【摘 要】
:
The problem of unconventional magnetism in materials without d and f electrons has attracted continuous attention.In particular,a lot of efforts have been devoted to understand the origin and effects
论文部分内容阅读
The problem of unconventional magnetism in materials without d and f electrons has attracted continuous attention.In particular,a lot of efforts have been devoted to understand the origin and effects of magnetic moments induced in graphene with structure defects such as missing carbon atoms,absorption of light atoms such as hydrogen or fluorine.We have measured the magnetoresistance(MR)of graphene at low temperature with in-situ hydrogenation in ultra-high vacuum environment.Large negative MR was found in hydrogenated graphene which could be tuned by carrier density and sample temperature.Depending on the density of absorbed atomic hydrogen and carrier density,large linear negative MR was found which did not saturate up to 9 Tesla.Such negative MR could be the manifestation of local moments created by atomic hydrogen absorbed on graphene.
其他文献
在原子层沉积(ALD)过程中,通过使用两种或两种以上以上的气态前驱体在基底表面交替发生化学吸附实现原子级精度的可控薄膜生长.这种沉积方式使得ALD 技术能够作用于具有复杂几何结构的载体表面,因此该技术被广泛应用于纳米催化结构的可控合成中.多种具有催化活性的材料,包括各类金属和金属氧化物,都可以通过ALD 的方式合成.本报告将举例说明如何利用ALD 技术改变载体孔道结构,调整载体表面物理、化学性质,
We have studied low energy collective modes at the surface of a 3D topologicalinsulator-Bi2Se3(0001)via angle-resolved high resolution electron energy loss spectroscopy.Weobserved two collective modes
近来,氮杂环卡宾(NHCs)分子被引入表面改性领域,其很多极富吸引力的特性 使得它可能具有比硫基系统更好的应用前景。对于 NHCs 自组装过程的研究有助于人们理解自组装单层薄膜(SAMs)的形成。要形成 SAMs 就需要分子在表面上具有某种移动性,然而目 前为止对于自组装过程中 NHCs 在表面上的移动性只有很少的一些研究。基于 STM 研究及第一性原理计算,我们对于实验中观察到的 NHCs 的高
Spontaneous imbibitions is a very important aspect of nature phenomena,its mechanism is widely used in scientific research and industry [1,2].In this work theoretical model for droplet transports thro
聚二甲基硅氧烷(PDMS)具有透光性优良、化学性质稳定、加工简便、价格低廉以及生物兼容性等特点,是目前微流控芯片制备中常见的聚合物有机材料[1-2]。它的高疏水性限制了其在微流控技术领域的进一步应用,因此对PDMS 的表面改性或修饰成为增强应用范围的有效方法。为了提高PDMS 为材料的微通道芯片的浸润性,通过射频磁控溅射的方法在PDMS 芯片溅射二氧化硅(SiO2),通过溅射时间的调节得到不同厚度
Charge transfer is a very effective method to modify the electronic structures of organic semiconductors and has been used in many fields.Recently,superconducting transitions induced by electron dopin
SrTiO3 具有优良的介电特性,并且在一定的外作用下(如掺杂、应力等)呈现出铁电性.对其铁电和电学特性的调控将会在下一代氧化物电子学器件中具有广阔的应用前景.我们在Si 衬底上外延了具有不同阳离子配比的SrTiO3 薄膜.利用压电力显微镜对样品进行的铁电研究发现,缺Sr 的SrTiO3 薄膜呈现出良好的铁电性.扫描透射电子显微镜的结果表明,缺Sr 薄膜中富余的Ti 在元胞中填隙,与Sr 空位一起
Using the recently developed energy/momentum two-dimensionally resolved highresolution electron energy loss spectroscopy(HREELS)and low energy electron diffraction(LEED),we measured the surface phonon
The adsorption behavior of Sr adatoms on the SrTiO3(110)–(4×1)reconstructed surface with Ti2O3 vacancies distributed in a superstructure is studied by scanning tunneling microscopy and density functio
奥氏体不锈钢被广泛应用于日用五金、汽车工业,建筑行业、化工和智能手机等领域.奥氏体不锈钢属于难加工材料,在机械加工时通常出现“粘刀”现象,影响了刀具的寿命和工件表面质量.虽然已有多种硬质涂层被应用于奥氏体不锈钢加工刀具,但“粘刀”的本质和影响因素尚未厘清.本文采用多弧离子镀技术在硬质合金YG8 上制备了高铝含量的AlTiN(表层)/AlCrN(CTN)、中铝含量的TiAlN(表层)/AlCrN 涂