《International Journal of Smart and Nano Materials》

作品数:348被引量:225H指数:5
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《International Journal of Smart and Nano Materials》
主办单位:哈尔滨工业大学
最新期次:2024年3期更多>>
发文主题:ACTUATIONCARBON_NANOTUBEEDSMARTGRAPHENE更多>>
发文领域:一般工业技术理学金属学及工艺自动化与计算机技术更多>>
发文基金:国家自然科学基金中国博士后科学基金国家重点基础研究发展计划俄罗斯基础研究基金更多>>
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An effective nonlinear dynamic formulation to analyze grasping capability of soft pneumatic robotic gripper
《International Journal of Smart and Nano Materials》2024年第3期405-431,共27页Qiping Xu Chenhang Ying Kehang Zhang Huiyu Xie Shiju E 
supported by Natural Science Foundation of Zhejiang Province (Grant No.LQ22A020003);National Natural Science Foundation of China (Grant No.52075499)for which all authors are grateful.
Soft pneumatic robotic grippers have found extensive applica-tions across various engineering domains,which prompts active research due to their splendid compliance,high flex-ibility,and safe human-robot interaction o...
关键词:Nonlinear dynamic formulation soft pneumatic robotic grippers contact interaction grasping capability configuration variations 
Unlocking the potential of transdermal drug delivery
《International Journal of Smart and Nano Materials》2024年第3期432-468,共37页Shuang Li Jianhao Wu Xiangjun Peng Xi-Qiao Feng 
supported by the National Natural Science Foundation of China [12032014,11921002].
Transdermal drug delivery(TDD)has gained clinical approval over several decades,with extensive research dedicated to novel drug and device development.Despite notable research progress,the mar-ket adoption of TDD devi...
关键词:Transdermal drug delivery BIOMECHANICS NANOMEDICINE flexible electronics 
Room temperature self-healing liquid metals:capabilities,applications and challenges
《International Journal of Smart and Nano Materials》2024年第3期469-501,共33页Chen Hua Jianye Gao Jing Liu 
supported by the National Natural Science Foundation of China [91748206];Frontier Project of the Chinese Academy of Sciences;China Postdoctoral Science Foundation [2023M731888].
Self-healing materials span diverse application fields,including flexible electronics,soft robotics,and energy devices.However,conventional self-healing materials pose a challenge in achiev-ing the delicate balance be...
关键词:SELF-HEALING Liquid metal Smart materials 
Role of flexible sensors for the electrochemical detection of organophosphate-based chemical warfare agents
《International Journal of Smart and Nano Materials》2024年第3期502-533,共32页Aman Dubey Aamir Ahmed Rakesh Singh Anoop Singh Ashok K.Sundramoorthy Sandeep Arya 
supported by the Science and Engineering Research Board [EEQ/2021/000172].
This review article comprehensively explores the electrochemi-cal detection of organophosphate-based agents,including war-fare agents,pesticides,and simulants.It provides an in-depth analysis of their molecular struct...
关键词:Chemical warfare agents electrochemical detection flexible nanosensors organophosphates PESTICIDES 
Dispersion effect of nano-structure pyrolytic carbon on mechanical,electrical,and microstructural characteristics of cement mortar composite
《International Journal of Smart and Nano Materials》2024年第3期534-578,共45页N.K.Karthikeyan S.Elavenil 
In material science,converting waste into nanomaterials by green technologies highlights the interest in producing sus-tainable carbon nanomaterial(SCN).This study first-ever uti-lized tyre-char as a Nano-Structure Py...
关键词:Sustainable nanomaterial DISPERSION mechanical properties electrical resistivity microstructure analysis 
Effects of interlayer spacing and applied pressure on the lanthanide transport in MoS_(2)-based two-dimensional channels
《International Journal of Smart and Nano Materials》2024年第3期579-592,共14页Qinsi Xiong Chong Liu George C.Schatz 
supported by the U.S.Department of Energy [DE-SC0022231].
Rare-earth elements(REEs)are critical to modern industry but difficult to separate due to their subtle and monotonic changes in physico-chemical properties.MoS2-based two-dimensional(2D)materials offer novel opportuni...
关键词:MoS_(2) 2D channels Lanthanide ions ion transport nanofluidics 
Synthesis and characterization of ultra-soft alginate hydrogel mimicking lung tissue
《International Journal of Smart and Nano Materials》2024年第3期593-609,共17页Xiangpeng Li Jihua Gou Chiranjit Maiti Olusegun J.Ilegbusi 
supported by the UCF Seed Funding Program−Exploratory Research Award and the US National Science Foundation CBET Nanoscale Interactions Program [Award No.2153814].
Alginate hydrogels possess properties analogous to those of the extracellular matrix(ECM).Thus,their mechanical behavior approx-imates soft tissue,which makes them desirable for the production of tissue-equivalent sof...
关键词:ALGINATE HYDROGELS Ultra-low modulus lung tissue-mimicking materials 
Therapeutic potentials of peptide-derived nanoformulations in atherosclerosis:present status and future directions
《International Journal of Smart and Nano Materials》2024年第3期610-651,共42页Xue Liu Weijiao Wang Qiang Li Hongtao Niu Weili Zhang 
Atherosclerosis is a severe cardiovascular disease followed by the accumulation of atherosclerotic plaques within the lumen of blood vessels resulting in reduced blood flow thus initiating a series of events.Conventio...
关键词:ATHEROSCLEROSIS anti-atherosclerotic drugs BIOAVAILABILITY peptide-based nanomedicines drug targeting 
Progress in high-performance stick-slip piezoelectric actuators: a review
《International Journal of Smart and Nano Materials》2024年第3期652-696,共45页Yingqi Lin Dawei An Zhenyu Lin Xiaoting Chen Weiqing Huang 
supported by the National Natural Science Foundation of China [No.52075108,52105177];the Natural Science Foundation of Guangdong Province,China [No.2022A1515011875];the Young innovative talents project of general colleges and universities in Guangdong Province,China [No.2021KQNCX067].
The ultra-precision field is popular for its micro-nanometer positioning accuracy and large working stroke.Piezoelectric actuators based on the stick-slip operational principle exhibit superior performance characteris...
关键词:Piezoelectric actuator stick-slip motion principle flexure mechanism positioning accuracy 
Hybrid 3D printed three-axis force sensor aided by machine learning decoupling被引量:1
《International Journal of Smart and Nano Materials》2024年第2期261-278,共18页Guotao Liu Peishi Yu Yin Tao Tao Liu Hezun Liu Junhua Zhao 
supported by the National Natural Science Foundation of China [12372078];Sixth Phase of Jiangsu Province"333 High Level Talent Training Project"Second Level Talents State Key Laboratory of Mechanics and Control of Mechanical Structures (Nanjing University of Aeronautics and astronautics [MCMS-E-0422G04].
Identification of magnitude and orientation for spatially applied loading is highly desired in the fields of not only the machinery components but also human-machine interaction.Despite the fact that the 3-axis force ...
关键词:Hybrid 3D printing 3-axis force sensor machine learning nonlinear decoupling 
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