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1. Soil factors that contribute to the abundance and structure of the diazotrophic community and soybean growth, yield, and quality under biochar amendment

Author

Weihua Wang, Fenfen Shi, Jianqiang Du, Liangbin Li, Ting Bai, and Xuguang Xing

Subjects
Biochar, Diazotroph, Soya fatty acid, Soil properties, Soil nutrient, Agriculture
Abstract

Abstract Background A 2-year field trial was conducted to test the effect of biochar addition (0, 15, 30, and 45 t hm−2) on soil properties, nutrients, diazotrophic community diversity, abundance, and structure, and soybean growth, yield, and quality. Furthermore, we aimed to explore the responses of diazotrophs, grain yield, and quality to nine soil environmental factors. Rhizosphere soil and plant samples were collected after harvest. Results Biochar application resulted in a lower soil bulk density (γ d) but higher total organic carbon (TOC), effective phosphorus (AP) and total nitrogen (TN). Compared with untreated soil, the diversity index of diazotrophic bacteria in biochar-amended soil decreased, but the abundance of diazotrophic bacteria increased. The microbial community remained stable when a small amount of biochar was applied but changed as biochar amount increased. Furthermore, biochar reduced the proportion of unique nitrogen-fixing bacteria, but did not affect that of common nitrogen-fixing bacteria between biochar-amended and untreated soils, and increased the relative abundance of Bradyrhizobium (B9 vs. B0) and Sinorhizobium (B18 or B21 vs. B0) involved in symbiotic nitrogen fixation. The main components and content of fatty acids (except for stearic acid) and the content of protein and soybean oil remained stable under biochar application. The low biochar treatment (15 t hm−2) promoted soybean growth and yield. Redundancy analysis suggested that TN greatly influenced the diazotrophic community structure at the phylum and genus levels, and that pH, TOC, and NO3 −-N greatly influenced grain yield and quality. Conclusions Soil diazotroph environment can be improved by targeted farmland implementation based on changes in soil physicochemical properties, which would benefit biological N fixation in agricultural soils and further increase economic benefit. Graphical Abstract

Published
2023
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2. A comparative study on precipitation behavior of a sand-cast Al–Li–Cu alloy with the different quenching rates

Author

Yixiao Wang, Guohua Wu, Liang Zhang, Xin Tong, Liangbin Li, Xunman Xiong, Xiaolong Zhang, and Cunlong Wang

Subjects
Sand-cast Al–Li alloy, Mechanical properties, Quenching rate, Ageing precipitation, Mining engineering. Metallurgy, TN1-997
Abstract

The performance of large-size structural components with varied wall thickness is mainly determined by the quench sensitivity, while there was a blank of the studies on the quench sensitivity of cast Al–Li alloys. In this study, the precipitation behavior of sand-cast Al–2Li–2Cu-0.5Mg-0.15Sc-0.15Zr-0.05Ti alloy subjected to different quenching conditions in room temperature water, boiling water and air was compared. The effect of the quenching rates on the formation mechanisms of δ΄ (Al3Li) and T1 (Al2CuLi) precipitates was discussed. It was found that a rapid quenching rate facilitated the precipitation of T1 phases and the refinement of δ′ phases, which contributes to the improvement of the mechanical properties. During the subsequent ageing, the strength and ductility were enhanced with the quenching rate increasing, but the strength did not vary by more than 15%, indicating that the sand-cast Al–Li–Cu alloy owns a lower quench sensitivity. This work is expected to enlighten the understanding of the evolution mechanisms of precipitates during quenching and provide a reference for the heat treatment of complex structural components for cast Al–Li alloys.

Published
2022
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3. Visualization of small-angle X-ray scattering datasets and processing-structure mapping of isotactic polypropylene films by machine learning

Author

Chenhao Zhao, Wancheng Yu, and Liangbin Li

Subjects
Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

With the rapid development of the synchrotron radiation X-ray characterization techniques, the preprocessing of large small-angle X-ray scattering (SAXS) datasets and the data mining become urgent requirements for researchers. In this work, we apply the variational autoencoder (VAE) and the conditional variational autoencoder (cVAE) to visualize a large SAXS dataset of hard-elastic isotactic polypropylene (iPP) films in 2- and 1-dimensional latent spaces. The low-dimensional representations enable us to capture key features of the dataset rapidly, such as the similarity among SAXS patterns and the structural evolution trends. The preprocessing of the dataset points out the further direction of data analysis so that researchers can focus on the most valued regions in the dataset. Then, we develop a hybrid VAE-multilayer perceptron (MLP) neural network to realize the processing-structure mapping of iPP films. The robustness of the hybrid VAE-MLP network is verified. Finally, SAXS patterns in the temperature-strain space are generated, which allows us to explore the processing parameter space not involved by previous experiments. These capabilities indicate that the developed machine-learning methods are valuable artificial intelligence toolset to assist in the preprocessing of large-scale SAXS datasets and the establishment of comprehensive processing-structure relationship of hard-elastic iPP films.

Published
2023
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4. The formation of crystal cross-linked network in sequential biaxial stretching of poly(ethylene terephthalate): The essential role of MD pre-stretch

Author

Wenwen Zhang, Jungen Chen, Qi Yan, Qianlei Zhang, Jingyun Zhao, Tong Wu, Daoliang Wang, Lingpu Meng, Wei Chen, and Liangbin Li

Subjects
Polymers and polymer manufacture, TP1080-1185
Abstract

Combining a homemade uniaxial stretching device and the simultaneous in-situ synchrotron radiation WAXS measurement, the structural evolution during transverse direction (TD) stretching of machine direction (MD) pre-stretched Poly(ethylene terephthalate) (PET) film has been investigated. Current work reveals that increasing the MD pre-stretch before the occurrence of stretch induced crystallization (SIC) can enhance the crystallization and orientation in TD stretching. The concept of parallel chains structures (PCS) cross-linked network is proposed to interpret the rubber-like mechanical behavior. An appropriate stretch ratio window in stretching above the glass transition temperature (Tg) is existed, where the PCS cross-linked network before crystallization can be induced by stretching above Tg. With the help of the PCS cross-linked network, the chain orientation is retained more effectively under stretching, promoting the formation of subsequent crystallization and crystal cross-linking network. The strain hardening in different pre-stretched samples occurs accompanied by the same crystallinity and various chains orientation. This demonstrates that the strain hardening is determined by the crystal cross-linked network rather than the orientation. Current work supplies a guidance for getting the improved film products of PET with enhanced comprehensive mechanical properties, process stability and higher chain orientation.

Published
2021
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5. Trade-off of mechanical and electrical properties in stretchable P3HT/PDMS blending films driven by interpenetrating double networks formation

Author

Jingnan Zhao, Lei Sun, Zhaoyang Chu, Tian Li, Fapei Zhang, Liangbin Li, and Wenhua Zhang

Subjects
Physics, QC1-999
Abstract

The balance of electrical and mechanical properties of conjugated polymers is extremely significant toward extending applications in wearable and implantable devices. Blending conjugated polymers with organic elastomers is a straightforward and facile way to improve the deformability of the materials. In this work, poly(3-hexylthiophene) (P3HT) nanowires were blended with a polydimethylsiloxane (PDMS) elastomer via spin-coating on two kinds of substrates, SiO2/Si and PDMS. Organic field-effect transistors based on P3HT/PDMS blending films were tested to evaluate the electronic properties of the films. The phase separation structures, surface morphologies, and the deformation under stretching were characterized by x-ray photoelectron spectroscopy, atomic force microscopy, and optical microscopy, respectively. A stratified structure with P3HT nanowires condensed at the interface formed on SiO2/Si, while an interpenetrating double networks structure yielded on the PDMS substrate. The double networks structure affords P3HT/PDMS blending films not only similar field-effect mobility in a wide range of P3HT content (≥5 wt. %) but also much enhanced stretching performance with respect to the net P3HT film. This double networks structure induced by polarity selection of the substrate might provide an efficient route to prepare flexible blending films with balanced mechanical and electrical behaviors.

Published
2020
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6. Nonionic surfactants and their effects on asymmetric reduction of 2-octanone with Saccharomyces cerevisiae

Author

Yunquan Zheng, Liangbin Li, Xianai Shi, Zhijian Huang, Feng Li, Jianmin Yang, and Yanghao Guo

Subjects
Nonionic surfactant, 2-Octanone, Saccharomyces cerevisiae, Asymmetric reduction, Biotechnology, TP248.13-248.65, Microbiology, QR1-502
Abstract

Abstract In an aqueous buffer system, serious reverse and side reactions were found in the asymmetric reduction of 2-octanone with Saccharomyces cerevisiae. However, some nonionic surfactants added to the aqueous buffer system improved the bioreduction process by decreasing the reverse and side reaction rates in addition to effectively increasing the average positive reaction rate. Further, a shorter carbon chain length of hydrophilic or hydrophobic moieties in surfactants resulted in a higher yield of (S)-2-octanol. The alkylphenol ethoxylate surfactants had a less influence than polyoxyethylenesorbitan trialiphatic surfactants on the product e.e. It suggested that the product e.e. resulting from the change of carbon chain length of the hydrophobic moieties varied markedly compared with the change of carbon chain length of the hydrophilic moiety. Emulsifier OP-10 and Tween 20 markedly enhanced the yield and product e.e. at the concentration of 0.4 mmol L−1 with a yield of 73.3 and 93.2%, and the product e.e. of 99.2 and 99.3%, respectively, at the reaction time of 96 h.

Published
2018
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7. Identification and Expression Profile of Chemosensory Genes in the Small Hive Beetle Aethina tumida

Author

Lixian Wu, Xin Zhai, Liangbin Li, Qiang Li, Fang Liu, and Hongxia Zhao

Subjects
Aethina tumida, transcriptome, chemosensory genes, identification, expression analysis, Science
Abstract

Aethina tumida is a parasite and predator of honeybee causing severe loss to the bee industry. No effective and environmentally friendly methods are available to control this pest at present. Chemosensory genes play key roles in insect behavior which can potentially be used as targets for developing environmentally friendly pest control agents. In this study, the putative chemosensory genes in antennae and forelegs of A. tumida involved in olfaction or contact chemical communication of adults were investigated using RNA transcriptome sequencing and PCR methods. Based on transcriptomic data, unigenes encoding 38 odorant receptors (ORs), 24 ionotropic receptors (IRs), 14 gustatory receptors (GRs), 3 sensory neuron membrane proteins (SNMPs), 29 odorant binding proteins (OBPs), and 22 chemosensory proteins (CSPs) were identified. The analyses of tissue expression profiles revealed that genes encoding 38 ORs, 13 antennal IRs, 11 GRs, 1 SNMP, 24 OBPs, and 12 CSPs were predominately expressed in antennae. No significant differences in expression levels of these genes were found between males and females. Genes encoding 5 non-NMDA iGluRs, 3 GRs, 2 SNMPs, 5 OBPs, and 12 CSPs were predominately expressed in forelegs. RT-PCR assays for SNMPs, OBPs and CSPs further revealed that 3 OBPs (AtumOBP3, 26 and 28) and 3 CSPs (AtumCSP7, 8 and 21) were highly expressed in antennae. Our results enrich the gene inventory of A. tumida and facilitate the discovery of potential novel targets for developing new pest control measures.

Published
2021
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8. Microstructural Origin of the Double Yield Points of the Metallocene Linear Low-Density Polyethylene (mLLDPE) Precursor Film under Uniaxial Tensile Deformation

Author

Obaid Iqbal, Jean Claude Habumugisha, Shengyao Feng, Yuanfei Lin, Wei Chen, Wancheng Yu, and Liangbin Li

Subjects
mLLDPE, double yield points, in situ SAXS/WAXS, Organic chemistry, QD241-441
Abstract

The microstructural origin of the double yield points of metallocene linear low-density polyethylene (mLLDPE) precursor films has been studied with the assistance of the synchrotron radiation small- and wide-angle X-ray scattering (SAXS/WAXS). It has been shown that the microstructural origin of the double yield points is highly related to the initial orientation of the original precursor film. For less oriented mLLDPE precursor films, the rearrangement of lamellae and the appearance of the monoclinic phase are the microstructural origins of the first yield point. In comparison, for the highly-oriented mLLDPE precursor film, only the orthorhombic-monoclinic phase transition appears at the first yield point. The melting-recrystallization and the formation of the fibrillary structure happen beyond the second yield point for all studied mLLDPE precursor films. Finally, the detailed microstructural evolution roadmaps of mLLDPE precursor films under uniaxial tensile deformation have been established, which might serve as a guide for processing high-performance polymer films by post-stretching.

Published
2020
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9. Preparation of Polyethylene and Ethylene/Methacrylic Acid Copolymer Blend Films with Tunable Surface Properties through Manipulating Processing Parameters during Film Blowing

Author

Sarmad Ali, Youxin Ji, Qianlei Zhang, Haoyuan Zhao, Wei Chen, Daoliang Wang, Lingpu Meng, and Liangbin Li

Subjects
pe, emaa, blown films, haze, wettability, Organic chemistry, QD241-441
Abstract

Polymer films based on polyethylene (PE) and ionomer ethylene/methacrylic acid (EMAA) copolymer blend were prepared by film blowing, whose surface properties were tuned by varying processing parameters, i.e., take up ratio (TUR). Blends of PE/EMAA copolymer were firstly prepared by the melt-mixing method, before being further blown to films. The wettability of the film was investigated by measuring the contact angle/water-film encounter time, and optical properties, i.e., the haze and transmittance. The wettability was found to be enhanced with the increase of TUR. So too was the haze, while the transmittance was found to be almost independent of TUR. The XPS and AFM results directly show the increasing polar functional groups (−COO−) on the surface and roughness with increasing TUR. Further analysis of the 2D SAXS and WAXS unveiled the origin of the invariant transmittance, which resulted from the minor change of the crystallinity and the monotonic increase of the haze, with TUR resulting from the evolution of crystal orientation. In addition to other post-modification methods, the current study provides an alternative route to prepare large-scale PE films as the template for the advanced potential applications, i.e., covering in the layer of roof, the privacy of protective windows, and multitudes of packaging.

Published
2019
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10. Genetic Fingerprint Concerned with Lymphatic Metastasis of Human Lung Squamous Cancer

Author

Xiaolong ZHAO, Li LI, Liangbin LI, Li CHEN, Qingchen WU, Zhiming QIN, Mei WANG, and Mingjian GE

Subjects
Lung neoplasms, Gene-expression, Lymphatic metastasis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Background and objective With the most recent introduction of microarray technology to biology, it becomes possible to perform comprehensive analysis of gene expression in cancer cell. In this study the laser microdissection technique and cDNA microarray analysis were combined to obtain accurate molecular profiles of lymphatic metastasis in patients with lung squamous cell carcinoma. Methods Primary lung squamous cancer tissues and regional lymph nodes were obtained from 10 patients who underwent complete resection of lung cancer. According to the source of lung cancer cells, the samples were classified into three groups: the primary tumor with lymphatic metastasis (TxN+, n=5), the primary tumor without lymphatic metastasis (TxN-, n=5) and matched tumor cells from metastatic lymph nodes (N+, n=5). Total RNA was extracted from laser microdissected tumor samples. Adequate RNA starting material of mRNA from primary tumor or metastatic nodes were labeled and then hybridized into the same microarray containing 6 000 known, named human genes/ESTs. After scanning, data analysis was performed using GeneSpringTM6.2. Results A total of 37 genes were found to be able to separate TxN+ from TxN-. TxN+ have higher levels of genes concerned with structural protein, signal transducer, chaperone and enzyme. TxN- have higher levels of genes coding for cell cycle regulator, transporter, signal transducer and apoptosis regulator. Interestingly, there were no differentially expressed genes between N+ and TxN+. Conclusion The acquisition of the metastatic phenotype might occur early in the development of lung squamous cancer. We raise the hypothesis that the gene-expression signature described herein is valuable to elucidate the molecular mechanisms regarding lymphatic metastasis and to look for novel therapeutic targets.

Published
2009

16. Combined separation-assay method for uranium in environmental water using a polyethylene-supported phosphonate coordination polymer membrane

Author

Heng Yan, Yi Liu, Fan Zhang, Kaiqiang Ma, Lei Tang, Xuemei Liu, Mei Gu, Jun Han, Fengcheng Wu, Wenting Bu, Chuting Yang, Liangbin Li, and Sheng Hu

Subjects
Nuclear Energy and Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Radiology, Nuclear Medicine and imaging, Pollution, Spectroscopy, Analytical Chemistry
Published
2022

25. Systemic lupus erythematosus: pathogenesis and targeted therapy

Author

Xu Su, Hui Yu, Qingqiang Lei, Xuerui Chen, Yanli Tong, Zhongyang Zhang, Wenyong Yang, Yuanbiao Guo, and Liangbin Lin

Subjects
Systemic lupus erythematosus, Autoimmune diseases, Pathogenesis, Targeted therapeutic strategies, Medicine
Abstract

Abstract Systemic lupus erythematosus (SLE) is a multifaceted autoimmune disorder characterized by dysregulated immune responses and autoantibody production, which affects multiple organs and varies in clinical presentation and disease severity. The development of SLE is intricate, encompassing dysregulation within the immune system, a collapse of immunological tolerance, genetic susceptibilities to the disease, and a variety of environmental factors that can act as triggers. This review provides a comprehensive discussion of the pathogenesis and treatment strategies of SLE and focuses on the progress and status of traditional and emerging treatment strategies for SLE. Traditional treatment strategies for SLE have mainly employed non-specific approaches, including cytotoxic and immunosuppressive drugs, antimalarials, glucocorticoids, and NSAIDs. These strategies are effective in mitigating the effects of the disease, but they are not a complete cure and are often accompanied by adverse reactions. Emerging targeted therapeutic drugs, on the other hand, aim to control and treat SLE by targeting B and T cells, inhibiting their activation and function, as well as the abnormal activation of the immune system. A deeper understanding of the pathogenesis of SLE and the exploration of new targeted treatment strategies are essential to advance the treatment of this complex autoimmune disease.

Published
2024
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27. Effect of propionyl group on birefringence and wavelength dispersion of propionylated cellulose acetate optical compensation films

Author

Xiaoyu Min, Xueqing Han, Tong Wu, Minfang An, and Liangbin Li

Subjects
Polymers and Plastics
Abstract

Propionylated cellulose acetate (PCA) with different propionyl substitution degrees (DSPr) was synthesized, and the corresponding optical films were prepared by solution casting. The birefringence and its wavelength dispersion of PCA films stretched at 10°C above and below the glass transition temperature (Tg) with different draw ratios (DR) were studied. The introduction of propionyl group at different substitution sites present different contribution to birefringence and its wavelength dispersion. The propionyl group at C-2 and C-3 sites have a larger positive orientation birefringence with stronger inverse wavelength dispersion, while that at the C-6 site shows a higher negative orientation birefringence with weaker normal wavelength dispersion compared with the acetyl group. Compared with CA film, the introduction of the propionyl group weakens the orientation birefringence of PCA film. With the increase of DSPr from 0.023 to 0.303, the occurrence of propionyl substitution only at the C-6 site turns to C-2, C-3 and C-6 sites and the wavelength dispersion of in-plane birefringence (Δnin) decreases. When DSPr is further increased to 0.537, the Δnin and out-of-plane birefringence (Δnth) of PCA films at different DR show a very weak wavelength dispersion with the relative horizontal curves. Current results indicate that when the substitution degree of the propionyl group and acetyl group is suitable, the wavelength dispersion of PCA film can be eliminated.

Published
2023

35. Mblk‐1 regulates sugar responsiveness in honey bee ( Apis mellifera ) foragers

Author

Yuan Zhang, Liangbin Li, Qiang Li, Hongxia Zhao, Zachary Y. Huang, Fang Liu, and Lixian Wu

Subjects
Sucrose, Messenger RNA, animal structures, fungi, Brain, food and beverages, Honey bee, Bees, Biology, General Biochemistry, Genetics and Molecular Biology, Cell biology, Transcription (biology), Insect Science, Mushroom bodies, Gene expression, behavior and behavior mechanisms, Animals, Sugars, Agronomy and Crop Science, Transcription factor, Gene, Mushroom Bodies, Ecology, Evolution, Behavior and Systematics, Function (biology), Transcription Factors
Abstract

Brain transcriptional regulatory network for behavior demonstrates that brain gene expression in the honey bee can be accurately predicted from the expression transcription factors (TFs), but roles for specific TFs are less understood. Mushroom bodies (MBs) are important for learning, memory and sensory integration in the honey bee brain. A transcription factor, Mblk-1, expressed preferentially in the large-type Kenyon cells of the honeybee MBs is predicted to be involved in brain function by regulating transcription of its target genes in honey bee. However its function and the mechanism of regulation in behavior of honey bee is still obscure. Here we show that Mblk-1 had significantly higher expression in the brains of forager bees relative to nurse bees. Mblk-1 was significantly inhibited in bees fed siRNA. In addition, inhibition of Mblk-1 decreased sucrose responsiveness in foragers. Finally, we determined that Mblk-1 regulated the mRNA of AmGR1. These findings suggest that Mblk-1 may target AmGR1 to regulate the sucrose responsiveness of foragers. This article is protected by copyright. All rights reserved.

Published
2021

36. The technology for detection of gamma-ray burst with GECAM satellite

Author

H. J. Lu, C. Y. Li, L. Chang, Fan Zhang, C. Cai, Yongqiang Chen, X. Y. Wen, F. J. Lu, Cheng Chen, H. Wang, XiangYang Wen, Liangbin Li, G. Li, J. P. Yu, Y. G. Li, Bin Meng, Mao-Shun Li, W. X. Peng, Y. S. Wang, Chun-sheng Zhang, J. Z. Wang, K. Gong, S. Xiao, D. J. Hou, Z. H. An, J. Huang, J. J. He, X. H. Liang, Y. B. Xu, Yuan-Yuan Du, D. L. Zhang, Xilei Sun, H. Z. Wang, Z. Chang, Sisi Yang, G. F. Chen, X. K. Zhou, Xiaoran Zhao, Yang Liu, Min Gao, Shaolin Xiong, Fei Zhang, F. Shi, J. W. Yang, Y. P. Xu, Xuelong Li, D. Y. Guo, C. S. Zhang, Y. Zhao, Qi-Bin Yi, R. Gao, S. N. Zhang, Kaili Zhang, X. J. Liu, X. B. Han, X. Q. Li, and C. Y. Zhang

Subjects
Physics, Nuclear and High Energy Physics, Nuclear Energy and Engineering, biology, Satellite (biology), biology.organism_classification, Gamma-ray burst, Remote sensing
Published
2021

48. A Unified Thermodynamic Model of Flow-induced Crystallization of Polymer

Author

Cui Nie, Fan Peng, Tingyu Xu, Wei Chen, Junfang Sheng, and Liangbin Li

Subjects
chemistry.chemical_classification, Materials science, Polymers and Plastics, General Chemical Engineering, Organic Chemistry, Nucleation, Thermodynamics, Polymer, Polyethylene, Conformational entropy, law.invention, Crystal, chemistry.chemical_compound, Flow (mathematics), chemistry, law, Condensed Matter::Superconductivity, Orthorhombic crystal system, Crystallization
Abstract

We propose a unified thermodynamic model of flow-induced crystallization of polymer (uFIC), which incorporates not only the conformational entropy reduction but also the contributions of flow-induced chain orientation, the interaction of ordered segments, and the free energy of crystal nucleus and crystal morphology. Specifically, it clarifies the determining parameters of the critical crystal nucleus size, and is able to account for the acceleration of nucleation, the emergence of precursor, different crystal morphologies and structures induced by flow. Based on the nucleation barrier under flow, we analyze at which condition precursor may occur and how flow affects the competition among different crystal forms such as orthorhombic and hexagonal phases of polyethylene. According to the uFIC model, the different crystal morphologies and structures in the flow-temperature space have been clarified, which give a good agreement with experiments of FIC.

Published
2021

49. Anomalous thermally expanded polymer networks for flexible perceptual devices

Author

Shanshan Zhu, Huoerhute Yelemulati, Liangbin Li, Pengcheng Wu, Guanglin Li, Jinlian Hu, and Yanlong Tai

Subjects
Flexibility (engineering), Perceptual system, Computer science, business.industry, Electronic engineering, Metamaterial, Robot, General Materials Science, Sensitivity (control systems), Adaptation (computer science), business, Actuator, Wearable technology
Abstract

Summary Thermo-responsive polymeric metamaterials have become indispensable because of their wide applications to human-machine interaction, soft robots, wearable devices, augmented/virtual reality, etc. Polymer network-regulated sensing materials could present higher flexibility and adaptability compared to those with rigid structures or silicon-based materials, and their responses to thermal stimulation are more easily triggered and implemented compared to other stimuli, such as light, electricity, etc. Progress relies on the development of programmable materials with tunable thermal expansion on the micro-/macroscale, sheds light on this direction, and facilitates devices that exhibit unprecedented adaptation, sensitivity, and agility. and facilitates devices that exhibit unprecedented adaptation, sensitivity, and agility. This review refines the perceptual elements of positive, negative, anisotropic, tunable, and zero thermal expansion behaviors of polymers and further summarizes corresponding mechanisms, materials design, tuning methods, and related applications to flexible perceptual devices, including 2D response as sensor, 2D/3D/4D response as actuator, and insensitive response as stabilizator. The framework of research progress is presented from a single perceptual element to an integrated perceptual system, from microscopic regulation to macroscopic response. We present an overview of the current research status, which will be an important guide for future development in this field, and simultaneously provide a reference for the broader scientific community.

Published
2021

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