Nanotechnologies and Nanomaterials: Selected Papers from CCMR

© 2024 by the authors; CC BY-NC-ND license

electrostatic adsorption; electrostatic assembly; composite; heat-conductive; hBN; PMMA; cathode materials; orbital symmetry states; metal–oxygen hybridization; H₂O₂ detection; super-porous CuO/Pt electrode; dynamic hydrogen bubble technique; biosensor kit; monoclinic; hexagonal; La₂O₂O₃ phase; CO₂ behavior; precipitation method; hydrothermal method; photocatalytic; Rhodamine B; photoreduction; Bi₄Ti₃O₁₂; AgPt/Bi₄Ti₃O₁₂; nanostructured surface; injection molding; anti-adhesive; E. coli; fimbriae; anti-bacterial; biomaterial-associated infections (BAI); manganese ferrite; X-ray diffraction; nanomaterials; specific loss power; magnetic resonance angiography; IGZO; TFT; oxygen flow; channel width; electrical property; nanostructure; nanopatterning; soft lithography; soft material; swelling; resistive switching; X-ray photoelectron spectroscopy; synaptic device; metal oxide; current overshoot; titanium carbide; sol-gel; confining template; magnesiothermic catalysis; deoxygenation; coconut oil; in-situ hydrogen; nickel–cobalt bimetallic nanoparticles; biorefinery; dendritic polymers; ceramic compounds; biomimetic; nanomaterials; dendrimers; hyperbranched polymers; silica composites; hybrid materials; metal oxide; heterojunctions; gas sensor; sensing mechanism; review; laser-induced periodic surface structures (LIPSS); laser ablation; structural color; ITZO film; high-power impulse magnetron sputtering; duty cycle; pulse off-time; electrical properties; metal-based nanomaterials; characteristics; antiviral therapy; mechanism; application; inorganic nanoparticles; chemical method; formation strategy; medical applications; sound pressure amplification structure; double diaphragm scheme; Fabry–Perot sensor; graphene diaphragm; sensitivity enhancement; nanocomposites; photocatalytic degradation; perovskite; tobacco tar; atomic structure; electronic structure; Density Functional Theory (DFT); MXenes; two-dimensional materials; broadband near-infrared; ordered micro-holes; graded alloy; photoluminescence; guided resonant mode; self-assembly; 3D substrate; solar cell; Pb poisoning; Mo-Ce/Zr-PILC catalyst; NH₃-SCR; surface acidity; Zn/MgO; nano-plates; mesoporous; heterogeneous base catalyst; biodiesel; transesterification; Camelina oil; OLED; top emitting; hole injection; Al anode; ITO anode; HATCN; efficiency; native oxide; microdisplay; Si substrate; MnO₂/extended graphite; supercapacitors; glucose sensing; Li-ion batteries; binder-free electrodes; TiO₂ nanotube arrays; electrochemical anodization; elemental doping; germanium monosulfide (GeS); defect; formation energy; vacancy healing; electronic structure; piezoelectric coefficients; DFT calculations; two-dimensional materials; magnetite; peroxidase activity; SERS; MAX phases; ultrathin nanosheets; lithium-ion battery; electrochemical performance; anode materials; nanopillars/pores; roll-to-roll imprinting; multiphase flow; imprinting-speed; functional surfaces; sliding mesh method; quantum dot; single-electron transistor; Coulomb blockade; charge stability; effective electron temperature; Cu-Ta alloy; deform mechanism; magnetron sputtering; nanoindentation; molecular dynamics (MD); NiMoO₄ nanowire arrays; oxygen vacancies; core-shell electrode structure; asymmetric supercapacitors; electrospun micro/nanofibers; sound absorption; porous materials; resonance; Li[Ni_0.8Co_0.15Al_0.05]O₂; sericin; N-doped carbon; lithium-ion batteries; surface wrapping; beam splitter; metasurface; terahertz; dynamic; zinc tin oxide; nanowires; chemical vapor deposition; surface modification; photocatalysis; reactive radical species; NC hydrogel; drug-delivery; oxygen-carrying hydrogels; 3D-printing; micro-impact fatigue; wear hard coatings; study state cutting; fractal analysis; Si/Co LDHs; 1D nanostructures; nanofibers; cyclic voltammetry; charge–discharge method; supercapacitors; acoustic vibrations; nanosilica; frequency analysis; attenuation; freeboard region; granular bed; cadmium sulfide; thin film; substrate temperature; RF magnetron sputtering; physical property; metallic; nanocomposite; hydrogel; nanotechnology; drug delivery; tissue engineering; wound care; electrospinning; recycling; reutilizing; plastic waste; non-metal; germanium carbide; absorption energy; work function; absorption spectrum; boron; nanosheet; microstructure; nanocrystalline materials; graphene oxide; reduction; thermal; memristor; switching; analog; oxidation; NiCo(OH)₂ layered double hydroxides; electrocatalysis; oxygen evolution reaction; onset potential; current density; stability; 2D semiconductors; transition metal dichalcogenides; photodetectors; surface plasmon resonance; silver thin film; nanoparticle (NP) ink; sintering; oxygen; polyvinylpyrrolidone (PVP); dispersant decomposition; electrical resistivity; TiO_x; anodic oxidation; photoelectrochemical; nanohollows; indium tin oxide (ITO); HiPIMS; rapid thermal annealing (RTA); hydrogen-containing forming gas; hydrogen doping; inorganic-magnetic-organic nanohybrids; zinc oxide nanohybrid; water purification; sunlight; fluidization; collapse bed; hydrodynamics; bed voidage; purge flow; nanosilica; nanoindentation; indenter angle; phase transformation; silicon; atomistic simulation; CuO-based catalyst; α-MnO₂ nanowire; low-temperature catalytic activity; CO oxidation; nanosilica; fluidization; pulsed flow; pulsation frequency; assisted fluidization; efficacy; bed dynamics; biosensor; MoS₂; graphene; SPR sensor; high sensitivity; 2D materials; two-dimensional allotropes; graphene analogs; molecular beam epitaxy; borophene; aluminene; gallenene; indiene; thallene; silicene; germanene; stanene; plumbene; phosphorene; antimonene; bismuthene; selenene; tellurene; nanohydroxyapatite; adsorption; heavy metal; radionuclide; organic pollutants; fluoride ions; adapted glassy carbon sensor; cigarette; differential pulse voltammetry; graphene oxide nanosheets synthesis; nicotine; Ag₂Se; nylon 6; flexible inorganic-organic composite; ProX-SEM-EDS; optical properties; van der Waals materials; nanomechanical resonators; Fabry–Pérot interferometry; photothermal response; static displacement; absorptive heating; NbSe₂ drumheads; graphene resonator; interface stress; film thermal damage; thermal time constant; graphene oxide; defect density; transport gap; band gap; metal–insulator transition; 2D Mott VRH; monochlorophenol (MCPs); graphitic carbon nitride (g-C₃N₄); titanium dioxide (TiO₂); photocatalytic activity; tin oxide (SnO_x); plasma-enhanced atomic layer deposition (PEALD); substrate temperature; graphene; barristor; Fowler–Nordheim tunneling; cut-off frequency; delay time; power-delay product; independent dual-channel method; graphene field-effect transistor; edge reconstruction defects; linear dislocations; quantum capacitance; water splitting; V-FeBP; heteroatom doping; hydrothermal approach; soaking approach; rolled structure; 1D structure; MoS₂; scrolled MoS₂; band gap; ionic liquid gating; complementary inverter; low power; graphene/carbon-nanotube junction; barristor; 2D perovskite; ZnO quantum dot; antisolvent method; photodetector; outstanding stability; graphene; CVD; tunning range; mathematic model; waveguide method; n/a