| 1 | An Undergraduate Comprehensive Experiment: Simple and Rapid Synthesis of Blue, Green, and Red Fluorescent Carbon Quantum Dots and Light-Emitting Diode Fabrication | 3.1 | 0 | Citations (PDF) |
| 2 | The emergence and prospects of carbon dots with solid-state photoluminescence for light-emitting diodes | 10.3 | 11 | Citations (PDF) |
| 3 | Monolayer calibration of endofullerenes with x-ray absorption from implanted keV ion doses | 1.9 | 0 | Citations (PDF) |
| 4 | Highly Efficient Loading of Procaine on Water-Soluble Carbon Dots toward Long-Acting Anesthesia | 2.9 | 1 | Citations (PDF) |
| 5 | Onion-like multicolor thermally activated delayed fluorescent carbon quantum dots for efficient electroluminescent light-emitting diodes | 14.1 | 19 | Citations (PDF) |
| 6 | Wet Chemical Synthesis of Ultrathin γ-Ga<sub>2</sub>O<sub>3</sub> Quantum Wires Enabling Far-UVC Photodetection with Ultrahigh Selectivity and Sensitivity | 4.6 | 1 | Citations (PDF) |
| 7 | Photocatalytic fuel cell for simultaneous antibiotic wastewater treatment and electricity production by anatase TiO2 nanoparticles anchored on Ni foam | 7.5 | 19 | Citations (PDF) |
| 8 | Carbon Quantum Dots with Near‐Unity Quantum Yield Bandgap Emission for Electroluminescent Light‐Emitting Diodes | 15.0 | 55 | Citations (PDF) |
| 9 | In situ facile fabrication of ultrathin Co(OH)2-CoO/graphene oxide nanosheet hybrids with superior oxygen evolution reaction performance | 5.9 | 4 | Citations (PDF) |
| 10 | Tunable Phase Transformation Behavior of Two-Dimensional TiO<sub>2</sub> Revealed by In Situ Transmission Electron Microscopy | 3.2 | 3 | Citations (PDF) |
| 11 | Carbon Dots with Guanidinium and Amino Acid Functional Groups for Targeted Small Interfering RNA Delivery toward Tumor Gene Therapy | 11.6 | 19 | Citations (PDF) |
| 12 | Carbon Quantum Dots with Near‐Unity Quantum Yield Bandgap Emission for Electroluminescent Light‐Emitting Diodes | 1.5 | 16 | Citations (PDF) |
| 13 | Carbon dots: An innovative luminescent nanomaterial | 12.8 | 44 | Citations (PDF) |
| 14 | Toward phosphorescent and delayed fluorescent carbon quantum dots for next-generation electroluminescent displays | 5.1 | 28 | Citations (PDF) |
| 15 | Stretchable solvent-free ionic conductor with self-wrinkling microstructures for ultrasensitive strain sensor | 10.3 | 38 | Citations (PDF) |
| 16 | 反应釜的原理、操作、注意事项及应用 | 0.7 | 1 | Citations (PDF) |
| 17 | X-ray absorption measurements at a bending magnet beamline with an Everhart–Thornley detector: A monolayer of Ho3N@C80 on graphene | 1.9 | 2 | Citations (PDF) |
| 18 | Recent Advance in Carbon Dots: From Properties to Applications | 6.6 | 31 | Citations (PDF) |
| 19 | Silver nanocubes monolayers as a SERS substrate for quantitative analysis | 7.5 | 30 | Citations (PDF) |
| 20 | Gram‐Scale Synthesis of Highly Efficient Rare‐Earth‐Element‐Free Red/Green/Blue Solid‐State Bandgap Fluorescent Carbon Quantum Rings for White Light‐Emitting Diodes | 15.0 | 85 | Citations (PDF) |
| 21 | Applications of carbon dots on tumour theranostics | 10.0 | 35 | Citations (PDF) |
| 22 | Red Phosphorescent Carbon Quantum Dot Organic Framework-Based Electroluminescent Light-Emitting Diodes Exceeding 5% External Quantum Efficiency | 15.7 | 75 | Citations (PDF) |
| 23 | Carbon dots: a booming material for biomedical applications | 6.2 | 177 | Citations (PDF) |
| 24 | Vertically aligned NiS2/CoS2/MoS2 nanosheet array as an efficient and low-cost electrocatalyst for hydrogen evolution reaction in alkaline media | 8.7 | 50 | Citations (PDF) |
| 25 | A flower-like CoS<sub>2</sub>/MoS<sub>2</sub> heteronanosheet array as an active and stable electrocatalyst toward the hydrogen evolution reaction in alkaline media | 4.5 | 19 | Citations (PDF) |
| 26 | Large-scale fabrication of robust textile triboelectric nanogenerators | 16.3 | 146 | Citations (PDF) |
| 27 | Layered Assembly of Silver Nanocubes/Polyelectrolyte/Gold Film as an Efficient Substrate for Surface-Enhanced Raman Scattering | 5.4 | 13 | Citations (PDF) |
| 28 | Recent advances in white light-emitting diodes of carbon quantum dots | 5.1 | 112 | Citations (PDF) |
| 29 | Large‐Scale Smart Carpet for Self‐Powered Fall Detection | 6.1 | 40 | Citations (PDF) |
| 30 | Red-Emissive Carbon Quantum Dots for Nuclear Drug Delivery in Cancer Stem Cells | 4.6 | 155 | Citations (PDF) |
| 31 | Piezotronics modulates high sensitivity relative humidity sensor based on single tellurium microwire | 2.3 | 5 | Citations (PDF) |
| 32 | Hybrid piezo/triboelectric nanogenerator for highly efficient and stable rotation energy harvesting | 16.3 | 181 | Citations (PDF) |
| 33 | Flexible Li-doped ZnO piezotronic transistor array for in-plane strain mapping | 16.3 | 31 | Citations (PDF) |
| 34 | Effects of the Structure of TiO<sub>2</sub> Nanotube Arrays on Its Catalytic Activity for Microbial Fuel Cell | 5.3 | 6 | Citations (PDF) |
| 35 | Triboelectric Nanogenerator-Enabled Dendrite-Free Lithium Metal Batteries | 8.1 | 18 | Citations (PDF) |
| 36 | Nitrogen-Doped Porous Carbon Nanosheets Strongly Coupled with Mo2C Nanoparticles for Efficient Electrocatalytic Hydrogen Evolution | 4.1 | 12 | Citations (PDF) |
| 37 | Highly Ordered Hierarchical Pt and PtNi Nanowire Arrays for Enhanced Electrocatalytic Activity toward Methanol Oxidation | 8.1 | 56 | Citations (PDF) |
| 38 | Magnetic‐Induced‐Piezopotential Gated MoS<sub>2</sub> Field‐Effect Transistor at Room Temperature | 24.7 | 52 | Citations (PDF) |
| 39 | AuPt Nanoparticles Clusters on MWCNTs with Enhanced Electrocatalytic Activity for Methanol Oxidation | 3.8 | 6 | Citations (PDF) |
| 40 | Design of Bionic Cochlear Basilar Membrane Acoustic Sensor for Frequency Selectivity Based on Film Triboelectric Nanogenerator | 4.1 | 40 | Citations (PDF) |
| 41 | Remarkably enhanced triboelectric nanogenerator based on flexible and transparent monolayer titania nanocomposite | 16.3 | 126 | Citations (PDF) |
| 42 | Self-powered electrochromic devices with tunable infrared intensity | 8.7 | 43 | Citations (PDF) |
| 43 | A flexible p-CuO/n-MoS<sub>2</sub> heterojunction photodetector with enhanced photoresponse by the piezo-phototronic effect | 10.3 | 140 | Citations (PDF) |
| 44 | Ultrastretchable, transparent triboelectric nanogenerator as electronic skin for biomechanical energy harvesting and tactile sensing | 11.3 | 1,007 | Citations (PDF) |
| 45 | Metal/TiO<sub>2</sub> hierarchical nanocomposite arrays for the remarkable enhancement of photocatalytic activity | 4.5 | 6 | Citations (PDF) |
| 46 | Piezotronic-effect-enhanced Ag<sub>2</sub>S/ZnO photocatalyst for organic dye degradation | 4.5 | 39 | Citations (PDF) |
| 47 | Piezo‐Phototronic Matrix via a Nanowire Array | 11.6 | 14 | Citations (PDF) |
| 48 | Switching Molecular Conformation with the Torque on a Single Magnetic Moment | 7.8 | 17 | Citations (PDF) |
| 49 | Core–Shell-Yarn-Based Triboelectric Nanogenerator Textiles as Power Cloths | 15.4 | 220 | Citations (PDF) |
| 50 | Three‐dimensional Porous Palladium Foam‐like Nanostructures as Electrocatalysts for Glucose Biofuel Cells | 3.4 | 6 | Citations (PDF) |
| 51 | Self-Powered Random Number Generator Based on Coupled Triboelectric and Electrostatic Induction Effects at the Liquid–Dielectric Interface | 15.4 | 32 | Citations (PDF) |
| 52 | Corrigendum to “Three-dimensional PtxNi1−x nanoclusters supported on multiwalled carbon nanotubes in enzyme-free glucose biofuel cells” Journal of Power Sources 296 (2015) 30–39 | 8.0 | 0 | Citations (PDF) |
| 53 | Piezo-phototronic effect enhanced UV photodetector based on CuI/ZnO double-shell grown on flexible copper microwire | 4.1 | 37 | Citations (PDF) |
| 54 | Raman study of 2D anatase TiO<sub>2</sub> nanosheets | 2.8 | 66 | Citations (PDF) |
| 55 | Interface engineering on p-CuI/n-ZnO heterojunction for enhancing piezoelectric and piezo-phototronic performance | 16.3 | 111 | Citations (PDF) |
| 56 | Flexible Self-Powered GaN Ultraviolet Photoswitch with Piezo-Phototronic Effect Enhanced On/Off Ratio | 15.4 | 235 | Citations (PDF) |
| 57 | Improvement in the Piezoelectric Performance of a ZnO Nanogenerator by a Combination of Chemical Doping and Interfacial Modification | 3.2 | 82 | Citations (PDF) |
| 58 | Triboelectric Nanogenerator as a Self-Powered Communication Unit for Processing and Transmitting Information | 15.4 | 59 | Citations (PDF) |
| 59 | Lattice Strain Induced Remarkable Enhancement in Piezoelectric Performance of ZnO-Based Flexible Nanogenerators | 8.1 | 146 | Citations (PDF) |
| 60 | Synthesis and Structure of LaSc<sub>2</sub>N@<i>C<sub>s</sub></i>(hept)‐C<sub>80</sub> with One Heptagon and Thirteen Pentagons | 15.0 | 70 | Citations (PDF) |
| 61 | Magnetic‐Induced Luminescence from Flexible Composite Laminates by Coupling Magnetic Field to Piezophotonic Effect | 24.7 | 138 | Citations (PDF) |
| 62 | Synthesis and Structure of LaSc<sub>2</sub>N@<i>C<sub>s</sub></i>(hept)‐C<sub>80</sub> with One Heptagon and Thirteen Pentagons | 1.5 | 21 | Citations (PDF) |
| 63 | Magnetic anisotropy of endohedral lanthanide ions: paramagnetic NMR study of MSc<sub>2</sub>N@C<sub>80</sub>-I<sub>h</sub> with M running through the whole 4f row | 7.5 | 51 | Citations (PDF) |
| 64 | Three-dimensional PtxNi1−x nanoclusters supported on multiwalled carbon nanotubes in enzyme-free glucose biofuel cells | 8.0 | 18 | Citations (PDF) |
| 65 | High-Resolution Dynamic Pressure Sensor Array Based on Piezo-phototronic Effect Tuned Photoluminescence Imaging | 15.4 | 129 | Citations (PDF) |
| 66 | Endohedral fullerene with μ3-carbido ligand and titanium-carbon double bond stabilized inside a carbon cage | 14.1 | 81 | Citations (PDF) |
| 67 | Endohedral metal or a fullerene cage based oxidation? Redox duality of nitride clusterfullerenes Ce<sub>x</sub>M<sub>3−x</sub>N@C<sub>78–88</sub>(x = 1, 2; M = Sc and Y) dictated by the encaged metals and the carbon cage size | 5.1 | 19 | Citations (PDF) |
| 68 | The Metallofullerene Field‐Induced Single‐Ion Magnet HoSc<sub>2</sub>N@C<sub>80</sub> | 3.5 | 61 | Citations (PDF) |
| 69 | Cluster-size dependent internal dynamics and magnetic anisotropy of Ho ions in HoM<sub>2</sub>N@C<sub>80</sub>and Ho<sub>2</sub>MN@C<sub>80</sub>families (M = Sc, Lu, Y) | 5.1 | 27 | Citations (PDF) |
| 70 | Transition-Metal and Rare-Earth-Metal Redox Couples inside Carbon Cages: Fullerenes Acting as Innocent Ligands | 3.0 | 18 | Citations (PDF) |
| 71 | Self-powered acoustic source locator in underwater environment based on organic film triboelectric nanogenerator | 8.5 | 91 | Citations (PDF) |
| 72 | Strain-Driven Endohedral Redox Couple CeIV/CeIII in Nitride Clusterfullerenes CeM2N@C80 (M = Sc, Y, Lu) | 4.6 | 25 | Citations (PDF) |
| 73 | Growth of all-carbon horizontally aligned single-walled carbon nanotubes nucleated from fullerene-based structures | 4.1 | 7 | Citations (PDF) |
| 74 | Synthesis, Isolation, and Spectroscopic Characterization of Holmium‐Based Mixed‐Metal Nitride Clusterfullerenes: Ho<sub><i>x</i></sub>Sc<sub>3−<i>x</i></sub>N@C<sub>80</sub> (<i>x</i>=1, 2) | 3.5 | 21 | Citations (PDF) |
| 75 | Piezo‐Phototronic Effect‐Induced Dual‐Mode Light and Ultrasound Emissions from ZnS:Mn/PMN–PT Thin‐Film Structures | 24.7 | 150 | Citations (PDF) |
| 76 | Single‐Crystalline C<sub>60</sub> Nanostructures by Sonophysical Preparation: Tuning Hollow Nanobowls as Catalyst Supports for Methanol Oxidation | 3.5 | 28 | Citations (PDF) |
| 77 | Template-free solution growth of highly regular, crystal orientation-ordered C<sub>60</sub>nanorod bundles | 8.1 | 21 | Citations (PDF) |
