Advanced Energy Materials:2016-6(18)
3D打印鋰離子電池正極材料:3D打印LiMn1?xFexPO4@C納米晶正極材料,據此得到高容量和快速充放電速率的鋰離子電池:100 C條件下實現108.45 mA h g-1。在現有LMFP鋰離子電池中具有最佳的比率放電能力。
參考文獻:Jiangtao Hu, Feng Pan et al. 3D-Printed Cathodes of LiMn1?xFexPO4 Nanocrystals Achieve Both Ultrahigh Rate and High Capacity for Advanced Lithium-Ion Battery. Advanced Energy Materials 2016.
Advanced Energy Materials:2016-6(17)
ORR非Pt納米催化劑:綜述了具有ORR性能的非Pt納米催化劑的合成、活性以及關鍵因素。
參考文獻:Zhonghong Xia, Dingguo Xia et al. Non-Pt Nanostructured Catalysts for Oxygen Reduction Reaction: Synthesis, Catalytic Activity and its Key Factors. Advanced Energy Materials 2016.
Angew. Chem. Int. Ed.:2016-55(40)
上/下轉換:在納米尺度的鑭系物核殼結構中引入釓元素,作為能量供體,通過對界面能量轉移的控制,同時實現上轉換和下轉換發光。
參考文獻:Bo Zhou, Yuen Hong Tsang et al. Constructing Interfacial Energy Transfer for Photon Up- and Down-Conversion from Lanthanides in a Core–Shell Nanostructure. Angew. Chem. Int. Ed. 2016.
Angew. Chem. Int. Ed.:2016-55(39)
仿生塑料:開發了一種由聚丙烯酸和無定形碳酸鈣納米顆粒組成的水凝膠材料,具有良好的成形和自愈性能,經過干燥可形成剛性透明薄膜,有望解決白色污染等環境問題。
參考文獻:Shengtong Sun, Helmut C?lfen et al. Hydrogels from Amorphous Calcium Carbonate and Polyacrylic Acid: Bio-Inspired Materials for “Mineral Plastics”. Angew. Chem. Int. Ed. 2016.
Advanced Materials:2016-28(36)
光探測器:開發了一種基于無序的Ag納米顆粒陣列的等離激元平臺。Ag納米顆粒一方面提供了等離激元熱點,另一方面作為納米天線,顯著提高了量子產率和發射率,從而極大地提高了上轉換納米顆粒的近紅外-可見光發光性能,并增強了近紅外光靈敏度。
參考文獻:Seok Joon Kwon, Hyungduk Ko et al. A Plasmonic Platform with Disordered Array of Metal Nanoparticles for Three-Order Enhanced Upconversion Luminescence and Highly Sensitive Near-Infrared Photodetector. Adv. Mater. 2016, 28, 7899–7909.
Advanced Materials:2016-28(36)
熱響應電解質:利用一種商業的熱塑性橡膠,開發了一種熱響應的智能電解質,通過溶液中高分子膠束不同狀態引發的溫度變化,智能電解質可進行可逆的溶膠-凝膠轉變,從而對過熱行為具有自保護功能。
參考文獻:Ye Shi, Guihua Yu et al. Thermoplastic Elastomer-Enabled Smart Electrolyte for Thermoresponsive Self-Protection of Electrochemical Energy Storage Devices Adv. Mater. 2016, 28, 7921–7928.
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