Page 16 - Read Online
P. 16
Wu et al. Soft Sci 2024;4:42 https://dx.doi.org/10.20517/ss.2024.51 Page 13 of 13
electromagnetic wave absorption. Carbon 2024;226:119233. DOI
34. Ning Y, Jiang X, Huang J, Gao Y, Zeng X. Trimetallic MOFs derived NiFe O /MoNi -NC Schottky heterojunctions with abundant
4
2
4
defects and dielectric-magnetic coupling for electromagnetic response. J Mater Sci Technol 2025;213:1-13. DOI
35. Zhao Y, He Q, Liu M, et al. Combustion-assisted construction of defect-enriched hierarchical carbon composites towards efficient
low-frequency electromagnetic wave absorption. Chem Eng J 2024;488:150893. DOI
36. Zeng X, Zhao C, Yin Y, et al. Construction of NiCo O nanosheets-covered Ti C T MXene heterostructure for remarkable
2 4 3 2 x
electromagnetic microwave absorption. Carbon 2022;193:26-34. DOI
37. Sun C, Lan D, Jia Z, Gao Z, Wu G. Kirkendall effect-induced ternary heterointerfaces engineering for high polarization loss MOF-
LDH-MXene absorbers. Small 2024;20:e2405874. DOI PubMed
38. Zhao Y, Wang N, Wang H, et al. Chiral structure induces spatial spiral arrangement of Fe O nanoparticles to optimize
3
4
electromagnetic wave dissipation. Appl Phys Lett 2024;124:161901. DOI
39. Wu D, Lan D, Li Y, Zhou N, He Q, Wang Y. Heterostructure engineering of N-doped Co@ carbon nanotubes toward broadband
efficient electromagnetic absorption. Colloid Surface A 2024;702:135161. DOI
40. Zeng X, Zhao C, Jiang X, Yu R, Che R. Functional tailoring of multi-dimensional pure MXene nanostructures for significantly
accelerated electromagnetic wave absorption. Small 2023;19:e2303393. DOI
41. Zhao T, Lan D, Jia Z, Gao Z, Wu G. Hierarchical porous molybdenum carbide synergic morphological engineering towards broad
multi-band tunable microwave absorption. Nano Res 2024;17:9845-56. DOI
42. Liu Y, Wei X, He X, et al. Multifunctional shape memory composites for joule heating, self-healing, and highly efficient microwave
absorption. Adv Funct Mater 2023;33:2211352. DOI
43. Xie A, Ma Z, Xiong Z, et al. Conjugate ferrocene polymer derived magnetic Fe/C nanocomposites for electromagnetic absorption
application. J Mater Sci Technol 2024;175:125-31. DOI
44. Pan F, Shi Y, Yang Y, et al. Porifera-inspired lightweight, thin, wrinkle-resistance, and multifunctional MXene foam. Adv Mater
2024;36:e2311135. DOI
45. Zeng X, Li E, Xia G, et al. Silica-based ceramics toward electromagnetic microwave absorption. J Eur Ceram Soc 2021;41:7381-403.
DOI
46. Zhan B, Qu Y, Qi X, et al. Mixed-dimensional assembly strategy to construct reduced graphene oxide/carbon foams heterostructures
for microwave absorption, anti-corrosion and thermal insulation. Nanomicro Lett 2024;16:221. DOI PubMed PMC
47. Zeng X, Jiang X, Ning Y, Gao Y, Che R. Constructing built-in electric fields with semiconductor junctions and schottky junctions
based on Mo-MXene/Mo-metal sulfides for electromagnetic response. Nanomicro Lett 2024;16:213. DOI PubMed PMC
48. Liang H, Chen G, Liu D, et al. Exploring the Ni 3d orbital unpaired electrons induced polarization loss based on Ni single-atoms
model absorber. Adv Funct Mater 2023;33:2212604. DOI
49. Zhai N, Luo J, Mei J, et al. Interface engineering of heterogeneous NiSe -CoSe @C@MoSe for high-efficient electromagnetic wave
2 2 2
absorption. Adv Funct Mater 2024;34:2312237. DOI
50. Ning Y, Zeng X, Peng X, et al. Dual template-derived 3D porous Co Mo C /Mo C@NC framework for electromagnetic wave
6 6 2 2
response and multifunctional applications. J Mater Sci Technol 2024;187:15-27. DOI
51. Yu H, Kou X, Zuo X, et al. Optimization of multiple attenuation mechanisms by cation substitution in imidazolic MOFs-derived
porous composites for superior broadband electromagnetic wave absorption. J Mater Sci Technol 2024;176:176-87. DOI
52. Pan F, Pei K, Chen G, et al. Integrated electromagnetic device with on-off heterointerface for intelligent switching between wave-
absorption and wave-transmission. Adv Funct Mater 2023;33:2306599. DOI
