Page 149 - Read Online
P. 149
Feng et al. Chem Synth 2023;3:37 https://dx.doi.org/10.20517/cs.2023.26 Page 15 of 16
Sci 2023;16:619-28. DOI
34. Zhuang Z, Xia L, Huang J, et al. Continuous modulation of electrocatalytic oxygen reduction activities of single-atom catalysts
through p-n junction rectification. Angew Chem Int Ed 2023;62:e202212335. DOI PubMed
35. Song Y, Norris F, Hinchcliffe D, Xu Y, Zhang X, Nockemann P. Ionic liquid-assisted synthesis of mesoporous polymers and carbon
materials: the self-assembly mechanism†. Nanoscale 2022;14:14212-22. DOI PubMed
36. Chen Y, Tian M, Liu X. Supramolecular self-assembly strategy towards fabricating mesoporous nitrogen-rich carbon for efficient
electro-fenton degradation of persistent organic pollutants. Nanomaterials 2022;12:2821. DOI PubMed PMC
37. Xiao Y, Tian G, Li W, et al. Molecule self-assembly synthesis of porous few-layer carbon nitride for highly efficient photoredox
catalysis. J Am Chem Soc 2019;141:2508-15. DOI
38. Qiu P, Zhao T, Fang Y, et al. Pushing the limit of ordered mesoporous materials via 2D self-assembly for energy conversion and
storage. Adv Funct Mater 2021;31:2007496. DOI
39. Zu L, Qian X, Zhao S, et al. Self-assembly of ir-based nanosheets with ordered interlayer space for enhanced electrocatalytic water
oxidation. J Am Chem Soc 2022;144:2208-17. DOI
40. Zhang R, Liu Z, Gao TN, et al. A solvent-polarity-induced interface self-assembly strategy towards mesoporous triazine-based carbon
materials. Angew Chem Int Ed 2021;60:24299. DOI PubMed
41. Han G, Yang Y, Feng D, et al. Interface and charge induced molecular self-assembly strategy for the synthesis of reduced graphene
oxide coated with mesoporous platinum sheets. Macromol Rapid Commun 2022;43:2100923. DOI
42. Liu S, Wang F, Dong R, et al. Dual-template synthesis of 2D mesoporous polypyrrole nanosheets with controlled pore size. Adv Mater
2016;28:8365-70. DOI
43. Wang F, Zhang Z, Shakir I, Yu C, Xu Y. 2D polymer nanosheets for membrane separation. Adv Sci 2022;9:2103814. DOI PubMed
PMC
44. Tang N, Chen Y, Li Y, Yu B. 2D polymer nanonets: controllable constructions and functional applications. Macromol Rapid Commun
2022;43:2200250. DOI
2 2
45. Kang J, Huang S, Jiang K, et al. 2D Porous polymers with sp -carbon connections and sole sp -carbon skeletons. Adv Funct Mater
2020;30:2000857. DOI
46. Xue R, Zheng Y, Zhang L, et al. A novel 2D mesoporous phosphazene-anthraquinone-based covalent organic polymer: synthesis,
characterization and supercapacitor applications†. New J Chem 2021;45:19125-31. DOI
47. Zhang L, Liu Y, Wang T, Liu Z, Li W, Qiao ZA. Multi-dimensional molecular self-assembly strategy for the construction of two-
dimensional mesoporous polydiaminopyridine and carbon materials. Small 2023;19:2205693. DOI
48. Yang Y, Song X, Yao Y, et al. Ultrasmall single micelle@resin core-shell nanocarriers as efficient cargo loading vehicles for in vivo
biomedical applications†. J Mater Chem B 2015;3:4671-8. DOI
49. Zhao T, Elzatahry A, Li X, Zhao D. Single-micelle-directed synthesis of mesoporous materials. Nat Rev Mater 2019;4:775-91. DOI
50. Zhou Q, Zhao T, Liu M, et al. Highly stable hybrid single-micelle: a universal nanocarrier for hydrophobic bioimaging agents. Nano
Res 2022;15:4582-9. DOI
51. Qiu P, Yang J, Jiang W, Wang L, Fan Y, Luo W. Interfacial engineering of core-shell structured mesoporous architectures from single-
micelle building blocks. Nano Today 2020;35:100940. DOI
52. Lan K, Wei Q, Wang R, et al. Two-dimensional mesoporous heterostructure delivering superior pseudocapacitive sodium storage via
bottom-up monomicelle assembly. J Am Chem Soc 2019;141:16755-62. DOI
53. Wang R, Lan K, Lin R, et al. Precisely controlled vertical alignment in mesostructured carbon thin films for efficient electrochemical
sensing. ACS Nano 2021;15:7713-21. DOI
54. Lan K, Liu L, Yu J, et al. Stepwise monomicelle assembly for highly ordered mesoporous TiO membranes with precisely tailored
2
mesophase and porosity. JACS Au 2023;3:1141-50. DOI PubMed PMC
55. Xi X, Wu D, Han L, et al. Highly uniform carbon sheets with orientation-adjustable ordered mesopores. ACS Nano 2018;12:5436-44.
DOI
56. Li Y, Liu Y, Li J, et al. A centimeter scale self-standing two-dimensional ultra-thin mesoporous platinum nanosheet†. Mater Horiz
2020;7:489-94. DOI
57. Liu S, Zhang J, Dong R, et al. Two-dimensional mesoscale-ordered conducting polymers. Angew Chem Int Ed 2016;55:12516. DOI
58. Li X, Guan Q, Zhuang Z, et al. Ordered mesoporous carbon grafted MXene catalytic heterostructure as Li-Ion kinetic pump toward
high-efficient sulfur/sulfide conversions for Li-S battery. ACS Nano 2023;17:1653-62. DOI PubMed
59. Li Q, Xu X, Guo J, et al. Two-dimensional MXene-polymer heterostructure with ordered in-plane mesochannels for high-performance
capacitive deionization. Angew Chem Int Ed 2021;60:26528. DOI
60. Shi Y, Li B, Zhu Q, et al. MXene-based mesoporous nanosheets toward superior lithium ion conductors. Adv Energy Mater
2020;10:1903534. DOI
61. Fang Y, Lv Y, Gong F, Elzatahry AA, Zheng G, Zhao D. Synthesis of 2D-mesoporous-carbon/MoS heterostructures with well-
2
defined interfaces for high-performance lithium-ion batteries. Adv Mater 2016;28:9385-90. DOI PubMed
62. Liu Z, Xiong H, Luo Y, et al. Interface-induced self-assembly strategy toward 2D ordered mesoporous carbon/MXene heterostructures
for high-performance supercapacitors. ChemSusChem 2021;14:4422. DOI PubMed
63. Yang S, Feng X, Müllen K. Sandwich-like, graphene-based titania nanosheets with high surface area for fast lithium storage. Adv