Page 187 - 《精细化工》2022年第1期

P. 187

第 1 期丁伟，等: 基于鞣制废革屑的生物基皮革填料的制备及性能 ·177·

Degradation of collagen by hydroxyl radical produced by Fenton of nanofibrous collagen-grafted poly(vinyl alcohol)/gelatin/alginate
reaction[J]. Journal of Tianjin University of Science & Technology scaffolds as potential skin substitute[J]. International Journal of
(天津科技大学学报), 2006, 21(2): 12-14, 29. Biological Macromolecules, 2019, 130: 977-987.
[9] DING W, WANG Y N, ZHOU J F, et al. Effect of structure features [23] LUSSIER L S, SANDORFY C, LE-THANH H O, et al. The effect of
of polysaccharides on properties of dialdehyde polysaccharide acids on the infrared spectra of Schiff bases—Ⅱ. Imines containing the
tanning agent[J]. Carbohydrate Polymers, 2018, 201: 549-556. C==C—C==N and C==C—C==C—C==N units[J]. Photochemistry
[10] DING W, PANG X Y, DING Z W, et al. Constructing a robust and Photobiology, 1987, 45: 801-808.
chrome-free leather tanned by biomass-derived polyaldehyde via [24] PARK J, NAM J, YUN H, et al. Aquatic polymer-based edible films
crosslinking with chitosan derivatives[J]. Journal of Hazardous of fish gelatin crosslinked with alginate dialdehyde having enhanced
Materials, 2020, 396: 122771. physicochemical properties[J]. Carbohydrate Polymers, 2021, 254:
[11] DING W, GUO S, LIU H T, et al. Synthesis of an amino-terminated 117317.
waterborne polyurethane-based polymeric dye for high-performance [25] GUO X, LIU L, WU J J, et al. Qualitatively and quantitatively
dyeing of biomass-derived aldehyde-tanned chrome-free leather[J]. characterizing water adsorption of a cellulose nanofiber film using
Materials Today Chemistry, 2021, 21: 100508. micro-FTIR spectroscopy[J]. RSC Advances, 2018, 8(8): 4214-4220.
[12] YU Y, ZENG Y H, LIANG T, et al. Inverse chrome tanning [26] DING W, WU Y B. Sustainable dialdehyde polysaccharides as
technology: A practical approach to minimizing Cr (Ⅲ) discharge[J]. versatile building blocks for fabricating functional materials: An
Journal of the American Leather Chemists Association, 2020, 115(5): overview[J]. Carbohydrate Polymers, 2020, 248: 116801.
176-182. [27] DING W, WANG Y N, ZHOU J F, et al. Investigations on the general
[13] DING W, ZHOU J F, ZENG Y H, et al. Preparation of oxidized properties of biomass-based aldehyde tanned sheep fur for its
sodium alginate with different molecular weights and its application selective post-tanning processing[J]. Journal of Leather Science and
for crosslinking collagen fiber[J]. Carbohydrate Polymers, 2017, 157: Engineering, 2021, 3(1): 1-13.
1650-1656. [28] DING W, YI Y D, WANG Y N, et al. Preparation of a highly effective
[14] DING W (丁伟), SHI B (石碧), LI J (李靖). Application performance organic tanning agent with wide molecular weight distribution from
of bio-based aldehyde tanning agent in the processing of rabbit fur[J]. bio-renewable sodium alginate[J]. Chemistry Select, 2018, 3(43):
China Leather (中国皮革), 2020, 49(10): 6-15. 12330-12335.
[15] YU Y (余跃), WANG Y N (王亚楠), DING W (丁伟), et al. Effect of [29] ARRIGO R, HÄVECKER M, SCHLÖGL R, et al. Dynamic surface
catalyst on the structure of H 2O 2 oxidized starch and its performance rearrangement and thermal stability of nitrogen functional groups on
as a ligand in zirconium tanning[J]. Fine Chemicals (精细化工), carbon nanotubes[J]. Chemical Communications, 2008, (40): 4891-
2018, 35(11): 1928-1934. 4893.
[16] DING W (丁伟), WANG Y N (王亚楠), ZHOU J F (周建飞), et al. [30] ANSARI K R, CHAUHAN D S, QURAISHI M A, et al. Chitosan
Application of oxidized sodium alginate in chrome-free tanning Schiff base: An environmentally benign biological macromolecule as
process of cattle hide[J]. China Leather (中国皮革), 2018, 47(5): a new corrosion inhibitor for oil & gas industries[J]. International
20-22, 30. Journal of Biological Macromolecules, 2020, 144: 305-315.
[17] ZONG L Y (宗丽艳), TENG J P (腾静萍), MA D Q (马德强). The [31] LIU J H, ZHANG T K, WANG Z C, et al. Simple pyrolysis of urea
detection method of primary amino content in the polymethylene into graphitic carbon nitride with recyclable adsorption and
polyphenyl polyamine[J]. Polyurethane Industry (聚氨酯工业), photocatalytic activity[J]. Journal of Materials Chemistry, 2011,
2006, 21(2): 41-43. 21(38): 14398-14401.
[18] PENG W L, ZHANG X L, CHEN S R. The principle and method of [32] QI P W, ZHOU Y Y, WANG D L, et al. A new collagen solution with
testing leather fullness and softness[J]. Journal of the Society of high concentration and collagen native structure perfectly preserved
Leather Technologists and Chemists, 2006, 90(3): 117-122. [J]. RSC Advances, 2015, 5(106): 87180-87186.
[19] DING W, YI Y D, WANG Y N, et al. Peroxide-periodate co- [33] SUN Q Y (孙青永), WANG Y N (王亚楠), LIAO X P (廖学品), et
modification of carboxymethylcellulose to prepare polysaccharide- al. SDBS adsorption method: A new method for determination of
based tanning agent with high solid content[J]. Carbohydrate Polymers, isoelectric point of skin and leather[J]. China Leather (中国皮革),
2019, 224: 115169. 2013, 42(1): 9-13.
[20] ESSELIN N, PORTOLAN F, DOMLOGE N, et al. Potentialities of [34] MA J Z, YANG N, LI Y, et al. A cleaner approach to tanning process
the poly(aminoethyl methacrylate) p(AMA) as gelatin-like polymer of cattle hide upper suede leather: Chrome-less polycarboxylate/
in complex coacervation[J]. Journal of Encapsulation and Adsorption montmorillonite nanocomposites as tanning agent[J]. Environmental
Sciences, 2016, 6(4): 72751. Science and Pollution Research, 2021, 28: 39014-39025.
[21] CHEN F, YANG K X, ZHAO D L, et al. Thermal-and salt-activated [35] HE X, DING W, YU Y, et al. Insight into the correlations between
shape memory hydrogels based on a gelatin/polyacrylamide double fiber dispersion and physical properties of chrome tanned leather[J].
network[J]. RSC Advances, 2019, 9(32): 18619-18626. Journal of the American Leather Chemists Association, 2020, 115(1):
[22] SOBHANIAN P, KHORRAM M, HASHEMI S S, et al. Development 23-29.

182 183 184 185 186 187 188 189 190 191 192