Your search keyword '"Caili Huang"' showing total 62 results

51. Preparation of Poly(p-dioxanone)/Sepiolite Nanocomposites with Excellent Strength/Toughness Balance via Surface-Initiated Polymerization

Author

Caili Huang, Jing-Jing Zhang, Zhi-Cheng Qiu, Ying Niu, Yu-Zhong Wang, and Ke-Ke Yang

Subjects

Toughness, Materials science, Nanocomposite, Scanning electron microscope, General Chemical Engineering, Sepiolite, Nucleation, General Chemistry, Industrial and Manufacturing Engineering, law.invention, Chemical engineering, Polymerization, law, Nanofiber, Polymer chemistry, Crystallization

Abstract

Novel nanocomposites based on aliphatic poly(ester-ether) [poly(p-dioxanone), PPDO] and fibrous clay (sepiolite) were successfully prepared by surface-initiated polymerization of p-dioxanone (PDO) in the presence of organo-modified sepiolite (OSEP). The existence of OSEP-grafted PPDO in nanocomposites, generated via surface-initiated polymerization from the hydroxyl group-abundant OSEP surface, greatly contributes to improving the performance of these nanocomposites. The dispersion uniformity of OSEP nanofibers in PPDO matrix was confirmed by scanning electron microscope (SEM) observations. Crystallization rate increased with increasing OSEP loading. Surprisingly, only OSEP nanofibers bundles acted as heterogeneous nucleating agents during the latter stage of PPDO crystallization. The incorporation of OSEP significantly enhanced the modulus and viscosity of nanocomposites, whereas nanocomposites still presented liquid-like behavior as neat PPDO. The exciting aspect of this research is that nanocomposites ...

Published

2011

52. Directed Self-Assembly of Poly(2-vinylpyridine)-b-polystyrene-b-poly(2-vinylpyridine) Triblock Copolymer with Sub-15 nm Spacing Line Patterns Using a Nanoimprinted Photoresist Template

Author

Thomas P. Russell, Caili Huang, XiaoMin Yang, Gajin Jeong, Shuaigang Xiao, Wenxu Zhang, David S. Kuo, Zhiwei Sun, Kim Yang Lee, Yautzong Hsu, E. Bryan Coughlin, Jaewon Choi, and Zhenbin Chen

Subjects

Materials science, Plasma etching, 2-Vinylpyridine, Mechanical Engineering, Nanowire, Photoresist, chemistry.chemical_compound, chemistry, Chemical engineering, Mechanics of Materials, Polymer chemistry, Copolymer, General Materials Science, Lamellar structure, Polystyrene, Copper chloride

Abstract

Low molecular weight P2VP-b-PS-b-P2VP triblock copolymer (poly(2-vinlypyridine)-block-polystyrene-block-poly(2-vinylpyridine)] is doped with copper chloride and microphase separated into lamellar line patterns with ultrahigh area density. Salt-doped P2VP-b-PS-b-P2VP triblock copolymer is self-assembled on the top of the nanoimprinted photoresist template, and metallic nanowires with long-range ordering are prepared with platinum-salt infiltration and plasma etching.

Published

2015

53. Nonisothermal crystallization behaviors of biodegradable double crystalline poly(butylene succinate)-poly(ethylene glycol) multiblock copolymers

Author

Caili Huang, Jian-Bing Zeng, Ke-Ke Yang, and Ling Jiao

Subjects

Materials science, Polymers and Plastics, Nonisothermal crystallization, Kinetics, technology, industry, and agriculture, macromolecular substances, General Chemistry, Surfaces, Coatings and Films, Polybutylene succinate, law.invention, chemistry.chemical_compound, Differential scanning calorimetry, chemistry, Chemical engineering, law, PEG ratio, Polymer chemistry, Materials Chemistry, Copolymer, Crystallization, Ethylene glycol

Abstract

Nonisothermal crystallization behaviors of both poly(butylene succinate) (PBS) and poly(ethylene glycol) (PEG) segments within PBS-PEG (PBSEG) multiblock copolymers were investigated by differential scanning calorimetry (DSC). The nonisothermal crystallization kinetics of both PBS and PEG segments were analyzed by Avrami, Ozawa, and Mo methods. The results showed that both of Avrami and Mo methods were successful to describe the nonisothermal crystallization kinetics of PBS and PEG segments. The results of crystallization kinetics indicated that the crystallization rate of PBS segment decreased with PBS segment content and/or LPBS, while that of PEG segment decreased with Mn,PEG or FPEG. © 2014 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2014, 131, 40940.

Published

2014

54. Fractional crystallization and homogeneous nucleation of confined PEG microdomains in PBS-PEG multiblock copolymers

Author

Caili Huang, Jian-Bing Zeng, Ling Jiao, Jing-Jing Zhang, Yu-Zhong Wang, and Ke-Ke Yang

Subjects

Materials science, technology, industry, and agriculture, Nucleation, Multiblock copolymer, macromolecular substances, Surfaces, Coatings and Films, chemistry.chemical_compound, Chemical engineering, chemistry, Homogeneous, PEG ratio, Materials Chemistry, Fractional crystallization (chemistry), Physical and Theoretical Chemistry, Ethylene glycol

Abstract

Fractional crystallization, homogeneous nucleation of poly(ethylene glycol) (PEG) segment, and self-nucleation behavior of PEG segment within miscible double crystalline poly(butylene succinate)-poly(ethylene glycol) (PBSEG) multiblock copolymers with different composition and segment chain length were studied by differential scanning calorimetry (DSC). Surface morphology of PBSEG10K with different PEG content was investigated by atomic force microscope (AFM). Different from di- or triblock copolymers, the microstructure and confinement of PEG dispersed phase in PBS matrix phase highly depends on chain length and sequence as well as segment content. The transition point of the PEG segment content from heterogeneous to homogeneous nucleation mechanism decreased from 50 to 39 wt % with PEG segment chain length increasing from 1000 to 2000 g/mol. When PEG segment chain length increased further to 6000 and 10000 g/mol, homogeneous nucleation phenomenon took place at much lower PEG content and fractional crystallization was observed at 29 and 24 wt %, respectively. Homogeneous nucleation mechanism of PBSEG(1K-36), PBSEG(2K-26), PBSEG(6K-19), and PBSEG(10K-12) was evidenced by the large supercoolings needed for crystallization, as well as first-order crystallization kinetics obtained. Self-nucleation behaviors of PEG segment still rely on the composition of PBSEGs. In the case of heterogeneous nucleation crystallization, self-nucleation behaviors of PEG segment showed standard self-nucleation behavior with classical three self-nucleation domains. When the crystallizable chains were confined into isolated microdomains, however, self-nucleation domain (domain II) disappeared. The absence of III(A) was observed in PBSEG(2K-39), while PBSEG(6K-29) had both III(A) and III(SA). Furthermore, AFM morphology studies still indicated the confined degree of PEG segment by previous PBS crystals was profoundly influenced by segment fraction. The confinement of the PEG segment by previous PBS edge-on lamellae was observed in the sample which displays a homogeneous nucleation crystallization behavior.

Published

2013

55. Facile Synthesis of Highly Porous Metal Oxides by Mechanochemical Nanocasting.

Author

Weiming Xiao, Shize Yang, Pengfei Zhang, Peipei Li, Peiwen Wu, Meijun Li, Nanqing Chen, Kecheng Jie, Caili Huang, Ning Zhang, and Sheng Dai

Published

2018

56. The influence of the surface character of the clays on the properties of poly( p ‐dioxanone)/fibrous clay nanocomposites

Author

Ying Niu, Yu-Zhong Wang, Jing-Jing Zhang, Caili Huang, Zhi-Cheng Qiu, and Ke-Ke Yang

Subjects

Nanocomposite, Materials science, Polymers and Plastics, Poly-p-dioxanone, General Chemistry, engineering.material, Halloysite, Crystallization rate, Surfaces, Coatings and Films, law.invention, Rheology, Polymerization, law, Materials Chemistry, engineering, Thermal stability, Crystallization, Composite material

Abstract

Two different fibrous clays, halloysite nanotubes (HNTs) and organically modified attapulgite (OAT), were chosen to prepare poly(p-dioxanone) (PPDO)/clay nanocomposites by in-situ polymerization. The influence of surface character and geometric structure of the clays on the properties of the nanocomposites were investigated systematically concerning with their crystallization behaviors, thermal stabilities, rheological behaviors, and mechanical performances. The effect of clay content on the properties of the nanocomposites was also discussed, taking PPDO/HNTs nanocomposites for example. The results showed that HNTs was more effective in improving the crystallization rate, thermal stability as well as mechanical performance. In addition, the crystallization rate and rigidity of nanocomposites increased with increasing HNTs loading. © 2012 Wiley Periodicals, Inc. J Appl Polym Sci, 2012

Published

2012

57. Poly(1-adamantyl acrylate): Living Anionic Polymerization, Block Copolymerization, and Thermal Properties.

Author

Wei Lu, Caili Huang, Kunlun Hong, Nam-Goo Kang, and Mays, Jimmy W.

Subjects

*ADDITION polymerization, *ACRYLATES, *INTRINSIC semiconductors, *ENOLATES, *LITHIUM chloride

Abstract

Living anionic polymerization of acrylates is challenging due to intrinsic side reactions including backbiting reactions of propagating enolate anions and aggregation of active chain ends. In this study, the controlled synthesis of poly(1-adamatyl acrylate) (PAdA) was performed successfully for the first time via living anionic polymerization through investigation of the initiation systems of sec-butyllithium/diphenylethylene/lithium chloride (sec-BuLi/DPE/LiCl), diphenylmethylpotassium/diethylzinc (DPMK/Et2Zn), and sodium naphthalenide/dipenylethylene/diethylzinc (Na-Naph/DPE/Et2Zn) in tetrahydrofuran at -78 °C using custom glass-blowing and high-vacuum techniques. PAdA synthesized via anionic polymerization using DPMK with a large excess (more than 40-fold to DPMK) of Et2Zn as the ligand exhibited predicted molecular weights from 4.3 to 71.8 kg/mol and polydispersity indices of around 1.10. In addition, the produced PAdAs exhibit a low level of isotactic content (mm triads of 2.1%). The block copolymers of AdA and methyl methacrylate (MMA) were obtained by sequential anionic polymerization, and the distinct living property of PAdA over other acrylates was demonstrated based on the observation that the resulting PAdA-b-PMMA block copolymers were formed with no residual PAdA homopolymer. The PAdA homopolymers exhibit a very high glass transition temperature (133 °C) and outstanding thermal stability (Td: 376 °C) as compared to other acrylic polymers such as poly(tert-butyl acrylate) and poly(methyl acrylate). These merits make PAdA a promising candidate for acrylic-based thermoplastic elastomers with high upper service temperature and enhanced mechanical strength. [ABSTRACT FROM AUTHOR]

Published

2016

58. Bioinspired Hydroxyapatite/Poly(methyl methacrylate) Composite with a Nacre-Mimetic Architecture by a Bidirectional Freezing Method.

Author

Hao Bai, Walsh, Flynn, Gludovatz, Bernd, Delattre, Benjamin, Caili Huang, Yuan Chen, Tomsia, Antoni P., and Ritchie, Robert O.

Published

2016

59. A facile method to produce PBS-PEG/CNTs nanocomposites with controllable electro-induced shape memory effect

Author

Man-Jie He, Cheng-Jie Fan, Ke-Ke Yang, Caili Huang, Lan Du, Cong Zhan, Yu-Zhong Wang, In-Joo Chin, and Meng Huo

Subjects

chemistry.chemical_classification, Nanocomposite, Materials science, Polymers and Plastics, Scanning electron microscope, Organic Chemistry, Bioengineering, Shape-memory alloy, Polymer, Carbon nanotube, Biochemistry, law.invention, Shape-memory polymer, Crystallinity, chemistry, law, Copolymer, Composite material

Abstract

A facile method to develop electro-induced shape memory polymer composites with good location- and process-controlled shape recovery performance is proposed. The poly(butylene succinate) (PBS)–poly(ethylene glycol) (PEG) multiblock copolymer (PBSEG), which has excellent flexibility, was chosen as the matrix of the composites. The conducting medium, carbon nanotubes (CNTs), was introduced to this copolymer by in situ polycondensation. The fine dispersion of CNTs in the PBSEG matrix, which was confirmed by scanning electron microscopy (SEM) and transmission electron microscopy (TEM) observations, enabled it to form a percolation network when only 0.5 wt% filler was loaded. DSC analysis revealed another important role played by CNTs in this system, as a nucleating agent for both PBS and PEG segments, and it caused an increase in crystallization temperature and crystallinity of both segments. The tensile properties test showed that the nanocomposite still exhibits good ductility with the addition of no more than 1 wt% CNTs, which allows it to undergo large deformation during shape programming. The electrical actuation shape memory performance was evaluated by a bending test, and the recovery process was recorded with a camera and an infrared video camera. The effect of CNTs loading, segment content and chain length upon the fixity ratio, recovery ratio and speed was studied, and the temporary shape control and localized shape memory response were also investigated. The results showed that the PBSEG/CNTs nanocomposites possess good shape memory performance with high shape fixity (more than 93.77%) and recovery ratio (more than 97.04%), and the shape recovery process can be adjusted by tailoring the polymer chain structure, the content of CNTs and the mode of how the samples are put in a circuit. In present work, we successfully achieved an electro-induced shape memory device which can be well controlled to remain at any stage during the recovery process and respond at any local position.

Published

2013

60. Self-healable and recyclable triple-shape PPDO–PTMEG co-network constructed through thermoreversible Diels–Alder reaction

Author

Caili Huang, Ying Niu, Yu-Zhong Wang, Liping Xiao, Jing-Jing Zhang, Zhongtao Chen, and Ke-Ke Yang

Subjects

Tris, chemistry.chemical_compound, Materials science, Polymers and Plastics, chemistry, Organic Chemistry, Polymer chemistry, Oxide, Bioengineering, Amine gas treating, Biochemistry, Diels–Alder reaction

Abstract

Based on Diels–Alder reaction, linear bisfuranic terminated poly(tetramethylene oxide) and poly(p-dioxanone) were crosslinked by tris(2-maleimide ethyl)amine; this process was fully reversible under moderate conditions. All of the results indicate that the co-network possesses the typical advantages of chemical and physical crosslinking, peculiar thermal invertibility, shape memory effect and self-healability.

Published

2012

61. Poly(butylene succinate)-poly(ethylene glycol) multiblock copolymer: Synthesis, structure, properties and shape memory performance

Author

Ke-Ke Yang, Jian-Bing Zeng, Yu-Zhong Wang, Ling Jiao, Jing-Jing Zhang, and Caili Huang

Subjects

Materials science, Condensation polymer, Polymers and Plastics, Organic Chemistry, technology, industry, and agriculture, Bioengineering, Biochemistry, Polybutylene succinate, Contact angle, chemistry.chemical_compound, chemistry, Chemical engineering, Succinic acid, PEG ratio, Polymer chemistry, Ultimate tensile strength, Copolymer, Ethylene glycol

Abstract

Thermally-induced shape memory multiblock poly(ether-ester)s (PBSEGs) comprising crystallisable poly(butylene succinate) (PBS) hard segments and poly(ethylene glycol) (PEG) soft segments, were synthesized by polycondensation from succinic acid, 1,4-butanediol and PEG diol. The copolymers were characterized by 1H-NMR, GPC, DSC and DMA. DSC analysis revealed that all PBSEGs prepared in this work are double-crystalline copolymers which ensure it to form separated crystalline domain determined the permanent shape and temporary shape respectively. The Tm of PEG segment (Tm,PEG) of the PBSEGs ranging from 27.54 to 51.04 °C, acting as the transition temperature (Ttrans), was controllable by varying the chain length of soft segment. The DMA test indicated that a large difference in modulus below and above the Ttrans of PBSEGs endows it with sufficient deformability at high temperature and high capacity for keeping deformation at low temperature. The mechanical properties of the copolymer films were assessed by tensile strength measurement. It showed that the copolymers were ductile which enabled remarkable reversible deformation. The shape memory properties of PBSEGs were evaluated by bending test, as expected, most copolymers possessed excellent shape memory effect. The contact angle tests demonstrated that the copolymers were more hydrophilic with the introduction of PEG segment, suggesting this biodegradable PBSEG multiblock copolymer with excellent shape-memory properties has great potential in application for biomaterials.

Published

2012

62. Guiding kinetic trajectories between jammed and unjammed states in 2D colloidal nanocrystal-polymer assemblies with zwitterionic ligands.

Author

Ziyi Zhang, Yufeng Jiang, Caili Huang, Yu Chai, Goldfine, Elise, Feng Liu, Wenqian Feng, Forth, Joe, Williams, Teresa E., Ashby, Paul D., Russell, Thomas P., and Helms, Brett A.

Subjects

*NANOCRYSTALS, *POLYMERS, *LIGANDS (Chemistry), *MAGNETIC properties, *OPTOELECTRONICS

Abstract

The article offers information on study which shows kinetic trajectory between jammed and unjammed states in two-dimensional (2D) assemblies of colloidal nanocrystals (NCs) at liquid-liquid interface can be directed in space and time by the competitive binding of small-molecule and polymer ligands at NC surface. It mentions that mesostructured matter composed of colloidal nanocrystals in solidified architectures abounds with tunable catalytic, magnetic and optoelectronic properties.

Published

2018