Nanoscale X-ray imaging

被引:14
|
作者
Anne Sakdinawat
David Attwood
机构
[1] Electrical Engineering and Computer Sciences,
[2] University of California at Berkeley,undefined
来源
Nature Photonics | 2010年 / 4卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Recent years have seen significant progress in the field of soft- and hard-X-ray microscopy, both technically, through developments in source, optics and imaging methodologies, and also scientifically, through a wide range of applications. While an ever-growing community is pursuing the extensive applications of today's available X-ray tools, other groups are investigating improvements in techniques, including new optics, higher spatial resolutions, brighter compact sources and shorter-duration X-ray pulses. This Review covers recent work in the development of direct image-forming X-ray microscopy techniques and the relevant applications, including three-dimensional biological tomography, dynamical processes in magnetic nanostructures, chemical speciation studies, industrial applications related to solar cells and batteries, and studies of archaeological materials and historical works of art.
引用
收藏
页码:840 / 848
页数:8
相关论文
共 50 条
  • [31] Nanoscale x-ray and electron tomography
    Hanfei Yan
    Peter W. Voorhees
    Huolin L. Xin
    MRS Bulletin, 2020, 45 : 264 - 271
  • [32] Nanoscale x-ray and electron tomography
    Yan Hanfei
    Voorhees, Peter W.
    Xin Huolin L.
    MRS BULLETIN, 2020, 45 (04) : 264 - 271
  • [33] X-RAY IMAGING
    HAY, GA
    JOURNAL OF PHYSICS E-SCIENTIFIC INSTRUMENTS, 1978, 11 (05): : 377 - 386
  • [34] Hyperspectral X-ray Imaging with TES Detectors for Nanoscale Chemical Speciation Mapping
    Carpenter, M. H.
    Croce, M. P.
    Baker, Z. K.
    Batista, E. R.
    Caffrey, M. P.
    Fontes, C. J.
    Koehler, K. E.
    Kossmann, S. E.
    McIntosh, K. G.
    Rabin, M. W.
    Renck, B. W.
    Wagner, G. L.
    Wilkerson, M. P.
    Yang, P.
    Yoho, M. D.
    Ullom, J. N.
    Bennett, D. A.
    O'Neil, G. C.
    Reintsema, C. D.
    Schmidt, D. R.
    Hilton, G. C.
    Swetz, D. S.
    Becker, D. T.
    Garda, J. D.
    Imrek, J.
    Mates, J. A. B.
    Morgan, K. M.
    Yan, D.
    Wessels, A. L.
    Cantor, R. H.
    Hall, J. A.
    Carver, D. T.
    JOURNAL OF LOW TEMPERATURE PHYSICS, 2020, 200 (5-6) : 437 - 444
  • [35] Looking at nanoscale properties in macro-systems with x-ray diffraction imaging
    Nikulin, Andrei
    Pelliccia, Daniele
    Muddle, Barry
    ACTA CRYSTALLOGRAPHICA A-FOUNDATION AND ADVANCES, 2011, 67 : C357 - C358
  • [36] IMAGING NANOSCALE MAGNETISM AND ITS FAST DYNAMICS WITH SOFT X-RAY MICROSCOPY
    Fischer, Peter
    ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING, 2010, 35 (1C): : 7 - 17
  • [37] Nanoscale Chemical Imaging of an Individual Catalyst Particle with Soft X-ray Ptychography
    Wise, Anna M.
    Weker, Johanna Nelson
    Kalirai, Sam
    Farmand, Maryam
    Shapiro, David A.
    Meirer, Florian
    Weckhuysen, Bert M.
    ACS CATALYSIS, 2016, 6 (04): : 2178 - 2181
  • [38] Radiation-induced melting in coherent X-ray diffractive imaging at the nanoscale
    Ponomarenko, O.
    Nikulin, A. Y.
    Moser, H. O.
    Yang, P.
    Sakata, O.
    JOURNAL OF SYNCHROTRON RADIATION, 2011, 18 : 580 - 594
  • [39] Nanoscale imaging of buried topological defects with quantitative X-ray magnetic microscopy
    Blanco-Roldan, C.
    Quiros, C.
    Sorrentino, A.
    Hierro-Rodriguez, A.
    Alvarez-Prado, L. M.
    Valcarcel, R.
    Duch, M.
    Torras, N.
    Esteve, J.
    Martin, J. I.
    Velez, M.
    Alameda, J. M.
    Pereiro, E.
    Ferrer, S.
    NATURE COMMUNICATIONS, 2015, 6
  • [40] Nanoscale imaging of buried topological defects with quantitative X-ray magnetic microscopy
    C. Blanco-Roldán
    C. Quirós
    A. Sorrentino
    A. Hierro-Rodríguez
    L. M. Álvarez-Prado
    R. Valcárcel
    M. Duch
    N. Torras
    J. Esteve
    J. I. Martín
    M. Vélez
    J. M. Alameda
    E. Pereiro
    S. Ferrer
    Nature Communications, 6
12345