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64. Yang WS, Du X, Liu W, Wang ZW, Dai HQ*, Deng YL. Direct valorization of lignocellulosic biomass into value-added chemicals by polyoxometalate catalyzed oxidation under mild conditions. Industrial & Engineering Chemistry Research, 2019, 58, 22996-23004. DOI: 10.1021/acs.iecr.9b05311
63. Bian HY, Dong ML, Chen LD, Zhou XL, Ni SZ, Fang GG, Dai HQ*. Comparison of mixed enzymatic pretreatment and post-treatment for enhancing the cellulose nanofibrillation efficiency. Bioresource Technology, 2019, 122171.
62. Bian HY, Luo J, Wang RB, Zhou XL, Ni SZ, Shi R, Fang GG, Dai HQ*. Recyclable and reusable maleic acid for efficient production of cellulose nanofibrils with stable performance. ACS Sustainable Chemistry & Engineering, 2019, 7, 24: 20022-20031. DOI: 10.1021/acssuschemeng.9b05766
61. Wang X, Ji SL, Wang XQ, Bian HY, Lin LR, Dai HQ*, Xiao HN, Thermally conductive, super flexible and flame-retardant BN-OH/PVA composite film reinforced by lignin nanoparticles. Journal of Materials Chemistry C., 2019, 7: 14159-14169.
60. Ni, Shuzhen; Zhang, Hui; Dai, Hongqi*; Xiao, Huining.. Glyoxal improved functionalization of starch with AZC enhances the hydrophobicity, strength and UV blocking capacities of co-crosslinked polymer. European Polymer Journal, 2019. 110(1):385-393。
59. Weisheng Yang, Liang Jiao, Wei Liu, Hongqi Dai *. Manufacture of highly transparent and hazy cellulose nanofibril films via coating TEMPO-oxidized wood. Nanomaterials, 2019,9(1):107。
58. Yang, Weisheng,Wang, Xiu,Gogoi, Parikshit,Bian, Huiyang,Dai, Hongqi*. Highly transparent and thermally stable cellulose nanofibril films functionalized with colored metal ions for ultraviolet blocking activities. Carbohydrate Polymers .2019, 213: 10-16
57. Yang, Weisheng,Li, Xiang,Du, Xu,Deng, Yulin,Dai, Hongqi*.Effective low-temperature hydrogenolysis of lignin using carbon-supported ruthenium and formic acid system under low temperature. Catalysis Communications. 2019 ,126 : 30-34.
56. Bian, Huiyang; Gao, Ying; Luo, Jing; Jiao, Liang; Wu, Weibing; Fang, Guigan; Dai, Hongqi* Lignocellulosic nanofibrils produced using wheat straw and their pulping solid residue: From agricultural waste to cellulose nanomaterials.Waste Management. 2019,91:1-8.
55. Bian HY, Wu XX, Luo J, Qiao YZ, Fang GG, Dai HQ*. Valorization of Alkaline Peroxide Mechanical Pulp by Metal Chloride-Assisted Hydrotropic Pretreatment for Enzymatic Saccharification and Cellulose Nanofibrillation. Polymers 2019, 11: 331. Polymers 2019, 11(2): 331
54. Wang, Xiu,Yu, Zhihuai,Bian, Huiyang,Wu, Weibing,Xiao, Huining,Dai, Hongqi*. Thermally Conductive and Electrical Insulation BNNS/CNF Aerogel Nano-Paper. Polymers 2019, 11(4): 66
53. Yang, Weisheng; Du, Xu ; Liu, Wei; Tricker, Andrew; Dai, Hongqi*; Deng, Yulin. High efficient lignin depolymerization via effective inhibition of condensation during polyoxometalate mediated oxidation. Energy & Fuels. 2019,33(7):
52. Yang, Weisheng; Gao, Ying; Zuo, Chu; Deng, Yulin; Dai, Hongqi* Thermally Induced 100 % Cellulose Nanofibril Films with Near-complete Ultraviolet-blocking and Improved Water-resistance. Carbohydrate Polymers.2019, 223
51. Xiu Wang, Zhihuai Yu, Liang Jiao, Huiyang Bian, Weisheng Yang,Weibing Wu, Huining Xiao, Hongqi Dai * Aerogel perfusion-prepared h-BN/CNF composite film with multiple thermally conductive pathways and high thermal conductivity. Nanomaterials, 2019,
50. Bian, Huiyang; Gao, Ying; Yang, Yiqin; Fang, Guigan; Dai, Hongqi*. Improving Cellulose Nanofibrillation of Waste Wheat Straw Using the Combined Methods of Prewashing, p-Toluenesulfonic Acid Hydrolysis, Disk Grinding, and Endoglucanase Post-treatment. Bioresource Technology, 2018, 256: 321-327.
49. Bian, Huiyang; Wei, Liqing; Lin, Chunxiang; Ma, Qianli; Dai, Hongqi*; Zhu, J.Y. Lignin Containing Cellulose Nanofibril-Reinforced Polyvinyl Alcohol Hydrogels. ACS Sustainable Chemistry & Engineering, 2018, 6(4): 4821-4828.
48. Li, Jian; Zuo, Keman; Wu, Weibing; Xu, Zhaoyang; Yi, Yonggang; Jing, Yi; Dai, Hongqi; Fang, Guigan. Shape memory aerogels from nanocellulose and polyethyleneimine as a novel adsorbent for removal of Cu(II) and Pb(II). Carbohydrate Polymers, 2018, 196.
47. Ni, Shuzhen; Zhang, Hui; Godwin, Patrick M.; Dai, Hongqi*; Xiao, Huining. ZnO nanoparticles enhanced hydrophobicity for starch film and paper. Materials letters, 2018, 230, 207-210.
46. Yu, Zhihuai; Wang, Xiu; Bian, Huiyang; Jiao, Liang; Wu, Weibing; Dai, Hongqi*. Enhancement of the heat conduction performance of boron nitride/cellulosic fibre insulating composites. PLoS ONE, 2018, 13(7): e0200842.
45. Yang, Weisheng; Jiao, Liang; Liu, Wei; Deng, Yulin; Dai, Hongqi*. Morphology control for tunable optical properties of cellulose nanofibrils films. Cellulose, 2018, 25(10): 5909-5918.
44. Bian, Huiyang; Jiao, Liang; Wang, Ruibin; Wang, Xiu; Zhu, Wenyuan; Dai, Hongqi*. Lignin Nanoparticles as Nano-spacers for Tuning the Viscoelasticity of Cellulose Nanofibril Reinforced Polyvinyl Alcohol-Borax Hydrogel. European Polymer Journal 2018, 107, 267-274.
43. Wu, Weibing; Song, Ruyuan; Xu, Zhaoyang; Jing, Yi; Dai, Hongqi*; Fang, Guigan. Fluorescent cellulose nanocrystals with responsiveness to solvent polarity and ionic strength. Sensors and Actuators B: Chemica, 2018, 275(1): 490-498.
42. Guan, Qingshun; Song, Ruyuan; Wu, Weibing; Zhang, Lei; Jing, Yi; Dai, Hongqi. Fluorescent CdTe-QD-encoded nanocellulose microspheres by green spraying method. Cellulose, 2018. DOI: 10.1007/s10570-018-2065-z.
41. Wang, Chunjian; Ni, Shuzhen; Lin, Lingrui; Wang, Xiu; Dai, Hongqi.* Highly efficient utilization of dissolved and colloidal substances in surface sizing for low-cost and sustainable water consumption. Appita journal, 2018, 71(3): 221-227.
40. Jiao, Liang; Bian, Huiyang; Gao, Ying; Lin, Xuliang; Zhu, Wenyuan; Dai, Hongqi*. Highly Dispersible Cellulose Nanofibrils Produced via Mechanical Pretreatment and TEMPO-mediated Oxidation. Fibers and Polymers, 2018, 19(11):2237-2244.
39. Ni, Shuzhen; Jiao Liang; Zhang, Hui; Zhang Yongchao; Fang Guigan; Xiao, Huining; Dai, Hongqi*. Enhancing hydrophobicity, strength and UV shielding capacity of starch film via novel co-crosslinking in neutral conditions. Royal Society Open Science, 2018, 5: 1206
38. Ni, Shuzhen; Zhang, Hui; Dai, Hongqi*; Xiao, Huining. Starch-based Flexible Coating for Food Packaging Paper with Exceptional Hydrophobicity and Antimicrobial Activity. Polymers, 2018,10(11):1260; doi:10.3390/polym10111260
37. Ni, Shuzhen; Zhang, Hui; Dai, Hongqi*; Xiao, Huining.. Glyoxal improved functionalization of starch with AZC enhances the hydrophobicity, strength and UV blocking capacities of co-crosslinked polymer. European Polymer Journal, 2018,[IF15.685]
36. Li, Jian; Xu, Zhaoyang; Wu, Weibing; Jing, Yi; Dai, Hongqi; Fang, Guigan. Nanocellulose/Poly(2-(dimethylamino)ethyl methacrylate)Interpenetrating polymer network hydrogels for removal of Pb(II) and Cu(II) ions. Colloids and Surfaces A Physicochemical and Engineering Aspects, 2018, 538.
35. Ni, Shuzhen; Wang, Chunjian; Bian, Huiyang; Yu, Zhihuai; Jiao, Liang; Fang, Guigan; Dai, Hongqi*. Enhancing physical performance and hydrophobicity of paper-based cellulosic material via impregnation with starch and PEI-KH560. Cellulose, 2018, 25(2): 1365-1375.
34. Bian, Huiyang; Gao, Ying; Wang, Ruibin; Liu, Zhulan; Wu, Weibing; Dai, Hongqi*. Contribution of lignin to the surface structure and physical performance of cellulose nanofibrils film. Cellulose, 2018, 25(2): 1309-1318.
33. Weisheng Yang, Liang Jiao, Wei Liu, Hongqi Dai *. Manufacture of highly transparent and hazy cellulose nanofibril films via coating TEMPO-oxidized wood. Nanomaterials, 2018
32. Yang, Weisheng; Jiao, Liang; Min, Douyong; Liu, Zhulan; Dai, Hongqi*. Effects of preparation approaches on optical properties of self-assembled cellulose nanopapers. RSC Advances, 2017, 7(17): 10463-10468.
31. Bian, Huiyang; Chen, Liheng; Dai, Hongqi*; Zhu, J.Y. Integrated production of lignin containing cellulose nanocrystals (LCNC) and nanofibrils (LCNF) using an easily recyclable di-carboxylic acid. Carbohydrate Polymers, 2017, 167: 167-176.
30. Bian, Huiyang; Chen, Liheng; Gleisner, Rolland; Dai, Hongqi*; Zhu, J.Y. Producing wood-based nanomaterials by rapid fractionation of wood at 80°C using a recyclable acid hydrotrope. Green Chemistry, 2017, 19(14): 3370-3379.
29. Yang, Weisheng; Bian, Huiyang; Jiao, Liang; Wu, Weibing; Deng, Yulin; Dai, Hongqi*. High wet-strength, thermally stable and transparent TEMPO-oxidized cellulose nanofibril film: Via cross-linking with poly-amide epichlorohydrin resin. RSC Advances, 2017, 7(50): 31567-31573.
28. Bian, Huiyang; Chen, Liheng; Dai, Hongqi*; Zhu, J.Y. Effect of fiber drying on properties of lignin containing cellulose nanocrystals and nanofibrils produced through maleic acid hydrolysis. Cellulose, 2017, 24(10): 4205-4216.
27. Ni, Shuzhen; Wang, Chunjian; Jiao, Liang; Wang, Xiu; Jiang, Shan; Dai, Hongqi*. Preparation of strong and stiff papers through surface sizing with starch and APMS. Appita journal, 2017, 70(4): 386-393.
26. Li, Shan; Wang, Fei; Dai, Hongqi*; Jiang, Xingmao; Ye, Chunhong; Min, Jianzhong. Self-assembly of silica nanoparticles into hollow spheres viaa microwave-assisted aerosol process. Materials Research Bulletin, 2016, 74: 459-464.
25. Su, Wenpeng; Chen, Chen; Xu, Xiu; Yang, Weisheng; Dai, Hongqi*. Filtering Whitewater with an Ultrafiltration Membrane: Effects of the Interaction between Dissolved Organics and Metal Ions on Membrane Fouling. Bioresources, 2016, 11(1): 1108-1124.
24. Wang, Chunjian; Chen, Chen; Ren, Hao; Yang, Yiqin; Dai, Hongqi*. Polyethyleneimine Addition for Control of Dissolved and Colloidal Substances: Effects on Wet-End Chemistry. Bioresources, 2016, 11(4): 9756-9770.
23. Wu Weibing; Li, Jian; Zhu, Wenyuan; Jing, Yi; Dai, Hongqi. Thermo-responsive cellulose paper via ARGET ATRP. Fibers and Polymers, 2016, 17(4): 495-501.
22. Bian, Huiyang; Li, Guanlian; Jiao, Liang; Yu, Zhihuai; Dai, Hongqi*. Enzyme-assisted mechanical fibrillation of bleached spruce kraft pulp to produce well-dispersed and uniform-sized cellulose nanofibrils. Bioresources, 2016, 11(4): 10483-10496.
21. Jiao, Li; Su, Ming; Chen, Liao; Wang, Yuangang; Zhu, Hongli; Dai, Hongqi*. Natural Cellulose Nanofibers As Sustainable Enhancers in Construction Cement. Plos One, 2016, 11(12): e0168422.
20. Li, Yuanyuan; Zhu, Hongli; Zhu, Shuze; Wan, Jiayu; Liu, Zhen; Vaaland, Oeyvind; Lacey, Steven; Fang, Zhiqiang; Dai, Hongqi*; Li, Teng; Hu, Liangbing. Hybridizing wood cellulose and graphene oxide toward high-performance fibers. NPG Asia Materials, 2015, 7 (1): e150.
19. Li, Yuanyuan; Zhu, Hongli; Shen, Fei; Wan, Jiayu; Lacey, Steven; Fang, Zhiqiang; Dai, Hongqi*; Hu, Liangbing. Nanocellulose as green dispersant for two-dimensional energy materials. Nano Energy, 2015, 13: 346-354.
18. Chen, Chen; Mao, Shengtao; Wang, Jingjing; Bao, Jinfeng; Xu, Hui; Su, Wenpeng; Dai, Hongqi*. Application of Ultrafiltration in a Paper Mill: Process Water Reuse and Membrane Fouling Analysis. Bioresources, 2015, 10(2): 2376-2391
17. Zhang, Ming; Zhang, Dapeng; Feng, Yan; Min, Douyong; Dai, Hongqi*. The Optimization of the Water Footprint and Strength Properties of Handsheets by the Extreme Vertices Mixture Design. Bioresources, 2015, 10(3): 5830-5844.
16. Su, Wenpeng; Chen, Chen; Zhu, Yulian; Yang, Weisheng; Dai, Hongqi*. Fouling Characteristics of Dissolved Organic Matter in Papermaking Process Water on Polyethersulfone Ultrafiltration Membranes. Bioresources, 2015, 10(3): 5906-5919.
15. Su, Wenpeng; Yang, Yiqin; Dai, Hongqi; Jiang, Linyu. Biosorption of Heavy Metal Ions from Aqueous Solution on Chinese Fir Bark Modified by Sodium Hypochlorite. Bioresources, 2015, 10(4): 6993-7008.
14. Jiao, Li; Ma, Jinxia; Dai, Hongqi. Preparation and Characterization of Self-Reinforced Antibacterial and Oil-Resistant Paper Using a NaOH/Urea/ZnO Solution. Plos One, 2015, 10(10): 179-183.
13. Li, Yuanyuan; Zhu, Hongli; Xu, Mei; Zhuang, Zhiliang; Xu, Mengdie; Dai, Hongqi*. High Yield Preparation Method of Thermally Stable Cellulose Nanofibers. Bioresources, 2014, 9(2): 1986-1997.
12. Ye, Chunhong; Kulkarni, Dhaval D.; Dai, Hongqi; Tsukruk, Vladimir V. Programmable Arrays of “Micro-Bubble” Constructs via Self-Encapsulation. Advanced Functional Materials 2014, 24(27): 4364-4373.
11. Ye, Chunhong; Combs, Zachary A.; Calabrese, Rossella; Dai, Hongqi; L. Kaplan, David; Tsukruk, Vladimir V. Robust Microcapsules with Controlled Permeability from Silk Fibroin Reinforced with Graphene Oxide. Small 2014, 10(24): 5087-5097.
10. Wu, Weibing; Gu, Jun; Zhou, Guancheng; Zhang, Lei; Gong, Murong; Dai, Hongqi. Fabrication of Natural Cellulose Microspheres via Electrospraying from NaOH/Urea Aqueous System. Journal of Applied Polymer Science, 2014, 131 (16):1107-1117.
09. Li, Yuanyuan; Zhu, Hongli; Shen, Fei; Wan, Jiayu; Han, Xiaogang; Dai, Jiaqi; Dai, Hongqi; Hu, Liangbing. Highly Conductive Microfiber of Graphene Oxide Templated Carbonization of Nanofibrillated Cellulose. Advanced Functional Materials, 2014, 24(46): 7366-7372.
08. Xu, Mei; Xu, Mengdie; Dai, Hongqi; Wang, Shumei; Wu, Weibing. The Impact of Synthesis Conditions on the Structure and Properties of Di-(Stearylamidoethyl) Epoxypropyl Ammonium Chloride. Bioresources, 2013, 8(3): 3347-3357.
07. Li, Yuanyuan; Zhu, Hongli; Gu, Hongbo; Dai, Hongqi; Fang, Zhiqiang; Weadock Nicholas J.; Guo, Zhanhu; Hu, Liangbing. Strong transparent magnetic nanopaper prepared by immobilization of Fe3O4 nanoparticles in a nanofibrillated cellulose network. Journal of Materials Chemistry A, 2013, 1(48): 15278-15283.
06. Xu, Mei; Dai, Hongqi; Sun, Xuan; Wang, Shumei; Wu, Weibing. Influence of buffer solution on tempo-mediated oxidation. Bioresources, 2012, 7(2): 1633-1642.
05. Wang, Shumei; Sun, Xuan; You, Feng; Dai, Hongqi; Mao, Shengtao; Wang, Jingjing. Application of cationic modified carboxymethyl starch as a retention and drainage aid in wet-end system. Bioresources, 2012, 7(3): 3870-3882.
04. Ye, Chunhong; Drachuk, Irina; Calabrese, Rossella; Dai, Hongqi; L. Kaplan, David; Tsukruk, Vladimir V. Permeability and Micromechanical Properties of Silk Ionomer Microcapsules. Langmuir, 2012, 28(33):12235-12244.
03. Dai, Lu; Dai, Hongqi; Yuan, Yangchun; Sun, Xuan; Zhu; Zhengjun. Effect of tempo oxidation system on kinetic constants of cotton fibers. Bioresources, 2011, 6(3): 2619-2631.
02. Yuan, Guangxiang; Dai, Hongqi; Ye, Chunhong; Zhang, Yujuan; Wang, Zhongliang. Adsorption of Ca(II) from aqueous solution onto cellulosic fibers and its impact on the papermaking process. Bioresources, 2011, 6(3): 2790-2804.
01. Li, Yuanyuan; Dai, Hongqi; Wan, Li; Zhu, Zhengjun. Surface sizing application of waterborne epoxy resin on low basis weight paper. Bioresources, 2011, 7(1): 5-14.
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