本周的Advanced Materials Top 40中有很多的变化。Michael Sailor教授的综述文章“Hybrid Nanoparticles for Detection and Treatment of Cancer”上升了30位排名第1位。另一篇由唐芳琼教授撰写的关于生物医学方面的综述“Mesoporous Silica Nanoparticles: Synthesis, Biocompatibility and Drug Delivery”上升了16位进入前10。
另外值得注意的是:前20中有5篇文章都与石墨烯有关。作为Advanced Materials发表的被引用次数最多的文章,“One-Dimensional Nanostructures: Synthesis, Characterization, and Applications”首次进入排行位于第20位。江雷教授撰写的关于受蜘蛛丝启发的功能纤维的综述也进入前40。
排名 | 题目 | 上周名次 | 名次变化 | 周数 |
1 | Hybrid Nanoparticles for Detection and Treatment of Cancer | 31 | +30 | 2 |
2 | Highly Stretchable and Highly Conductive Metal Electrode by Very Long Metal Nanowire Percolation Net | 1 | ||
3 | Paper-Based, Capacitive Touch Pads | 4 | +1 | 3 |
4 | Novel Highly Conductive and Transparent Graphene-Based Conductors | 1 | –3 | 4 |
5 | Towards Textile Energy Storage from Cotton T-Shirts | 3 | –2 | 2 |
6 | Mesoporous Silica Nanoparticles: Synthesis, Biocompatibility and Drug Delivery | 22 | +16 | 3 |
7 | Direct Synthesis of Anatase TiO2 Nanowires with Enhanced Photocatalytic Activity | 14 | +7 | 4 |
8 | Graphene and Graphene Oxide: Synthesis, Properties, and Applications | 12 | +4 | 3 |
9 | Co-Evaporated Bulk Heterojunction Solar Cells with >6.0% Efficiency | 15 | +6 | 2 |
10 | Nanosheet-Constructed Porous TiO2 for Advanced Lithium Ion Batteries | 7 | –3 | 2 |
11 | Oxide Semiconductor Thin-Film Transistors: A Review of Recent Advances | 10 | –1 | 3 |
12 | Whitesides’ Group: Writing a Paper | 24 | +12 | 3 |
13 | Templating Assembly of Multifunctional Hybrid Colloidal Spheres | 2 | –11 | 2 |
14 | Stretchable Light-Emitting Electrochemical Cells Using an Elastomeric Emissive Material | 6 | –8 | 2 |
15 | Air-Stable and High-Mobility n-Channel Organic Transistors Based on Small-Molecule/Polymer S | 27 | +12 | 2 |
16 | For the Bright Future-Bulk Heterojunction Polymer Solar Cells with Power Conversion Efficiency of | 37 | +21 | 3 |
17 | One-Step Interfacial Synthesis and Assembly of Ultrathin Luminescent AuNPs/Silica Membranes | 13 | –4 | 2 |
18 | Graphene-Based Materials for Energy Conversion | 8 | –10 | 3 |
19 | Graphene Oxide as an Optical Biosensing Platform | 1 | ||
20 | One-Dimensional Nanostructures: Synthesis, Characterization, and Applications | 1 | ||
21 | Dual Plasmonic Nanostructures for High Performance Inverted Organic Solar Cells | 16 | –5 | 3 |
22 | Graphene Oxide as a Novel Nanoplatform for Enhancement of Aggregation-Induced Emission of Silole F | 21 | –1 | 2 |
23 | Random Composites of Nickel Networks Supported by Porous Alumina Toward Double Negative Materials | 1 | ||
24 | Carbon Nanofibers Prepared via Electrospinning | 2 | ||
25 | Functional Fibers with Unique Wettability Inspired by Spider Silks | 9 | –16 | 2 |
26 | Thiazole-Based Organic Semiconductors for Organic Electronics | 19 | –7 | 3 |
27 | A Self-healing Conductive Ink | 34 | +7 | 3 |
28 | A Crown Ether Appended Super Gelator with Multiple Stimulus Responsiveness | 1 | ||
29 | Functional Fibers: Functional Fibers with Unique Wettability Inspired by Spider Silks (Adv. Mater. 2 | 23 | –6 | 2 |
30 | Efficient, Large Area ITO-and-PEDOT-free Organic Solar Cell Sub-modules | 1 | ||
31 | Flexible, Angle-Independent, Structural Color Reflectors Inspired by Morpho Butterfly Wings | 38 | +7 | 3 |
32 | Bioinspired Layered Composites Based on Flattened Double-Walled Carbon Nanotubes | 1 | ||
33 | High-Efficiency Inverted Polymer Solar Cells with Transparent and Work-Function Tunable MoO3-A | 30 | –3 | 2 |
34 | Enhancement in the Performance of Ultrathin Hematite Photoanode for Water Splitting by an Oxide Unde | 25 | –9 | 2 |
35 | Flexible Control of Block Copolymer Directed Self-Assembly using Small, Topographical Templates: P | 2 | ||
36 | Nano-photocatalytic Materials: Possibilities and Challenges | 1 | ||
37 | Highly Efficient Single-Layer Polymer Ambipolar Light-Emitting Field-Effect Transistors | 28 | –9 | 2 |
38 | Understanding Charge Transfer at PbS-Decorated Graphene Surfaces toward a Tunable Photosensor | 29 | –9 | 2 |
39 | Electrospinning of Nanofibers: Reinventing the Wheel? | 1 | ||
40 | Design Rules for Donors in Bulk-Heterojunction Solar Cells: Towards 10% Energy-Conversion Ef | 1 |
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