycarbonate based polyols NN Nikbin, DA Babb US Patent 11,174,348, 2021 | | 2021 |
| Polycarbonate based polyols N Nikbin, DA Babb US Patent App. 17/383,491, 2021 | | 2021 |
