Biomass Chemical Engineering ›› 2021, Vol. 55 ›› Issue (2): 60-70.doi: 10.3969/j.issn.1673-5854.2021.02.010
• Review Comment • Previous Articles
Ming ZHANG1(), Xiling DU1, Junyou SHI1, Yaoxing SUN1, Jian LI2, Chengyu WANG2,*()
Received:
2020-05-29
Online:
2021-03-30
Published:
2021-03-23
Contact:
Chengyu WANG
E-mail:mattzhming@163.com;wangcy@nefu.edu.cn
CLC Number:
Ming ZHANG, Xiling DU, Junyou SHI, Yaoxing SUN, Jian LI, Chengyu WANG. Research Progress of Functionalized Wood in the Field of Polluted Water Purification[J]. Biomass Chemical Engineering, 2021, 55(2): 60-70.
1 | 易锦馨, 霍志鹏, ASIRIA M, 等. 农林废弃生物质吸附材料在水污染治理中的应用[J]. 化学进展, 2019, 31 (5): 760- 772. |
2 | ROCCARO P , SGROI M , VAGLIASINDI F G A . Removal of xenobiotic compounds from wastewater for environment protection: Treatment processes and costs[J]. Chemical Engineering Transactions, 2013, 32, 505- 510. |
3 |
BURAKOV A E , GALUNIN E V , BURAKOVA I V , et al. Adsorption of heavy metals on conventional and nanostructured materials for wastewater treatment purposes: A review[J]. Ecotoxicology and Environmental Safety, 2018, 148, 702- 712.
doi: 10.1016/j.ecoenv.2017.11.034 |
4 |
SANTHOSH C , VELMURUGAN V , JACOB G , et al. Role of nanomaterials in water treatment applications: A review[J]. Chemical Engineering Journal, 2016, 306, 1116- 1137.
doi: 10.1016/j.cej.2016.08.053 |
5 |
ZHANG M , WANG C , MA Y , et al. Fabrication of superwetting, antimicrobial and conductive fibrous membranes for removing/collecting oil contaminants[J]. RSC Advances, 2020, 10 (36): 21636- 21642.
doi: 10.1039/D0RA02704A |
6 | 于晓彩, 于润强, 周海林, 等. 改性碳纳米管(CNTs)在水污染处理中的应用及再生研究进展[J]. 大连海洋大学学报, 2020, 35 (5): 786- 792. |
7 |
宋瑞然, 肖敏, 胡晓钧, 等. 固相法合成NaA型粉煤灰沸石对染料废水的吸附性能研究[J]. 人工晶体学报, 2017, 46 (5): 897- 902.
doi: 10.3969/j.issn.1000-985X.2017.05.027 |
8 | 闻振涛. 有机废水处理中常用吸附剂的应用研究进展[J]. 科技信息, 2011, (14): 484, 486. |
9 | 胡潇, 梁虎南, 于大禹. 硅藻土处理染料废水的研究进展[J]. 硅酸盐通报, 2018, 37 (1): 160- 165. |
10 | 李嘉丽, 周书葵, 荣丽杉, 等. 地质聚合物在重金属处理中的应用进展[J]. 精细化工, 2020, 37 (7): 1343- 1351. |
11 | 焦林宏, 汪永丽, 马娅, 等. 膨润土的改性及在重金属废水处理中的研究进展[J]. 化学工程与装备, 2018, (12): 248- 249. |
12 |
CHEN C J , KUANG Y D , ZHU S Z , et al. Structure-property-function relationships of natural and engineered wood[J]. Nature Reviews Materials, 2020, 5, 642- 666.
doi: 10.1038/s41578-020-0195-z |
13 | BOUTILIER M S H, LEE J, CHAMBERS V, et al. Water filtration using plant xylem[J/OL]. PLOS ONE, 2014, 9(2): e89934[2020-03-11]. https://doi.org/10.1371/journal.pone.0089934. |
14 | 李坚, 吴玉章, 马岩. 功能性木材[M]. 北京: 科学出版社, 2011. |
15 | 刘一星, 赵广杰. 木质资源材料学[M]. 北京: 中国林业出版社, 2004. |
16 |
CHEN F J , GONG A S , ZHU M W , et al. Mesoporous, three-dimensional wood membrane decorated with nanoparticles for highly efficient water treatment[J]. ACS Nano, 2017, 11 (4): 4275- 4282.
doi: 10.1021/acsnano.7b01350 |
17 | 王梦竹, 方颖, 李勍, 等. 植物细胞壁纳米结构与纳米纤维素的化学纯化处理结合机械解纤法制备[J]. 高分子学报, 2020, 51 (6): 586- 597. |
18 |
赵广杰. 木材中的纳米尺度、纳米木材及木材-无机纳米复合材料[J]. 北京林业大学学报, 2002, 24 (5): 204- 207.
doi: 10.3321/j.issn:1000-1522.2002.05.039 |
19 | 卢芸, 李坚, 孙庆丰, 等. 生物质纳米材料与气凝胶[M]. 北京: 科学出版社, 2015. |
20 | 陈文帅, 于海鹏, 李勍, 等. 纳米纤维素机械法制备与应用基础[M]. 北京: 科学出版社, 2014. |
21 | LIU C, LUAN P C, LI Q, et al. Biopolymers derived from trees as sustainable multifunctional materials: A review[J/OL]. Advanced Materials, 2020, 2001654[2020-03-11]. https://doi.org/10.1002/adma.202001654. |
22 | LARS A B, BURGERT I. Bioinspired wood nanotechnology for functional materials[J/OL]. Advanced Materials, 2018, 30(19): 1-15[2020-03-11]. https://doi.org/10.1002/adma.201704285. |
23 |
李坚, 孙庆丰. 大自然给予的启发: 木材仿生科学刍议[J]. 中国工程科学, 2014, 16 (4): 4- 12.
doi: 10.3969/j.issn.1009-1742.2014.04.001 |
24 |
ARORA R . Adsorption of heavy metals: A review[J]. Materials Today: Proceedings, 2019, 18, 4745- 4750.
doi: 10.1016/j.matpr.2019.07.462 |
25 | 田欢, 赵卓, 赖莉, 等. 含铊废水的处理方法的研究现状及发展趋势[J]. 材料导报, 2018, 32 (12): 4100- 4106. |
26 |
BILAL M , SHAHJ A , ASHFAQ T , et al. Waste biomass adsorbents for copper removal from industrial wastewater: A review[J]. Journal of Hazardous Materials, 2013, 263, 322- 333.
doi: 10.1016/j.jhazmat.2013.07.071 |
27 | MURALEEDHARAN T R , IYENGAR L , VENKOBACHAR C . Biosorption: An attractive alternative for metal removal and recovery[J]. Current Science, 1991, 61 (6): 379- 385. |
28 | TRIPATHI A, RANJANM R. Heavy metal removal from wastewater using low cost adsorbents[J/OL]. Journal of Bioremediation & Biodegradation, 2015, 6(6): 315[2020-03-11]. https://doi.org/10.4172/2155-6199.1000315. |
29 | ZHU M W, LI Y J, CHEN G, et al. Tree-inspired design for high-efficiency water extraction[J/OL]. Advanced Materials, 2017, 29(44): 1704107. [2020-03-11]. https://doi.org/10.1002/adma.201704107. |
30 | 王发星. 玉米芯的改性及在重金属废水处理中的应用研究[J]. 广东化工, 2020, 47 (11): 176- 178, 158. |
31 |
SPERRY J S . Evolution of water transport and xylem structure[J]. International Journal of Plant Sciences, 2003, 164 (S3): S115- S127.
doi: 10.1086/368398 |
32 | 李青竹. 改性麦糟吸附剂处理重金属废水的研究[D]. 长沙: 中南大学, 2011. |
33 |
SHUKLA S R , PAI R S . Adsorption of Cu(Ⅱ), Ni(Ⅱ) and Zn(Ⅱ) on dye loaded groundnut shells and sawdust[J]. Separation and Purification Technology, 2005, 43 (1): 1- 8.
doi: 10.1016/j.seppur.2004.09.003 |
34 | AHMAD A , RAFATULLAH M , SULAIMAN O , et al. Removal of Cu(Ⅱ) and Pb(Ⅱ) ions from aqueous solutions by adsorption on sawdust of meranti wood[J]. Desalination, 2009, 247 (1/2/3): 636- 646. |
35 | 陈玲. 速生桉林业废弃物去除水中铅、镍、铬离子的研究[D]. 南宁: 广西大学, 2013. |
36 | 杨资. 天然木材的功能化及其在水处理领域的应用研究[D]. 兰州: 兰州大学, 2019. |
37 | 裴烈飞, 姜丽丽, 侯新刚, 等. 纳米材料在重金属及有机物废水处理中的应用[J]. 中国冶金, 2018, 28 (8): 1- 5. |
38 | 蔡晓慧. g-C3N4/rGO、MOF/wood复合材料的设计、合成及其应用研究[D]. 兰州: 兰州大学, 2018. |
39 | 谭艺. 木基重金属离子吸附材料制备、性能及吸附机理研究[D]. 北京: 北京林业大学, 2020. |
40 |
VITAS S , KEPLINGER T , REICHHOLF N , et al. Functional lignocellulosic material for the remediation of copper (Ⅱ) ions from water: Towards the design of a wood filter[J]. Journal of Hazardous Materials, 2018, 355, 119- 127.
doi: 10.1016/j.jhazmat.2018.05.015 |
41 | 郭倩, 邱伊琴. 纳米银在水处理方面的应用研究进展[J]. 合成材料老化与应用, 2019, 48 (4): 125- 129. |
42 |
AHANG M , LIANG D , JIANG W , et al. Ag@TiO2 NPs/PU composite fabric with special wettability for separating various water-oil emulsions[J]. RSC Advances, 2020, 10, 35341- 35348.
doi: 10.1039/D0RA06248K |
43 | CHE W B , XIAO Z E , WANG Z , et al. Wood-based mesoporous filter decorated with silver nanoparticles for water purification[J]. ACS Sustainable Chemistry & Engineering, 2019, 7 (5): 5134- 5141. |
44 | WEN J J , TAN X J , HU Y Y , et al. Filtration and electrochemical disinfection performance of PAN/PANI/AgNWs-CC composite nanofiber membrane[J]. Environmental Science & Technology, 2017, 51 (11): 6395- 6403. |
45 |
HUO Z Y , LUO Y F , XIE X , et al. Carbon-nanotube sponges enabling high-efficiency and reliable cell inactivation by low-voltage electroporation[J]. Environmental Science Nano, 2017, 4 (10): 2010- 2017.
doi: 10.1039/C7EN00558J |
46 | 吕伟伟. 电化学氧化降解靛蓝废水[D]. 石家庄: 河北科技大学, 2019. |
47 | 于源海. 多孔纳米材料制备及其吸附性能研究[D]. 青岛: 青岛大学, 2019. |
48 |
HABIBI Y , LUCIA L A , ROJAS O J . Cellulose nanocrystals: Chemistry, self-assembly, and applications[J]. Chemical Reviews, 2010, 110 (6): 3479- 3500.
doi: 10.1021/cr900339w |
49 | GUO R X , CAI X H , LIU H W , et al. In situ growth of metal-organic frameworks in three-dimensional aligned lumen arrays of wood for rapid and highly efficient organic pollutant removal[J]. Environmental Science & Technology, 2019, 53 (5): 2705- 2712. |
50 | WANG L L . Research on wood chips of cation modification and its adsorption of activated red[J]. Advances in Engineering Research, 2018, 152, 52- 58. |
51 |
GOODMAN S M , BURA R , DICHIARA A B . Facile impregnation of graphene into porous wood filters for the dynamic removal and recovery of dyes from aqueous solutions[J]. ACS Applied Nano Materials, 2018, 1 (10): 5682- 5690.
doi: 10.1021/acsanm.8b01275 |
52 | SENS M L , EMMENDOERFER M L , MVELLER L C . Water filtration through wood with helical cross-flow[J]. Desalination & Water Treatment, 2015, 53 (1): 15- 26. |
53 | 何帅明. 有机废水降解的催化剂的合成及其催化反应机理研究[D]. 广州: 华南理工大学, 2019. |
54 |
CHENG Z Y , GUAN H , MENG J W , et al. Dual-functional porous wood filter for simultaneous oil/water separation and organic pollutant removal[J]. ACS Omega, 2020, 5, 14096- 14103.
doi: 10.1021/acsomega.0c01606 |
55 | 余宗学, 曾广勇, 何毅, 等. 无机粒子改性PVDF膜处理油田含油废水的研究进展[J]. 工业水处理, 2015, 35 (8): 11- 14. |
56 | 李坚, 张明, 强添刚. 特殊润湿性油水分离材料的研究进展[J]. 森林与环境学报, 2016, 36 (3): 257- 265. |
57 | 王成毓, 杨照林, 王鑫, 等. 木材功能化研究新进展[J]. 林业工程学报, 2019, 4 (3): 10- 18. |
58 | BLANCO M V D, FISCHER E J, CABANE E. Underwater superoleophobic wood cross sections for efficient oil/water separation[J/OL]. Advanced Materials Interfaces, 2017, 4(21): 1700584[2020-03-11]. https://doi.org/10.1002/admi.201700584. |
59 | 王浩. 生物质基功能化油水分离材料的制备及其催化性能研究[D]. 石河子: 石河子大学, 2018. |
60 | ZHAO M X, TAO Y, WANG J H, et al. Facile preparation of superhydrophobic porous wood for continuous oil-water separation[J/OL]. Journal of Water Process Engineering, 2020, 36: 101279[2020-03-11]. https://doi.org/10.1016/j.jwpe.2020.101279. |
61 | SONG J W , CHEN C J , WANG C W , et al. Super flexible wood[J]. ACS Applied Materials & Interfaces, 2017, 9 (28): 23520- 23527. |
62 | CHAO W X , SUN X H , LI Y D , et al. Enhanced directional seawater desalination using a structure-guided wood aerogel[J]. ACS Applied Materials & Interfaces, 2020, 12 (19): 22387- 22397. |
63 |
FU Q L , ANSARI F , ZHOU Q , et al. Wood nanotechnology for strong, mesoporous, and hydrophobic biocomposites for selective separation of oil/water mixtures[J]. ACS Nano, 2018, 12 (3): 2222- 2230.
doi: 10.1021/acsnano.8b00005 |
64 | 王开立. 基于表面微纳结构设计的超疏水木材制备与作用机制[D]. 北京: 北京林业大学, 2019. |
65 |
GUAN H , CHENG Z Y , WANG X Q . Highly compressible wood sponges with a spring-like lamellar structure as effective and reusable oil absorbents[J]. ACS Nano, 2018, 12 (10): 10365- 10373.
doi: 10.1021/acsnano.8b05763 |
66 | CHAO W X, WANG S B, LI Y D, et al. Natural sponge-like wood-derived aerogel for solar-assisted adsorption and recovery of high-viscous crude oil[J/OL]. Chemical Engineering Journal, 2020, 400: 125865[2020-03-11]. https://doi.org/10.1016/j.cej.2020.125865. |
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