2 article(s) from Shrestha, Lok Kumar
- Review
- Published 30 Jul 2019
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Figure 1: Various low-dimensional materials (zero-dimensional, one-dimensional, and two-dimensional materials...
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Figure 2: Outline of nanoarchitectonics strategies to obtain structures and functions through the manipulatio...
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Figure 3: Systematic studies on binding constants for phosphate and guanidinium in different aqueous environm...
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Figure 4: A model for calculations of the binding constant between guanidinium and phosphate at the air–water...
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Figure 5: Formation of two-dimensional patterned structures using flavin adenine dinucleotide (FAD), which ca...
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Figure 6: Formation of two-dimensional arrays of nanodisk-like assemblies via touching transfer of a monolaye...
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Figure 7: Difference of one-dimensional assemblies of an oligo(p-phenylenevinylene) derivative formed in diff...
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Figure 8: Formation of one-dimensional supramolecular polymerization of DNA origami pieces upon repeated mech...
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Figure 9: Formation of a two-dimensional iron–nickel cyanide-bridged network at the air–water interface throu...
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Figure 10: Fabrication of a multilayer of oriented porphyrin-based MOF films by repeatingly transferring and w...
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Figure 11: Electrochromic bis(terpyridine)metal complex MOF nanosheets formed through coordination of terpyrid...
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Figure 12: Aqueous solutions of multi-amino-substituted monomers with p-toluene sulfonic acid were layered on ...
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Figure 13: Confined polymerization at the interface by spatially segregating a catalyst from the COF monomers....
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Figure 14: Fabrication of two-dimensional nanocarbon films from a carbon nanoring molecule (9,9′,10,10′-tetrab...
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Figure 15: Liquid–liquid interfacial precipitation to fabricate fullerene assemblies (crystals) with various m...
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Figure 16: Conversion of one-dimensional C60 nanotubes precipitated at liquid-liquid interface to one-dimensio...
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Figure 17: Nanoporous bitter-melon-shaped C60 crystals with face-centered cubic lattice fabricated through liq...
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Figure 18: Two-dimensional C60 hexagonal nanosheets with hierarchic pore systems of macropores and mesopores p...
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Figure 19: Synthesis of two-dimensional mesoporous C60-based carbon microbelts by liquid–liquid interfacial pr...
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Figure 20: Highly integrated three-dimensional Bucky cubes synthesized by liquid–liquid interfacial precipitat...
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Figure 21: Three-dimensional cubic structures can be fabricated from C70 molecules through an ultrasound-assis...
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Figure 22: Hole-in-cube structures made from C70 molecules with hole closing and re-opening and particle-trap ...
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Figure 23: Time-dependent shape shift of co-assemblies of two fullerene derivatives, pentakis(phenyl)fullerene...
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Figure 24: A monolayer of glucose oxidase complexed with a cationic lipid was transferred onto a surface of an...
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Figure 25: Cultures, organizations, and differentiation controls of living cells a liquid-liquid interface bet...
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Figure 26: Human mesenchymal stem cells at the interface between aqueous medium and fluorocarbon phase with se...
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Figure 27: One-dimensional C60 nanowhiskers with controlled alignment and curvature fabricated by a vortex LB ...
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Figure 28: Highly aligned arrays of C60 nanowhiskers obtained by using a LB method with reciprocal motion in o...
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- Full Research Paper
- Published 05 Mar 2018
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Figure 1: a) Raman spectra of MLG (ca. 10 layers, lower) and FLG (1–6 layers, upper) – both at 514 nm. b) Hel...
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Figure 2: a) and b) AFM detail and profile of a multi-layer graphene (MLG) flake, ca. 10 graphene layers, c) ...
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Figure 3: a) GI composite after strength testing made from FLG-polymer A, b) GI composite after strength test...
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Figure 4: Change in mean compressive fracture strength with increasing graphene concentration.
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Figure 5: Change in mean compressive modulus with increasing graphene concentration.
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