报导合成超轻气石墨材料的文章本周上升5位占据榜首。储能织物的文章仍位居第2位。Feng Xu和Yong Zhu的关于导电银纳米线的工作首次进入排行榜,位居第3位。另外,George Whiteside的关于如何撰写科技论文的文章连续第十周保留在排行榜内,本周位于第30位。另外两篇连续十周停留在排行榜内地关于石墨烯/石墨烯氧化物和氧化物半导体晶体管的文章分别位居第14位和第38位。
排名 | 题目 | 上周名次 | 名次变化 | 周数 |
1 | Aerographite: Ultra Lightweight, Flexible Nanowall, Carbon Microtube Material with Outstanding Mechanical Performance | 6 | 5 | 5 |
2 | Towards Textile Energy Storage from Cotton T-Shirts | 2 | 0 | 4 |
3 | Highly Conductive and Stretchable Silver Nanowire Conductors | – | 1 | |
4 | Functional Nanoporous Graphene Foams with Controlled Pore Sizes | – | 1 | |
5 | Templated Nanocarbons for Energy Storage | – | 1 | |
6 | Graphene Hydrogels Deposited in Nickel Foams for High-Rate Electrochemical Capacitors | – | 1 | |
7 | Three-Dimensional Nitrogen and Boron Co-doped Graphene for High-Performance All-Solid-State Supercapacitors | 6 | 5 | 1 |
8 | Molecular Engineered Super-Nanodevices: Smart and Safe Delivery of Potent Drugs into Tumors | 33 | 25 | 2 |
9 | High Efficiency Inorganic/Organic Hybrid Tandem Solar Cells | – | 1 | |
10 | Binary and Ternary Atomic Layers Built from Carbon, Boron, and Nitrogen | – | 1 | |
11 | Mesoporous CuO Particles Threaded with CNTs for High‐Performance Lithium‐Ion Battery Anodes | – | 1 | |
12 | Functionalized Graphene Sheets as Molecular Templates for Controlled Nucleation and Self-Assembly of Metal Oxide-Graphene Nanocomposites | – | 1 | |
13 | Self-Replenishing Surfaces | – | 1 | |
14 | Graphene and Graphene Oxide: Synthesis, Properties, and Applications | 14 | 0 | 10 |
15 | Non-Basic High-Performance Molecules for Solution-Processed Organic Solar Cells | 26 | 2 | |
16 | Stable Solution-Processed Molecular n-Channel Organic Field-Effect Transistors | – | 2 | |
17 | Mosaic Hydrogels: One-Step Formation of Multiscale Soft Materials | 38 | 21 | 2 |
18 | Low Temperature Casting of Graphene with High Compressive Strength | – | 1 | |
19 | A Novel Bioassay Platform Using Ferritin-Based Nanoprobe Hydrogel | 37 | 18 | 2 |
20 | Multistage pH-Responsive Liposomes for Mitochondrial-Targeted Anticancer Drug Delivery | – | 1 | |
21 | Ionic Liquid-Nanoparticle Hybrid Electrolytes and their Application in Secondary Lithum-Metal Batteries | – | 1 | |
22 | Polymer-Free Near-Infrared Photovoltaics with Single Chirality (6,5) Semiconducting Carbon Nanotube Active Layers | – | 1 | |
23 | Superhydrophobic Surfaces with Photocatalytic Self-Cleaning Properties by Nanocomposite Coating of TiO2 and Polytetrafluoroethylene | – | 1 | |
24 | Simultaneous Enhancement of Open-Circuit Voltage, Short-Circuit Current Density, and Fill Factor in Polymer Solar Cells | 18 | –6 | 2 |
25 | Towards High-Performance Bioinspired Composites | – | 1 | |
26 | Emerging Applications of Atomic Layer Deposition for Lithium‐Ion Battery Studies | – | 1 | |
27 | Roll‐to‐Roll Fabrication of Multilayer Films for High Capacity Optical Data Storage | – | 1 | |
28 | Core‐Shell Nanocapsules Stabilized by Single‐Component Polymer and Nanoparticles for Magneto‐C | – | 1 | |
29 | Remarkable Enhancement of Hole Transport in Top‐Gated N‐Type Polymer Field‐Effect Transistors | 4 | –25 | 2 |
30 | Whitesides’ Group: Writing a Paper | 30 | 0 | 10 |
31 | High Performance AC Electroluminescence from Colloidal Quantum Dot Hybrids | – | 1 | |
32 | Highly Stretchable and Highly Conductive Metal Electrode by Very Long Metal Nanowire Percolation Net | 40 | 8 | 4 |
33 | On‐Demand Separation of Oil‐Water Mixtures | – | 1 | |
34 | A Brief Guide to Designing Effective Figures for the Scientific Paper | 12 | –22 | 3 |
35 | Polyelectrolyte‐Multilayer‐Supported [email protected] Core‐Shell Nanoparticles with High Catalytic Activi | – | 1 | |
36 | Peptide Targeted Lipid Nanoparticles for Anticancer Drug Delivery | – | 1 | |
37 | A Quasi‐Liquid Iontronic–Electronic Light‐Harvesting Hybrid Photodetector with Giant Response | – | 1 | |
38 | Oxide Semiconductor Thin‐Film Transistors: A Review of Recent Advances | 29 | –9 | 10 |
39 | Functional Gold Nanorods: Synthesis, Self‐Assembly, and Sensing Applications | 17 | –22 | 3 |
40 | Novel Highly Conductive and Transparent Graphene‐Based Conductors | – | 1 |
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