000 04388cam a2200493Ia 4500
001 on1286498012
003 OCoLC
005 20230516170003.0
006 m o d
007 cr |n|||||||||
008 211128s2021 ne o 001 0 eng d
040 _aYDX
_beng
_cYDX
_dEBLCP
_dOPELS
_dOCLCO
_dUKAHL
_dUKMGB
_dOCLCF
_dOCLCO
_dOCLCQ
015 _aGBC1D7312
_2bnb
016 7 _a020300032
_2Uk
019 _a1286386812
_a1286422995
_a1287132024
020 _a9780128208830
_q(electronic bk.)
020 _a012820883X
_q(electronic bk.)
020 _z9780128205587
035 _a(OCoLC)1286498012
_z(OCoLC)1286386812
_z(OCoLC)1286422995
_z(OCoLC)1287132024
050 4 _aTA418.9.N35
082 0 4 _a620.115
_223
245 0 0 _aDesign, fabrication and characterization of multifunctional nanomaterials /
_cedited by Sabu Thomas, Nandakumar Kalarikkal and Ann Rose Abraham.
260 _aAmsterdam :
_bElsevier,
_c2022.
300 _a1 online resource.
336 _atext
_2rdacontent
337 _acomputer
_2rdamedia
338 _aonline resource
_2rdacarrier
490 1 _aMicro and Nano Technologies Ser.
500 _aIncludes index.
588 0 _aPrint version record.
505 0 _a<P><b>Part I. Characterization techniques of nanomaterials</b> 1. State-of-the-art technologies for the development of nanoscale materials<b> </b>2. Temperature-depend?nt Raman spectroscopy for nanostructured materials characterization 3. Brillouin spectroscopy: probing the acoustic vibrations in colloidal nanoparticles 4. In-situ microstructural measurements: coupling mechanical, dielectrical, thermal analysis with Raman spectroscopy for nanocomposites characterization 5. Positron annihilation spectroscopy for defect characterization in nanomaterials 6. The use of organ-on-a-chip methods for testing of nanomaterials 7. Electroanalytical techniques: a tool for nanomaterial characterization 8. Magnetron sputtering for development of nanostructured materials <b>Part II. Design and fabrication of nanomaterials Section A: Development of magnetic nanoparticles</b> 9. Synthesis and characterization of magnetite nanomaterials blended sheet with single-walled carbon nanotubes 10. Magnetic nanocomposite: synthesis, characterization, and applications in heavy metal removal 11. Iron-based functional nanomaterials: synthesis, characterization, and adsorption studies about arsenic removal <b>Section B: Development of perovskite nanomaterials </b>12. Development of perovskite nanomaterials for energy applications 13. Development of PVDF-based polymer nanocomposites for energy applications 14. Synthesis and structural studies of superconducting perevskite GdBa2Ca3Cu4O10.5+d nanosystems <b>Section C: Development of multiferroic nanoparticles </b>15. Design of multifunctional magneto-electric particulate nanocomposites by combining piezoelectric and ferrite phases <b>Section D: Green synthesis of nanomaterials </b>16. Green synthesis of MN (M= Fe, Ni -- N= Co) alloy nanoparticles: characterization and application 17. Green synthesis of nanomaterials for photocatalytic application <b>Section E: Development of metal phthalocyanine nanostructures </b>18. Metal phthalocyanines and their composites with carbon nanostructures for applications in energy generation and storage 19. Fabrication of nanostructures with excellent self-cleaning properties <b>Section F: Development of carbon-based nanoparticles </b>20. Low-dimensional carbon-based nanomaterials: synthesis and application in polymer nanocomposites <b>Section G: Development of nanofibers </b>21. Electrospun polymer composites and ceramic nanofibers: synthesis and environmental remediation applications 22. Realization of relaxor PMN-PT thin films using pulsed laser ablation</p>
650 0 _aNanostructured materials.
_94537
650 2 _aNanostructures
_0(DNLM)D049329
_95928
650 6 _aNanomat�eriaux.
_0(CaQQLa)201-0258061
_968453
650 7 _aNanostructured materials.
_2fast
_0(OCoLC)fst01032630
_94537
700 1 _aThomas, Sabu.
_915280
700 1 _aKalarikkal, Nandakumar.
_969499
700 1 _aAbraham, Ann Rose.
_969500
776 0 8 _iebook version :
_z9780128208830
776 0 8 _cOriginal
_z012820558X
_z9780128205587
_w(OCoLC)1190830469
830 0 _aMicro & nano technologies.
_969680
856 4 0 _3ScienceDirect
_uhttps://www.sciencedirect.com/science/book/9780128205587
942 _cEBK
999 _c82663
_d82663