[1] Bozell J J,Petersen G R. Technology development for the production of biobased products from biorefinery carbohydrates—the US Department of Energy's “Top 10” revisited[J]. Green Chemistry,2010,12(4):539-554. [2] Van Putten R J,Van Der Waal J C,De Jong E,et al. Hydroxymethylfurfural,a versatile platform chemical made from renewable resources[J]. Chemical Reviews,2013,113(3):1499-1597. [3] Hu L,Zhao G,Hao W,et al. Catalytic conversion of biomass-derived carbohydrates into fuels and chemicals via furanic aldehydes[J]. RSC Advances,2012,2(30):11184-11206. [4] 程光剑. 新型共聚单体1,6-己二醇的开发与应用[J]. 石油科技论坛,2011(7):58-72. [5] 鲁华,高伟. 1,6-己二醇的产业现状及应用[J]. 精细与专用化学品,2013,21(7):9-11. [6] Dias E L,Shoemaker J A W,Boussie T R,et al. Process for production of hexamethylenediamine from carbohydrate-containing materials and intermediates therefor: US,20130184495A1[P]. 2013-05-30. [7] De Vries J G,Teddy,Phua P H,et al. Preparation of caprolactone,caprolactam,2,5-tetrahydrofurandimethanol,1,6-hexanediol or 1,2,6- hexanetriol from 5-hydroxymethyl-2-furfuraldehyde:WO,2011149339A1[P]. 2011-01-12. [8] Nakagawa Y,Tomishige K. Total hydrogenation of furan derivatives over silica-supported Ni-Pd alloy catalyst[J]. Catalysis Communications,2010,12(3):154-156. [9] Nakagawa Y,Takada K,Tamura M,et al. Total hydrogenation of furfural and 5-hydroxymethylfurfural over supported Pd-Ir alloy catalyst[J]. ACS Catalysis,2014,4(8):2718-2726. [10] Utne Torleif W,Robert E,Jones Et Al. Process for producing 1,6-hexanediol:US,3070633A[P]. 1962-12-25. [11] Yao S,Wang X,Jiang Y,et al. One-step conversion of biomass-derived 5-hydroxymethylfurfural to 1,2,6-hexanetriol over Ni-Co-Al mixed oxide catalysts under mild conditions[J]. ACS Sustainable Chemistry & Engineering,2014,2(2):173-180. [12] Buntara T,Noel S,Phua P H,et al. From 5-hydroxymethylfurfural (HMF) to polymer precursors:Catalyst screening studies on the conversion of 1,2,6-hexanetriol to 1,6-hexanediol[J]. Topics in Catalysis,2012,55(7-10):612-619. [13] Chia M,Pagan-Torres Y J,Hibbitts D,et al. Selective hydrogenolysis of polyols and cyclic ethers over bifunctional surface sites on rhodium-rhenium catalysts[J]. Journal of the American Chemical Society,2011,133(32):12675-12689. [14] Buntara T,Melián-Cabrera I,Tan Q,et al. Catalyst studies on the ring opening of tetrahydrofuran-dimethanol to 1,2,6-hexanetriol[J]. Catalysis Today,2013,210,106-116. [15] Chen K,Koso S,Kubota T,et al. Chemoselective hydrogenolysis of tetrahydropyran-2-methanol to 1,6-hexanediol over rhenium-modified carbon-supported rhodium catalysts[J]. ChemCatChem,2010,2(5):547-555. [16] Utne T,Warrenville,Garber J D,et al. Hydrogenation of 5-hydroxy- methyl furfural:US,3083236A[P]. 1963-03-26. [17] Tuteja J,Choudhary H,Nishimura S,et al. Direct synthesis of 1,6-hexanediol from HMF over a heterogeneous Pd/ZrP catalyst using formic acid as hydrogen source[J]. ChemSusChem,2014,7(1):96-100. [18] Waidmann C R,Pierpont A W,Batista E R,et al. Functional group dependence of the acid catalyzed ring opening of biomass derived furan rings:An experimental and theoretical study[J]. Catalysis Science & Technology,2013,3(1):106-115. [19] Weingarten R,Tompsett G A,Conner W C,et al. Design of solid acid catalysts for aqueous-phase dehydration of carbohydrates:The role of Lewis and Brønsted acid sites[J]. Journal of Catalysis,2011,279(1):174-182. |