Ferrofluid High Internal Phase Emulsion Polymer Foams for Soft, Magnetic Materials

[1]  Tiansheng Gan,et al.  Solution-processable, soft, self-adhesive, and conductive polymer composites for soft electronics , 2022, Nature communications.

[2]  V. Chaudhary,et al.  AC Magnetorheology of Polymer-Magnetic Composites , 2022, Materials Advances.

[3]  N. Ayres,et al.  Mechanically tunable PDMS-based polyHIPE acoustic materials , 2022, Journal of Materials Chemistry C.

[4]  Terry W. J. Steele,et al.  Optimizing the Magnetocuring of Epoxy Resins via Electromagnetic Additives , 2021, Advanced Materials Interfaces.

[5]  P. Clegg,et al.  Complex High-Internal Phase Emulsions that can Form Interfacial Films with Tunable Morphologies. , 2021, Langmuir : the ACS journal of surfaces and colloids.

[6]  C. Marin,et al.  Electric and magnetic properties of a composite consisting of silicone rubber and ferrofluid , 2021 .

[7]  P. Krajnc,et al.  Porous Polymers from High Internal Phase Emulsions as Scaffolds for Biological Applications , 2021, Polymers.

[8]  S. Lanceros‐Méndez,et al.  Magnetorheological Elastomer‐Based Materials and Devices: State of the Art and Future Perspectives , 2021, Advanced Engineering Materials.

[9]  Amanda S. Koh,et al.  Performance and Stability of Magnetorheological Fluids—A Detailed Review of the State of the Art , 2021, Advanced Engineering Materials.

[10]  Amanda S. Koh,et al.  Recent Advances in Deformable Circuit Components with Liquid Metal , 2021, Advanced Electronic Materials.

[11]  Wei Li,et al.  Nd2Fe14B hard magnetic powders: Chemical synthesis and mechanism of coercivity , 2021 .

[12]  Michael Yu Wang,et al.  Design Optimization of Soft Robots: A Review of the State of the Art , 2020, IEEE Robotics & Automation Magazine.

[13]  V. Chaudhary,et al.  Magnetocuring of temperature failsafe epoxy adhesives , 2020 .

[14]  Zhiguang Xu,et al.  Closed-cell, phase change material-encapsulated, emulsion-templated monoliths for latent heat storage: Flexibility and rapid preparation , 2020 .

[15]  Weihua Li,et al.  Recent progress of magnetorheological elastomers: a review , 2020, Smart Materials and Structures.

[16]  Michael D. Bartlett,et al.  Mechanically Cloaked Multiphase Magnetic Elastomer Soft Composites for Wearable Wireless Power Transfer. , 2020, ACS applied materials & interfaces.

[17]  F. Parın,et al.  Hydrophilic closed-cell macroporous foam preparation by emulsion templating , 2020 .

[18]  T. Brunet,et al.  Drying kinetics and acoustic properties of soft porous polymer materials , 2020, Journal of Porous Materials.

[19]  Fuyou Du,et al.  Recent advances in separation applications of polymerized high internal phase emulsions. , 2020, Journal of separation science.

[20]  G. Beaucage,et al.  Storage Moduli and Porosity of Soft PDMS PolyMIPEs Can Be Controlled Independently Using Thiol–Ene Click Chemistry , 2020, Macromolecules.

[21]  Mingyue Lu,et al.  A review of recent advancements in soft and flexible robots for medical applications , 2020, The international journal of medical robotics + computer assisted surgery : MRCAS.

[22]  Min Chen,et al.  Robust porous organosilica monoliths via a surfactant-free high internal phase emulsion process for efficient oil-water separation. , 2020, Journal of colloid and interface science.

[23]  Amrita Kataruka,et al.  PDMS polymerized high internal phase emulsions (polyHIPEs) with closed-cell, aqueous-filled microcavities. , 2019, Soft matter.

[24]  Lijia Pan,et al.  Properties of conductive polymer hydrogels and their application in sensors , 2019, Journal of Polymer Science Part B: Polymer Physics.

[25]  Jae Yun Lee,et al.  Magnetorheological characteristics of carbonyl iron microparticles with different shapes , 2019, Korea-Australia Rheology Journal.

[26]  V. Chaudhary,et al.  Iron and manganese based magnetocaloric materials for near room temperature thermal management , 2019, Progress in Materials Science.

[27]  James F Rusling,et al.  An Ultra‐Shapeable, Smart Sensing Platform Based on a Multimodal Ferrofluid‐Infused Surface , 2019, Advanced materials.

[28]  Tie Li,et al.  Materials, Structures, and Functions for Flexible and Stretchable Biomimetic Sensors. , 2019, Accounts of chemical research.

[29]  K. Taylor-Pashow,et al.  PolyHIPEs for Separations and Chemical Transformations: A Review , 2019, Solvent Extraction and Ion Exchange.

[30]  Zhifeng Ren,et al.  Flexible Electronics: Stretchable Electrodes and Their Future , 2018, Advanced Functional Materials.

[31]  Jianyong Ouyang,et al.  Soft Electronically Functional Polymeric Composite Materials for a Flexible and Stretchable Digital Future , 2018, Advanced materials.

[32]  Massimo Totaro,et al.  Toward Perceptive Soft Robots: Progress and Challenges , 2018, Advanced science.

[33]  Geoffrey A. Slipher,et al.  Deformable liquid metal polymer composites with tunable electronic and mechanical properties , 2018, Journal of Materials Research.

[34]  Alexander M Seifalian,et al.  Conductive Polymers: Opportunities and Challenges in Biomedical Applications. , 2018, Chemical reviews.

[35]  S. Kubrin,et al.  Tuning of ferrimagnetic nature and hyperfine interaction of Ni2+ doped cobalt ferrite nanoparticles for power transformer applications , 2018, Ceramics International.

[36]  K. Zimmermann,et al.  Dynamic response of a sensor element made of magnetic hybrid elastomer with controllable properties , 2018 .

[37]  Lin Li,et al.  A hybrid magnetorheological elastomer developed by encapsulation of magnetorheological fluid , 2018, Journal of Materials Science.

[38]  B. Nelson-Cheeseman,et al.  3D printed magnetic polymer composite transformers , 2017 .

[39]  Q. Pei,et al.  Electronic Muscles and Skins: A Review of Soft Sensors and Actuators. , 2017, Chemical reviews.

[40]  Yinghui Chen,et al.  An Overview of Pickering Emulsions: Solid-Particle Materials, Classification, Morphology, and Applications , 2017, Front. Pharmacol..

[41]  I. Sridhar,et al.  Self pumping magnetic cooling , 2017 .

[42]  R. Ziff,et al.  In a search for a shape maximizing packing fraction for two-dimensional random sequential adsorption. , 2016, The Journal of chemical physics.

[43]  T. Brunet,et al.  Tailoring of the porous structure of soft emulsion-templated polymer materials. , 2016, Soft matter.

[44]  Amarildo Tabone Paschoalini,et al.  Magnetic properties of vulcanized natural rubber nanocomposites as a function of the concentration, size and shape of the magnetic fillers , 2016 .

[45]  I. M. Subbotin,et al.  Weak field magnetic susceptibility of ferrofluid emultions: the influence of droplet polydispersity , 2016 .

[46]  K. Masania,et al.  Fast-curing epoxy polymers with silica nanoparticles: properties and rheo-kinetic modelling , 2015, Journal of Materials Science.

[47]  J. Mano,et al.  Magnetic composite biomaterials for tissue engineering. , 2014, Biomaterials science.

[48]  V. P. Dutta,et al.  Synthesis of ferrofluid based nanoarchitectured polypyrrole composites and its application for electromagnetic shielding , 2014 .

[49]  M. Silverstein Emulsion-templated porous polymers: A retrospective perspective , 2014 .

[50]  M. Silverstein PolyHIPEs: Recent advances in emulsion-templated porous polymers , 2014 .

[51]  Bonnie L. Gray,et al.  A Review of Magnetic Composite Polymers Applied to Microfluidic Devices , 2014 .

[52]  Dae-Hyeong Kim,et al.  Flexible and stretchable electronics for biointegrated devices. , 2012, Annual review of biomedical engineering.

[53]  John B. Weaver,et al.  Measurement of magnetic nanoparticle relaxation time. , 2012, Medical physics.

[54]  T. Kang,et al.  Magnetic nanofibers with core (Fe3O4 nanoparticle suspension)/sheath (poly ethylene terephthalate) structure fabricated by coaxial electrospinning , 2012 .

[55]  Hongwei Shen,et al.  Study of polydiethylsiloxane-based ferrofluid with excellent frost resistance property , 2009 .

[56]  P. Jiang,et al.  Epoxy/nano‐silica composites: Curing kinetics, glass transition temperatures, dielectric, and thermal–mechanical performances , 2008 .

[57]  Norman M. Wereley,et al.  Magnetorheology of submicron diameter iron microwires dispersed in silicone oil , 2008 .

[58]  Faramarz Gordaninejad,et al.  A New MR Fluid-Elastomer Vibration Isolator , 2007 .

[59]  H. Shokrollahi,et al.  Soft magnetic composite materials (SMCs) , 2007 .

[60]  J. Alam,et al.  Effect of ferrofluid concentration on electrical and magnetic properties of the Fe3O4/PANI nanocomposites , 2007 .

[61]  Q. Lu,et al.  Preparation and characterization of polymer-coated core–shell structured magnetic microbeads , 2003 .

[62]  P. W. Kuchel,et al.  Magnetic susceptibility: solutions, emulsions, and cells , 2003, q-bio/0601030.

[63]  P. Uhlherr,et al.  Yield stress and maximum packing fraction of concentrated suspensions , 1995 .

[64]  D. E. Tambe,et al.  The effect of colloidal particles on fluid-fluid interfacial properties and emulsion stability , 1994 .