International Journal of Extreme Manufacturing
@IntJExtremManuf
International Journal of Extreme Manufacturing (IJEM) publishes highest-quality #ExtremeManufacturing research #IF=21.3, 1st in the #Engineering, Manufacturing
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Discover how #AdditiveManufacturing is driving the 21st-century industrial revolution! Join the #ExtremeManufacturing #Webinar Series featuring experts from @WSUNews, @NorthwesternU, @UTEP, @HKUniversity & @harvardmed. Date: Nov 6 (New York) | Nov 7 (Beijing) Event link:…
This review summarizes how #macrophage-driven #neurovascularization supports nerve regeneration after #PeripheralNerveInjury & outlines in vitro #prevascularization, in vivo prevascularization, and in situ stimulation strategies. #scaffolds #OpenAccess #IJEM:…
This review covers stimuli-responsive #actuators in underwater #robotics, discussing their design, fabrication and applications, emphasizing the need for advances in durability, multifunctionality, and autonomous capabilities for #MarineEnvironments. #IJEM:…
This review covers low-temperature-field-assisted fabrication methods— #FreezeCasting, #cryogenic #3DPrinting, and freeze spinning—that use ice templating, enabling cross-scale #scaffolds that better mimic natural tissues in #TissueEngineering. #IJEM: doi.org/10.1088/2631-7…
Exploring how femtosecond laser micro/nano processing enables precise material control, high-throughput #Fabrication, 4D/nanoscale printing, heterogeneous integration, and the production of complex 3D micro-devices. #OpenAccess: doi.org/10.1088/2631-7…
Exploring how embodied AI & #nanogenerator-based triboelectric/piezoelectric #Sensors enable self-powered, #AdaptiveRobotics, outlining advances in #Sensing, computing, & actuation for next-gen intelligent systems. #IJEM #OpenAccess: doi.org/10.1088/2631-7…
Scientists highlight the transformative potential of #TENGs as self-powered, low-cost technologies for #PersonalizedHealthManagement, detailing their mechanisms, materials, structural innovations, and diverse #healthcare applications. @yonsei_u #IJEM: doi.org/10.1088/2631-7…
This review explores how electrical microenvironments enhance excitable tissue regeneration, the design & #Fabrication of flexible bioelectronics, and the feasibility of integrating them with tissue engineering scaffolds. #IJEM #OpenAccess: doi.org/10.1088/2631-7…
An overview of #PiezoelectricActuators, detailing their types, principles, and diverse applications in positioning, #BiomedicalDevices, #manufacturing, and #microrobotics, while highlighting key advances and future development trends. #OpenAccess in #IJEM: doi.org/10.1088/2631-7…
A review on how #AdditiveManufacturing is reshaping biomedical metal implants—from advanced alloys and 4D printing to AI-driven design—enabling personalized, high-performance solutions across medical specialities. @EdithCowanUni #OpenAccess: doi.org/10.1088/2631-7…
Researchers summarize advances and limitations in #OrganEngineering and propose a modular strategy using #autologous in vivo #bioreactors to integrate high-resolution functional modules into #BioengineeredOrgans. #Transplantation #OpenAccess in #IJEM: doi.org/10.1088/2631-7…
Frequency multiplexed photothermal correlation tomography, by leveraging photothermal tomography & pulsed thermography, accurately enables non-destructive & contactless evaluation of manufactured materials. @universitelaval #IJEM #OpenAccess: doi.org/10.1088/2631-7…
Monolithically integrated textile hybrid electronics with flexible electrodes, laser-induced #Sensors, SMDs, and double-layer circuits show potential in multimodal #HealthMonitoring and closed-loop #Diagnosis & treatment. #OpenAccess: doi.org/10.1088/2631-7…
A wearable #AI-driven control system that uses multimodal #sensors and #MagneticActuation to precisely navigate micro/#nanorobots, enabling adaptive real-time manipulation and targeted cancer-cell killing, advancing intelligent #BiomedicalRobotics. #IJEM: doi.org/10.1088/2631-7…
Presenting a novel and simple material system for voltage-tunable SAW phase shifters, based on ZnO TFTs on LiNbO3 structures, with a high electromechanical coupling coefficient, superior conductivity adjustability. #IJEM #OpenAccess: doi.org/10.1088/2631-7…
A hybrid #nanolithography strategy using #semiconductor #QuantumDots to create stable #3D micro-/nano-structures with sub-100 nm precision and thermal stability up to 600 °C for advanced optical, data storage, and encryption applications. #OpenAccess in #IJEM:…
An autonomous inverse-encoding strategy for #4D #nanoprinting that accelerates design by 3,700× using #NeuralNetworks, enabling fully automated, image-driven fabrication of programmable, shape-morphing micro/nanostructures. #Robotics #OpenAccess in #IJEM: doi.org/10.1088/2631-7…
A self-propelled ferroptosis #Nanoinducer comprising the endogenous proteins, glucose oxidase & ferritin exhibits enhanced #AntiTumor activity by inducing #Ferroptosis while maintaining high API & #Biocompatibility. #IJEM #OpenAccess: doi.org/10.1088/2631-7…
Development of accurate models for predicting #SurfaceRoughness and SSD in hard, brittle #semiconductormaterials during #grinding by integrating grit–workpiece interactions, elastic recovery, and key material properties. #PrecisionGrinding #OpenAccess #IJEM:…
A micro-amplitude vibration-assisted scratching method for the #Fabrication of microscale V-groove & nanoscale ripples enables the making of complex patterns on flat & curved surfaces with diverse structural colors. #IJEM #OpenAccess: doi.org/10.1088/2631-7…
Defect-free Co/SiO₂ #HybridBonding achieved via Ar/NH₃/H₂O #PlasmaActivation enhances #SurfaceEnergy and reduces Co–Co interface resistance by >40%, enabling oxide-free bonding for #UltraHighDensity integration with broad material compatibility. #IJEM: doi.org/10.1088/2631-7…
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