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2. Comments on the errors in paper “Impact of KBiTiO3 in optical and ferroelectric behavior of NaNbO3 solid solution” by S.K. Mohanty et al., and published in J. Mater. Sci.: Mater. Electron. 34 (2023) 2126
3. Fully printed ethanol transparent paper sensor based on ZnO/rGO nanocomposites
4. Preparation of stretchable and porous graphene paper via functionalized with diol oligomer
5. Comments on the paper on the Nd-doped BiFeO3 by S. R. Dhanya and Jyotirmayee Satapathy, and published in J Mater Sci: Mater Electron (2023) 34:434, and on the corresponding correction published in J Mater Sci: Mater Electron (2023) 34:1484
6. Flexible and robust TEMPO-oxidized cellulose nanofibrils/mica composite as paper dielectrics with enhanced dielectric property
7. Direct flip-chip bonding of bare dies to polypropylene-coated paper substrates without adhesives or solders
8. Comments on recently published papers reporting on “new” amino acid-based crystals in the Journal of Materials Science: Materials in Electronics
9. Flexible paper-based piezo-resistive sensor functionalized by MoS2 nanosheets
10. Space charge and insulation properties of nano-Al2O3-modified oil-impregnated paper used for HVDC convertor transformer
11. Highly flexible and sensitive wearable strain and pressure sensor based on porous graphene paper for human motion
12. Flexible photodetector based on Graphite/ZnO–WS2 nanohybrids on paper
13. An efficient self-made paper-based carbon electrode for electrochemical detection of heavy metal ions
14. Space charge characteristics of nano-SiO2-modified oil-paper insulation and numerical simulation
15. Compressible and sensitive aerogels derived from graphene/waste paper for wearable pressure sensor
16. Nonlinear conductivity characteristics of epoxy resin-impregnated nano-SiC-modified insulating paper
17. Natural fibers and reduced graphene oxide-based flexible paper electrode for energy storage applications
18. Excellent electrical performance and thermal properties insulation paper based on polyimide porous fiber membrane modified by nano-SiO2
19. Comments on the paper “Effect of Sr substitution on the structural properties of LaCrO3 perovskite” by R. Kumar, K. Dev Singh, and R. Kumar, and published in J. Mater. Sci.: Mater. Electron. 33, 12039 (2022)
20. Morphology-controlled synthesis of MnO2 grown on carbon fiber paper for high-rate supercapacitor electrode
21. ACF bonding technology for paper- and PET-based disposable flexible hybrid electronics
22. Titanium oxynitride coated graphite paper electrodes for light-weight supercapacitors
23. Comment on analysis of X-ray diffraction data in the paper “Structural and size dependence magnetic properties of Mn-doped NiO nanoparticles prepared by wet chemical method" by C. Thangamani et al. [J. Mater. Sci: Mater. Electron. 31, 11101 (2020)]
24. Novel aramid paper-based materials with enhanced thermal conductivity via ZnO nanowire decoration on aramid fibers
25. Special issue on selected papers on experimental research on emerging electronic and optical materials for device applications
26. Low-cost fabrication of a pH sensor based on writing directly over parchment-type paper with pencil
27. Enhanced mechanical and electrical insulating properties of (poly(para-phenylene terephthamide)) PPTA-based specialty paper with nanoscale PPTA fibers
28. Flexible reduced graphene oxide paper with excellent electromagnetic interference shielding for terahertz wave
29. Porous carbons derived from carbonization of tissue papers for supercapacitors
30. Electrodeposition of bimetallic NiPt nanosheet arrays on carbon papers for high performance nonenzymatic disposable glucose sensors
31. Development of electrochemical paper-based analytical sensor from UHT milk packaging waste
32. Size-induced structural phase transition in nanocrystalline CaYTiNbO7:Eu: comments on the paper by Mahesh and Rao (J. Mater. Sci.: Mater. Electron. 31, 20,847 (2020))
33. Comment on the relationship between electrical and optical conductivity used in several recent papers published in the journal of materials science: materials in electronics
34. Preparation of PI porous fiber membrane for recovering oil-paper insulation structure
35. Low content reduced graphene oxide as the reinforcement in cellulosic conductive paper via a hetero-reduction
36. Highly conductive graphene paper for flexible electronics applications
37. Special issue on selected papers from the 6th International Conference on Nanoscience and Nanotechnology-2021 (ICONN-2021)
38. Nickel hydroxide and lignocelluloses fibers based flexible paper electrodes for energy storage applications
39. Inkjet printed flexible electronics on paper substrate with reduced graphene oxide/carbon black ink
40. Dielectric properties of Ag/paper-based metacomposite with sandwich-structure forward low dielectric loss in megahertz frequency range
41. Paper templated synthesis of nanostructured Cu–ZnO and its enhanced photocatalytic activity under sunlight
42. Giant electrical energy storage density in the P(VDF-TrFE)–graphene oxide composite papers with quasi-two-dimensional ferroelectricity
43. A facile synthesis of self-assembling reduced graphene oxide/cobalt carbonate hydroxide papers for high-performance supercapacitor applications
44. Phytosynthesis of silver nanoparticles; naked eye cellulose filter paper dual mechanism sensor for mercury ions and ammonia in aqueous solution
45. Electrodeposition of silver (Ag) nanoparticles on MnO2 nanorods for fabrication of highly conductive and flexible paper electrodes for energy storage application
46. Free-standing paper-like heat spreading films based on graphene oxide-aromatic molecule composites
47. Scalable synthesis of binder-free MXene based electrode for green hydrogen production
48. A flexible humidity and temperature sensor based on calligraphy itself for calligraphy conservation application
49. CuCo2S4 nanotubes on carbon fiber papers for high-performance all-solid-state asymmetric supercapacitors
50. A highly sensitive and low-cost graphite-based flexible capacitive pressure sensor
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