Ni-based bimetallic heterogeneous catalysts for energy and environmental applications S De, J Zhang, R Luque, N Yan Energy & environmental science 9 (11), 3314-3347, 2016 | 663 | 2016 |
Advances in conversion of hemicellulosic biomass to furfural and upgrading to biofuels S Dutta, S De, B Saha, MI Alam Catalysis Science & Technology 2 (10), 2025-2036, 2012 | 491 | 2012 |
Stabilizing a Platinum1 Single‐Atom Catalyst on Supported Phosphomolybdic Acid without Compromising Hydrogenation Activity B Zhang, H Asakura, J Zhang, J Zhang, S De, N Yan Angewandte Chemie 128 (29), 8459-8463, 2016 | 412 | 2016 |
Hydrodeoxygenation processes: Advances on catalytic transformations of biomass-derived platform chemicals into hydrocarbon fuels S De, B Saha, R Luque Bioresource technology 178, 108-118, 2015 | 368 | 2015 |
Mechanochemical synthesis of advanced nanomaterials for catalytic applications C Xu, S De, AM Balu, M Ojeda, R Luque Chemical communications 51 (31), 6698-6713, 2015 | 362 | 2015 |
Direct conversion of cellulose and lignocellulosic biomass into chemicals and biofuel with metal chloride catalysts S Dutta, S De, MI Alam, MM Abu-Omar, B Saha Journal of catalysis 288, 8-15, 2012 | 304 | 2012 |
Microwave assisted conversion of carbohydrates and biopolymers to 5-hydroxymethylfurfural with aluminium chloride catalyst in water S De, S Dutta, B Saha Green Chem. 13 (10), 2859-2868, 2011 | 290 | 2011 |
Biomass‐derived porous carbon materials: synthesis and catalytic applications S De, AM Balu, JC Van Der Waal, R Luque ChemCatChem 7 (11), 1608-1629, 2015 | 279 | 2015 |
Advances in the Design of Heterogeneous Catalysts and Thermocatalytic Processes for CO2 Utilization S De, A Dokania, A Ramirez, J Gascon ACS Catalysis 10 (23), 14147-14185, 2020 | 233 | 2020 |
Rational control of nano-scale metal-catalysts for biomass conversion Y Wang, S De, N Yan Chemical Communications 52 (37), 6210-6224, 2016 | 201 | 2016 |
A brief summary of the synthesis of polyester building‐block chemicals and biofuels from 5‐hydroxymethylfurfural S Dutta, S De, B Saha ChemPlusChem 77 (4), 259-272, 2012 | 184 | 2012 |
One‐pot conversions of lignocellulosic and algal biomass into liquid fuels S De, S Dutta, B Saha ChemSusChem 5 (9), 1826-1833, 2012 | 174 | 2012 |
Advances in biomass transformation to 5-hydroxymethylfurfural and mechanistic aspects S Dutta, S De, B Saha Biomass and bioenergy 55, 355-369, 2013 | 156 | 2013 |
Microwave assisted rapid conversion of carbohydrates into 5-hydroxymethylfurfural catalyzed by mesoporous TiO2 nanoparticles S Dutta, S De, AK Patra, M Sasidharan, A Bhaumik, B Saha Applied Catalysis A: General 409, 133-139, 2011 | 156 | 2011 |
Critical design of heterogeneous catalysts for biomass valorization: current thrust and emerging prospects S De, S Dutta, B Saha Catalysis Science & Technology 6 (20), 7364-7385, 2016 | 155 | 2016 |
Mild ultrasound-assisted synthesis of TiO2 supported on magnetic nanocomposites for selective photo-oxidation of benzyl alcohol JC Colmenares, W Ouyang, M Ojeda, E Kuna, O Chernyayeva, ... Applied Catalysis B: Environmental 183, 107-112, 2016 | 123 | 2016 |
Solid-acid and ionic-liquid catalyzed one-pot transformation of biorenewable substrates into a platform chemical and a promising biofuel MI Alam, S De, S Dutta, B Saha RSC advances 2 (17), 6890-6896, 2012 | 101 | 2012 |
Self-assembly of mesoporous TiO2 nanospheres via aspartic acid templating pathway and its catalytic application for 5-hydroxymethyl-furfural synthesis S De, S Dutta, AK Patra, A Bhaumik, B Saha J. Mater. Chem. 21 (43), 17505-17510, 2011 | 95 | 2011 |
Self-Assembled TiO2 Nanospheres By Using a Biopolymer as a Template and Its Optoelectronic Application S Dutta, AK Patra, S De, A Bhaumik, B Saha ACS applied materials & interfaces 4 (3), 1560-1564, 2012 | 84 | 2012 |
Titanium hydrogenphosphate: an efficient dual acidic catalyst for 5-hydroxymethylfurfural (HMF) production MI Alam, S De, B Singh, B Saha, MM Abu-Omar Applied Catalysis A: General 486, 42-48, 2014 | 78 | 2014 |