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▲ Vol 04 Issue 09 | May 16, 2011
Controlled Synthesis and Multifunctional Properties of FePt–Au Heterostructures
Jiajia Wu, Yanglong Hou, Song Gao
In this work, FePt–Au heterostructured nanocrystals (HNCs) such as tadpole-, dumbbell-, bead-, and necklace-like nanostructures were synthesized by a facile heteroepitaxial growth of Au NCs onto FePt nanorods (NRs). A study of the growth mechanism revealed that the morphology control of the final products can be correlated with the adsorption sites of hydrogen onto the FePt NRs, which can be manipulated by the amount of the forming gas (Ar/7% H2) added. Not only the optical characteristic and magnetic properties of the intrinsic materials were retained in the products, but also the FePt–Au HNCs showed the tunable multifunctional properties resulted from the interactions between Au and FePt. Moreover, for methanol oxidation, the FePt–Au HNCs exhibited enhanced catalytic activity and CO tolerance on the catalyst surface compared to commercial Pt catalysts. It is worth noting that as multifunctional units, the FePt–Au HNCs also possess a heterogeneous surface, which could potentially enable their site-specific functionalization for targeting or imaging purposes in biomedical applications. More interestingly, the catalytic properties of the FePt–Au HNCs also endow this material with application potentials in nanocatalysis.
https://www.sciopen.com/article/10.1007/s12274-011-0140-y?issn=1998-0124
▲ Vol 23 Issue 38 | October 11, 2011
Nanoscale Topography: Aptamer-Mediated Efficient Capture and Release of T Lymphocytes on Nanostructured Surfaces
Li Chen, Xueli Liu, Bin Su, Jing Li, Lei Jiang, Dong Han and Shutao Wang
Easy capture and easy release! The cover illustrates a nanostructured platform that combines silicon nanowire arrays and targeted DNA aptamers, realizing significant capture and efficient release of T lymphocytes. This method of capture and release provides an artful strategy to fulfill the demands of cell isolation and diagnostics, as reported by Dong Han, Shutao Wang, and co-workers on page 4376.
http://onlinelibrary.wiley.com/doi/10.1002/adma.v23.38/issuetoc
▲ Vol 17 Issue 46 | November 11, 2011
Preparation of Highly Stable and Water-Dispersible Silicon Quantum Dots by Using an Organic Peroxide
Dr. Jiechao Ge, Dr. Weimin Liu, Wenwen Zhao, Dr. Hongyan Zhang, Dr. Xiaoqing Zhuang, Minhuan Lan, Dr. Prof. Pengfei Wang, Hongqiang Li, Dr. Prof. Guangzhao Ran and Dr. Prof. Shuit-Tong Lee
A new method of preparing water-dispersible silicon quantum dots (QDs, blue spheres) has been developed by using an organic peroxide as a highly effective precursor (the lower left quarter, red and grey–green ball-and-stick model). The obtained water-dispersible carboxylic acid terminated Si QDs displayed strong and stable photoluminescence in the visible spectrum, which can be widely used in boimedical imaging. For more detail, see the Communication by S.-T. Lee, P.-F. Wang et al. on page 12872 ff.
http://onlinelibrary.wiley.com/doi/10.1002/chem.v17.46/issuetoc
▲ Vol 21 Issue 23 | December 06, 2011
Functional Thin Films: Controllable Underwater Oil-Adhesion-Interface Films Assembled from Nonspherical Particles
Yu Huang, Mingjie Liu, Jingxia Wang, Jinming Zhou, Libin Wang, Yanlin Song and Lei Jiang
The cover shows controllable underwater oil-adhesion films assembled from nonspherical latex particles. On page 4436, Jingxia Wang, Yanlin Song, and co-workers show how the underwater oil adhesion force of films could be effectively controlled from high adhesion to low adhesion when the films are assembled from latex particles of spherical, cauliflower-like and single-cavity structure, respectively. This offers significant insight for the design and creation of novel underwater anti-fouling materials.
http://onlinelibrary.wiley.com/doi/10.1002/adfm.v21.23/issuetoc
▲ Vol 50 Issue 11 | March 07, 2011
Single-Molecule Detection of Proteins Using Aptamer-Functionalized Molecular Electronic Devices
Song Liu, Xinyue Zhang, Wangxi Luo, Zhenxing Wang, Prof. Xuefeng Guo, Dr. Michael L. Steigerwald and Prof. Xiaohong Fang
Filling in the gap: Label-free, real-time electrical detection of proteins is achieved with high selectivity and real single-molecule sensitivity by using aptamer-functionalized molecular electronic devices with single-walled carbon nanotubes as point contacts.
https://onlinelibrary.wiley.com/doi/10.1002/anie.201006469
▲ Vol 40 Issue 07 | July 01, 2011
Electron transporting semiconducting polymers in organic electronics
Xingang Zhao and Xiaowei Zhan
Significant progress has been achieved in the preparation of semiconducting polymers over the past two decades, and successful commercial devices based on them are slowly beginning to enter the market. However, most of the conjugated polymers are hole transporting, or p-type, semiconductors that have seen a dramatic rise in performance over the last decade. Much less attention has been devoted to electron transporting, or n-type, materials that have lagged behind their p-type counterparts. Organic electron transporting materials are essential for the fabrication of organic p–n junctions, organic photovoltaic cells (OPVs), n-channel organic field-effect transistors (OFETs), organic light-emitting diodes (OLEDs) and complementary logic circuits. In this critical review we focus upon recent developments in several classes of electron transporting semiconducting polymers used in OLEDs, OFETs and OPVs, and survey and analyze what is currently known concerning electron transporting semiconductor architecture, electronic structure, and device performance relationships (87 references).
http://pubs.rsc.org/en/Content/ArticleLanding/CS/2011/C0CS00194E#!divAbstract
▲ Vol 23 Issue 35 | September 15, 2011
Flexible Electronics: Sub-Micrometer-Thick All-Solid-State Supercapacitors with High Power and Energy Densities
Fanhui Meng and Yi Ding
Flexible, all-solid-state supercapacitors with sub-micrometer thickness are reported by Yi Ding and co-workers on page 4098. This power source, which is based on a unique nanoporous gold/polypyrrole (NPG-PPy) hybrid nanostructure, demonstrates high volumetric capacitance as well as high power and energy densities, suggesting its potential in powering next-generation wearable and miniaturized electronic devices.
http://onlinelibrary.wiley.com/doi/10.1002/adma.201190138/full
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静远嘲风(MY Scimage) 成立于2007年,嘲风取自中国传统文化中龙生九子,子子不同的传说,嘲风为守护屋脊之瑞兽,喜登高望远;静远取自成语“宁静致远”,登高莫忘初心,远观而不可务远。
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