1 |
宁晓琴. 塑料包装行业发展现状及趋势分析[J]. 塑料包装, 2014, 24(3): 1⁃4.
|
|
NING X Q. Analysis of Current Situation and Trend of Plastic Packaging Industry Development[J]. Plastic Packaging, 2014, 24(3): 1⁃4.
|
2 |
马兆嵘, 刘有胜, 张芊芊, 等.农用塑料薄膜使用现状与环境污染分析[J]. 生态毒理学报, 2020,15(4): 1⁃22.
|
|
MA Z R, LIU Y S, ZHANG Q Q, et al. Application Status and Environmental Pollution Analysis of Agricultural Plastic Film[J]. Journal of Ecotoxicology, 2020,15(4): 1⁃22.
|
3 |
JOST V. Packaging Related Properties of Commercially Available Biopolymers⁃An Overview of the Status Quo[J]. Express Polymer Letters, 2018,12(5): 429⁃435.
|
4 |
张双双, 李仁海, 高 甲, 等. PBAT合成方法及其应用的研究现状[J]. 现代塑料加工应用, 2018, 30(5): 59⁃63.
|
|
ZHANG S S, LI H R, GAO J, et al. Research status of synthesis methods and applications of PBAT[J]. Modern Plastic Processing and Application, 2018, 30(5): 59⁃63.
|
5 |
ROCHA D B, JESSIKA S D C, SUELI A D O, et al. A New Approach for Flexible PBAT/PLA/CaCO3 Films into Agriculture[J]. Journal of Applied Polymer Science, 2018, 135(35): 46660.
|
6 |
钟淦基, 杨彪, 李忠明, 等. 一种抗紫外高阻水PBAT薄膜及其制备方法: 中国,CN107936495A[P]. 2018⁃04⁃20.
|
7 |
叶士娟. 一种高强度改性PBAT光催化抗菌薄膜及其制法: 中国,CN202010334770.5[P]. 2020⁃08⁃07.
|
8 |
SERAY M, SKENDER A and HADJ⁃HAMOU A S. Kinetics and Mechanisms of Zn2+ Release From Antimicrobial Food Packaging Based on Poly (butylene adipate⁃co⁃terephthalate) and Zinc Oxide Nanoparticles[J]. Polymer Bull, 2021,78: 1 021⁃1 040.
|
9 |
VENKATESAN R, RAJESWARI N. ZnO/PBAT Nanocomposite Films: Investigation on the Mechanical and Biological Activity for Food Packaging[J]. Polymers for Advanced Technologies, 2017, 28(1): 20⁃27.
|
10 |
LUO S, ZHANG P, GAO D. Preparation and Properties of Antimicrobial Poly(butylene adipate⁃co⁃terephthalate)/TiO2 Nanocomposites Films[J]. Journal of Macromolecular Science, Part B, 2020, 59(4):1⁃14.
|
11 |
VENKATESAN R, RAJESWARI N. TiO2 Nanoparticles/Poly(butylene adipate⁃co⁃terephthalate) Bionanocomposite Films for Packaging Applications[J]. Polymers for Advanced Technologies, 2017, 28(12): 1 699⁃1 706.
|
12 |
VENKATESAN R, RAJESWARI N. Nanosilica⁃reinforced Poly(butylene adipate⁃co⁃terephthalate) Nanocomposites: Preparation, Characterization and Properties[J]. Polymer Bulletin, 2018, 76(9): 4 785⁃4 801.
|
13 |
VENKATESAN R, RAJESWARI N, TAMILSELVI A. Antimicrobial, Mechanical, Barrier and Thermal Pro⁃perties of Bio⁃based Poly(butylene adipate⁃co⁃terephthalate)(PBAT)/Ag2O Nanocomposite Films for Packaging Application[J]. Polymers for Advanced Technologies, 2018, 29(1): 61⁃68.
|
14 |
SHANKAR S ,RHIM J W. Tocopherol⁃Mediated Synthesis of Silver Nanoparticles and Preparation of Antimicrobial PBAT/Silver Nanoparticles Composite Films[J]. LWT ⁃ Food Science and Technology, 2016, 72: 149⁃156.
|
15 |
SOUSA G M., YAMASHITA F,SOARES J M S. Application of Biodegradable Films Made from Rice Flour, Poly(butylene adipate⁃co⁃terphthalate), Glycerol and Potassium Sorbate in the Preservation of Fresh Food Pastas[J]. LWT ⁃ Food Science and Technology, 2016, 65: 39⁃45.
|
16 |
LEAL I L, SILVA ROSA D Y C, SILVA PENHA D J, et al. Development and Application Starch Films:PBAT with Additives for Evaluating the Shelf Life of Tommy Atkins Mango in the Fresh⁃cut State[J]. Journal of Applied Polymer Science, 2019, 136(1): 48150.
|
17 |
SHANKAR S, RHIM J W. Preparation of Antibacterial Poly(lactide)/Poly(butylene adipate⁃co⁃terephthalate) Composite Films Incorporated with Grapefruit Seed Extract[J]. Biol Macromol, 2018, 120(Part A): 846⁃852.
|
18 |
ZHAO H, LI L, ZHANG Q, et al. Manipulation of Chain Entanglement and Crystal Networks of Biodegradable Poly(butylene adipate⁃co⁃butylene terephthalate) During Film Blowing through the Addition of a Chain Extender: An In Situ Synchrotron Radiation X⁃ray Scattering Study[J]. Biomacromolecules, 2019, 20(10): 3 895⁃3 907.
|
19 |
XIE J, WANG Z, ZHAO Q, et al. Scale⁃Up Fabrication of Biodegradable Poly(butylene adipate⁃co⁃terephthalate)/Organophilic⁃Clay Nanocomposite Films for Potential Packaging Applications[J]. ACS Omega, 2018, 3(1): 1 187⁃1 196.
|
20 |
REN P G, LIU X H, REN F, et al. Biodegradable Graphene Oxide Nanosheets/Poly⁃(butylene adipate⁃co⁃terephthalate) Nanocomposite Film with Enhanced Gas and Water Vapor Barrier Properties[J]. Polymer Testing, 2017, 58: 173⁃180.
|
21 |
LEE K M. Biodegradable⁃Agriculture Mulching Film:Korea, KR101823409[P].2018⁃01⁃31.
|
22 |
TOUCHALEAUME F, MARTIN⁃CLOSAS L, ANGELLIER⁃COUSSY H, et al. Performance and Environmental Impact of Biodegradable Polymers as Agricultural Mulching Films[J]. Chemosphere, 2016, 144: 433⁃439.
|
23 |
SOUZA P M S, MORALES A R, SANCHEZ E M S, et al. Study of PBAT Photostabilization with Ultraviolet Absorber in Combination with Hindered Amine Light Stabilizer and Vitamin E, Aiming Mulching Film Application[J]. Journal of Polymers and the Environment, 2018, 26(8): 3 422⁃3 436.
|
24 |
LI J, LAI L, WU L, et al. Enhancement of Water Vapor Barrier Properties of Biodegradable Poly(butylene adipate⁃co⁃terephthalate) Films with Highly Oriented Organomontmorillonite[J]. ACS Sustainable Chemistry & Engineering, 2018, 6(5): 6 654⁃6 662.
|
25 |
FALCÃO G A M, ALMEIDA T G, BARDI M A G, et al. PBAT/Organoclay Composite Films—Part 2: Effect of UV Aging on Permeability, Mechanical Properties and Biodegradation[J]. Polymer Bulletin, 2018, 76(1): 291⁃301.
|
26 |
ARRUDA L C, MAGATON M, BRETAS R E S, et al. Influence of Chain Extender on Mechanical, Thermal and Morphological Properties of Blown Films of PLA/PBAT Blends[J]. Polymer Testing, 2015,43: 27⁃37.
|
27 |
PHETWAROTAI W, PHUSUNTI N, AHT⁃ONG D. Preparation and Characteristics of Poly(butylene adipate⁃co⁃terephthalate)/Polylactide Blend Films via Synergistic Efficiency of Plasticization and Compatibilization[J]. Polymer Science, 2019,37(1): 68⁃78.
|
28 |
AI X, LI X, YU Y, et al. The Mechanical, Thermal, Rheological and Morphological Properties of PLA/PBAT Blown Films by Using Bis(tert⁃butyl dioxy isopropyl) Benzene as Crosslinking Agent[J]. Polymer Engineering & Science, 2019, 59(S1): 227⁃236.
|
29 |
SCHNEIDER J, MANJURE S, NARAYAN R. Reactive Modification and Compatibilization of Poly(lactide) and Poly(butylene adipate⁃co⁃terephthalate) Blends with Epoxy Functionalized⁃Poly(lactide) for Blown Film Applications[J]. Journal of Applied Polymer Science, 2016, 133(16): 43310.
|
30 |
LI X, YAN X, YANG J, et al. Improvement of Compatibility and Mechanical Properties of the Poly(lactic acid)/Poly(butylene adipate⁃co⁃terephthalate) Blends and Films by Reactive Extrusion with Chain Extender[J]. Polymer Engineering & Science, 2018, 58(10): 1 868⁃1 878.
|
31 |
LI X, AI X, PAN H, et al. The Morphological, Mechani⁃cal, Rheological, and Thermal Properties of PLA/PBAT Blown Films with Chain Extender[J]. Polymers for Advanced Technologies, 2018, 29(6): 1 706⁃1 717.
|
32 |
PAN H, HAO Y, ZHAO Y, et al. Improved Mechanical Properties, Barrier Properties and Degradation Behavior of Poly(butylenes adipate⁃co⁃terephthalate)/Poly(propyle⁃ne carbonate) Films[J]. Korean Journal of Chemical Engineering, 2017, 34(5): 1 294⁃1 304.
|
33 |
JIANG G, WANG F, ZHANG S, et al. Structure and Improved Properties of PPC/PBAT Blends via Controlling Phase Morphology Based on Melt Viscosity[J]. Journal of Applied Polymer Science, 2020, 137(31): 48924.
|
34 |
HOFFMANN R, MORAIS D D S, Braz C J F, et al. Impact of the Natural Filler Babassu on the Processing and Properties of PBAT/PHB Films[J]. Composites Part A: Applied Science and Manufacturing, 2019,124:105472.
|
35 |
LAGARÓN J M, LÓPEZRUBIO A, JOSÉ FABRA M. Film Blowing of PHBV Blends and PHBV⁃Based Multilayers for the Production of Biodegradable Packages[J]. Journal of Applied Polymer Science, 2016, 133(2): 356⁃365.
|
36 |
CORREA J P, BACIGALUPE A, MAGGI J, et al. Biodegradable PLA/PBAT/Clay Nanocomposites: Morphological, Rheological and Thermomechanical Behavior[J]. Journal of Renewable Materials, 2016, 4(4): 258⁃265.
|
37 |
MONDAL D, BHOWMICK B, MOLLICK M M R, et al. Antimicrobial Activity And Biodegradation Behavior of Poly(butylene adipate⁃co⁃terephthalate)/Clay Nanocomposites[J]. Journal of Applied Polymer Science, 2014, 131(7):40079.
|
38 |
ZHANG S, LIN Z, LI J, et al. Elevated Ductility, Optical, and Air Barrier Properties of Poly (butyleneadipate⁃co⁃terephthalate) Bio⁃based Films via Novel Thermoplastic Starch Feature[J]. Polymers for Advanced Technologies, 2019, 30(4): 852⁃862.
|
39 |
SILVA T B V D, MOREIRA T F M, OLIVEIRA D A, et al. Araucaria Angustifolia (Bertol.) Kuntze Extract as A Source of Phenolic Compounds in TPS/PBAT Active Films[J]. Food & Function, 2019, 10(12): 7 697⁃7 706.
|
40 |
XING Q, BUONO P, RUCH D, et al. Biodegradable UV⁃Blocking Films through Core⁃Shell Lignin⁃Melanin Nanoparticles in Poly(butylene adipate⁃co⁃terephthalate)[J]. CS Sustainable Chemistry & Engineering, 2019, 7(4): 4 147⁃4 157.
|
41 |
XING Q, RUCH D, DUBOIS P, et al. Biodegradable and High⁃Performance Poly(butylene adipate⁃co⁃terephthalate)–Lignin UV⁃Blocking Films[J]. ACS Sustaina⁃ble Chemistry & Engineering, 2017, 5(11): 10 342⁃10 351.
|
42 |
MUROI F, TACHIBANA Y, SOULENTHONE P, et al. Characterization of A Poly(butylene adipate⁃co⁃terephthalate) Hydrolase From the Aerobic Mesophilic Bacterium Bacillus Pumilus[J]. Polymer Degradation and Stability, 2017, 137: 11⁃22.
|
43 |
DE HOE G X, ZUMSTEIN M T, GETZINGER G J, et al. Photochemical Transformation of Poly(butylene adipate⁃ co⁃terephthalate) and Its Effects on Enzymatic Hydrolyzability[J]. Environmental Science and Technology, 2019, 53(5): 2 472⁃2 481.
|
44 |
OLIVEIRA T A, OLIVEIRA MOTA I, MOUSINHO F E P, et al. Biodegradation of Mulch Films from Poly(butylene adipate co‐terephthalate), Carnauba Wax, and Sugarcane Residue[J]. Journal of Applied Polymer Science, 2019, 136(47):48240.
|
45 |
WANG X W, WANG G X, HUANG D, et al. Degrada⁃bility Comparison of Poly(butylene adipate terephthalate) and Its Composites Filled with Starch and Calcium Carbonate in Different Aquatic Environments[J]. Journal of Applied Polymer Science, 2019, 136(2): 46916.
|