Novel Trends in Magnetic Polymeric Nanoarchitectures

Idumah, Christopher Igwe

doi:10.1080/25740881.2020.1869780

Cited by 19 publications

(5 citation statements)

References 104 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Meanwhile, a versatile range of studies have been conducted on SMP and nanoarchitectures recently with versatile enhanced properties for multifunctional applications. [ 98–180 ]…”

Section: Discussionmentioning

confidence: 99%

Multifunctional properties optimization and stimuli‐responsivity of shape memory polymeric nanoarchitectures and applications

Idumah

2023

Polymer Engineering & Sci

Self Cite

View full text Add to dashboard Cite

As a result of nanotechnological advancement, parameters inducing flaws in shape memory polymers (SMP), such as weak mechanical properties, low electrical, and thermal conductivities, and so on, were mitigated through the inclusion of a versatile range of nanomaterials such as montmorillonites, carbon nanotubes, graphene and derivatives, cellulose nanocrystals, carbon nanofibers, and so on, thereby forming shape memory polymeric nanoarchitectures (SMPNs). Hence, this work elucidates most recently emerging advancements on multifunctional SMPNs filled by differing nanoparticulates. Varying multifunctional SMPNs exhibit responsivity to varying forms of stimulation strategies, including thermal responsivity, electroactivated, alternating magnetic field responsivity, light sensitivity, and water induced SMPs. Therefore, this article presents very recently emerging advancements in the construction, characterization, properties, and multifunctional applications of stimuliresponsive SMPNs, with special emphasis on functional and stimuli-responsive SMPNs. Furthermore, important functions of SMPNs such as stimuli-memory effect and self-mending abilities, as well as prospective strategies for future progress of these materials are highlighted.

show abstract

“…Meanwhile, a versatile range of studies have been conducted on SMP and nanoarchitectures recently with versatile enhanced properties for multifunctional applications. [ 98–180 ]…”

Section: Discussionmentioning

confidence: 99%

Multifunctional properties optimization and stimuli‐responsivity of shape memory polymeric nanoarchitectures and applications

Idumah

2023

Polymer Engineering & Sci

Self Cite

View full text Add to dashboard Cite

show abstract

“…MoS 2 @PNC have exhibited increased toughness, enhanced tribological attributes, improved thermal stability, and enhanced flame repression. On the other hand, a versatile range of PNC has been fabricated for multifunctional applications 64‐135 . With the advancement in nanotechnology, it is anticipated that innovations generable in the next generation of MoS 2 @PNC are blue chip.…”

Section: Discussionmentioning

confidence: 99%

Molybdenum disulfide polymeric nanoarchitectures and applications: A review

Idumah

2023

Polymer Engineering & Sci

View full text Add to dashboard Cite

The advent of nanotechnology has escalated the quest for novel 2‐D nanomaterials (NMs) with the capability of surpassing all known advantages of graphene (GN), and more, resulting in the recent discovery of molybdenum disulfide (MoS2). MoS2 is a 2‐D sheet‐like NM, possessing unique layered “sandwich” architecture, in addition to chemical, electronic, and optical features similar to those of GN, thereby expanding their scope of applications for transistors, solar cells, catalysts, sensors, and so on. The embedment of MoS2 inside polymeric substrates (PP, PEG, epoxy, and so on), have resulted in the construction of MoS2 polymer nanoarchitectures exhibiting superior mechanical, thermal, and flame retardant features with multifunctional and versatile applications. Hence, this elucidation discusses recently emerging research activities in MoS2 polymeric nanoarchitectures and multifaceted applications.

show abstract

“…The flexibility along with heterogeneity in polymer has been widely used for magnetic sensors and several magnetic sensors are commercialized for different electrics and biomedical applications like magneto mammography for muscular motion. The polymer composite with magnetic properties was explored in the sensing application after exploring magneto rheological properties with targeted applications [ 39 , 40 ]. These polymer-based magnetic composite has been also explored for sensing magnetically active molecules as well as removal magnetic water pollutants like arsenic effectively [ 41 ].…”

Section: Physical Sensorsmentioning

confidence: 99%

Century Impact of Macromolecules for Advances of Sensing Sciences

Shukla

2022

Chemistry Africa

View full text Add to dashboard Cite

Impact of macro molecular theory on the progress of sensing sciences and technology has been presented in the light of materials developments, advances in physical and chemical properties. The chronological advances in the properties of macromolecules have significantly improved the sensing performances towards gases, heavy metals, biomolecules, hydrocarbon, and energetic compounds in terms of unexplored sensing parameters, durability, and working lifetime. In this review article, efforts have been made to correlate the advances in structure and interactivity of macro-molecules with their sensing behavior and working performances. The significant findings on the macromolecules towards advancing the sensing sciences are highlighted with the suitable illustration and schemes to establish it as a potential “microanalytical technique” along with existing challenges. Graphical Abstract

show abstract

Novel Trends in Magnetic Polymeric Nanoarchitectures

Cited by 19 publications

References 104 publications

Multifunctional properties optimization and stimuli‐responsivity of shape memory polymeric nanoarchitectures and applications

Multifunctional properties optimization and stimuli‐responsivity of shape memory polymeric nanoarchitectures and applications

Molybdenum disulfide polymeric nanoarchitectures and applications: A review

Century Impact of Macromolecules for Advances of Sensing Sciences

Contact Info

Product

Resources

About