Abstract
NbOPO 4 supported TiO 2 materials were demonstrated to be excellent catalysts for selective conversion of C6-carbohydrates to 5-hydroxymethylfurfural in an environmentally benign dimethyl carbonate-water solvent system. The materials presented high activity and excellent stability in sub-critical water conditions (upto 180 °C and 20 bar), enabling continuous 5-hydroxymethylfurfural production from highly concentrated sugars (35 wt% fructose, glucose and glucose:fructose mixtures) in a micro fixed-bed reactor. The high catalytic activity (6–27.3 Kg HMFKg Cat −1day −1) and good-to-excellent HMF selectivity (55–91 %) and exceptional hydrolytic stability and regenerability observed under process conditions was attributed to a highly crystalline NbOPO 4 phase with Q 2 and Q 3 phosphates stabilized on a TiO 2 framework with tunable acidity (0.11–0.52 mmol H +g −1 and Brønsted/Lewis ratio) and acidic strength comparable to bulk-NbOPO 4. Furthermore, our experiments also revealed the importance of organic solvents in modulating catalyst acidic properties, particularly the strength of Brønsted acid sites which, in turn, influenced the HMF productivity.
| Original language | English |
|---|---|
| Article number | 120087 |
| Journal | Applied Catalysis A: General |
| Volume | 691 |
| DOIs | |
| Publication status | Published - 5 Feb 2025 |
| MoE publication type | A1 Journal article-refereed |
Funding
Authors acknowledge financial support from CSIR (MLP0077 and FBR030306). GGK acknowledges UGC, New Delhi for a Junior Research Fellowship (JRF). The authors also thank the Analytical Division and Centralized Instrumental Facilities of this institute for analytical support. The PRIS registration number of this publication is CSIR-CSMCRI \u2013150/2024. JPM and AKS also acknowledges Bio4Energy, Kempe Foundations (Kempe stiftelserna) and Wallenberg Wood Science Center (WWSC). Johan Gadolin Process Chemistry Centre at \u00C5bo Akademi University is also acknowledged by JPM.