Magnetohydrodynamic levitation for high-performance flexible pumps | PNAS
High-Performance, Lightweight, and Flexible Thermoplastic Polyurethane Nanocomposites with Zn2+-Substituted CoFe2O4 Nanoparticles and Reduced Graphene Oxide as Shielding Materials against Electromagnetic Pollution | ACS Omega
Emerging Opportunities in Manufacturing Bulk Soft-Magnetic Alloys for Energy Applications: A Review | SpringerLink
Ferrite (magnet) - Wikipedia
Springer Nature
The shape – morphing performance of magnetoactive soft materials - ScienceDirect
Multifunctional magnetic soft composites: a review - IOPscience
Frontiers | Electromagnetic Feet With Soft Toes for Adaptive, Versatile, and Stable Locomotion of an Inchworm-Inspired Pipe Crawling Robot
Effects of Mn addition on crystallization behavior and soft magnetic properties of Fe–Si–B–P–Cu nanocrystalline alloy
Soft Magnetic Applications Guide
High Performance Soft Magnetic Materials | SpringerLink
Journal of Materials Science: Materials in Electronics 16/2021 | springerprofessional.de
Magnetic Soft Materials and Robots | Chemical Reviews
Soft Magnetic Materials in High-Frequency, High-Power Conversion Applications | SpringerLink
Accelerating the discovery of novel magnetic materials using machine learning–guided adaptive feedback | PNAS
Very-High Dynamic Range, 10,000 Frames/Second Pixel Array Detector for Electron Microscopy | Microscopy and Microanalysis | Cambridge Core
Design of soft magnetic materials | npj Computational Materials
Spider Silk‐Inspired Artificial Fibers - Li - 2022 - Advanced Science - Wiley Online Library
Soft magnetic properties of nano-SiO2 coated FeNi alloy powder at high frequencies | springerprofessional.de
PDF) Tailoring of Soft Magnetic Properties and High Frequency Giant Magnetoimpedance in Amorphous Ribbons
Soft magnetic materials for a sustainable and electrified world | Science
Soft Magnetic Materials
Micromachines | Free Full-Text | Power Losses Models for Magnetic Cores: A Review
Fe-Si-Al Soft Magnetic Composites with Significantly Reduced Core Loss via Constructing Uniform TiO2 Insulation Layer
Frontiers | Study on Magnetic Control Systems of Micro-Robots
Soft Magnetic Materials | SpringerLink
