Paper Award

WITec 论文奖 — 展示您的科研成果

  • WITec 论文奖的评选对象是使用 WITec 显微镜获取研究结果和/或成像图片、并已经发表到业内知名刊物上的优秀科学论文。

    欢迎来自世界各地的科研工作者提交在本年度发表的论文,投稿作者每次投稿都会收到 WITec 的精美礼品一份。

    WITec评委会将依据科学相关性、文章数据质量和仪器功能利用率等方面综合评选出该年度论文奖的获奖者。

    报名截止日期是每年的 1 月 31 日。

    投稿方式:

    1.将您的论文(PDF 文件)发送至 papers@witec.de,并附上您的完整联系信息。

    2.每次提交新论文即可获得 WITec精美礼品一份。

    3.自动参与 WITec 论文奖竞赛,排名前三的论文的第一作者将获得一张亚马逊礼品卡。

往年获奖情况

  • 2020: Publications can be submitted!

    2019:

    • Martin Felhofer, Batirtze Prats-Mateu, Peter Bock, Notburga Gierlinger (2018) Antifungal stilbene impregnation: transport and distribution on the micron-level. Tree Physiology 38, pp. 1526-1537. doi.org/10.1093/treephys/tpy073
    • Matthew S. Dodd, Dominic Papineau, Zhenbing She, Marilyn L. Fogel, Sandra Nederbragt, Franco Pirajno (2018) Organic remains in late Palaeoproterozoic granular iron formations and implications for the origin of granules. Precambrian Research 310, pp. 133-152. doi.org/10.1016/j.precamres.2018.02.016
    • Joonas T. Holmi, Bakhysh H. Bairamov, Sami Suihkonen, Harri Lipsanen (2018) Identifying threading dislocation types in ammonothermally grown bulk α-GaN by confocal Raman 3-D imaging of volumetric stress distribution. Journal of Crystal Growth 499, pp. 47-54. doi.org/10.1016/j.jcrysgro.2018.07.024

     2018:

    • Hesham K. Yosef, Sascha D. Krauß, Tatjana Lechtonen, Hendrik Jütte, Andrea Tannapfel, Heiko U. Käfferlein Thomas Brüning, Florian Roghmann, Joachim Noldus, Axel Mosig, Samir F. El-Mashtoly and Klaus Gerwert: Noninvasive diagnosis of high-grade urothelial carcinoma in urine by Raman spectral imaging. Analytical Chemistry 89, 6893 (2017), DOI 10.1021/acs.analchem.7b01403.
    • Marvin Gernhardt, Ling Peng, Matthias Burgard, Shaohua Jiang, Beate Förster, Holger Schmalz and Seema Agarwal: Tailoring the morphology of responsive bioinspired bicomponent fibers. Macromolecular Materials and Engineering 303, 1700248 (2017), DOI. 10.1002/mame.201700248.
    • Guanglin Yu, Yan Rou Yap, Kathryn Pollock and Allison Hubel: Characterization intracellular ice formation of lymphoblasts using low-temperature Raman spectroscopy. Biophysical Journal 112, 2653 (2017), DOI 10.1016/j.bpj.2017.05.009.

    2017:

    • Maria O’Brien, Niall McEvoy, Damien Hanlon, Toby Hallam, Jonathan N. Coleman, Georg S. Düsberg: Mapping of low-frequency Raman modes in CVD-grown transition metal dichalcogenides: layer number, stacking orientation and resonant effects. Scientific Reports (2016); 6, 19476.
    • Sara Fateixa, Manon Wilhelm, Helena I.S. Nogueira, Tito Trindade: SERS and Raman imaging as a new tool to monitor dyeing on textile fibres. Journal of Raman Spectroscopy (2016); 47, 1239.
    • Jonas Higl, M. Köhler, M. Lindén: Confocal Raman microscopy as a non-destructive tool to study microstructure of hydrating cementitious materials. Cement and Concrete Research (2016); 88, 136.

    2016:

    • Admir Masic and James Weaver: Large area sub-micron chemical imaging of magnesium in sea urchin teeth. J. Struct. Biol. (2015); 189, 269.
    • Fernando Rubio-Marcos, Adolfo Del Campo, Pascal Marchet and Jose F. Fernández: Ferrolectric domain wall motion induced by polarized light. Nature Communications (2015); 6, 6594.
    • Yongjun Lee, Seki park, Hyun Kim, Gang Hee Han, Young Hee Lee and Jeongyong Kim: Characterization of the structural defects in CVD-grown monolayered MoS2 using near-field photoluminescence imaging. Nanoscale (2015); 7, 11909

    2015:

    • Katarzyna M. Marzec, A. Rygula, B.R. Wood, S. Chlopicki, M. Baranska. High-resolution Raman imaging reveals spatial location of heme oxidation sites in single red blood cells of dried smears. J. Raman Spectrosc. (2015); 46, 76-83. (doi: 10.1002/jrs.4600).
    • Martin J. Süess, R. A. Minamisawa, R. Geiger, K.K. Bourdelle, H. Sigg, R. Spolenak. Power-dependent Raman analysis of highly strained Si nanobridges. Nano Lett. (2014) ;14, 1249-54. (doi: 10.1021/nl404152r).
    • Chunxiao Cong and Ting Yu. Enhanced ultra-low-frequency interlayer shear modes in folded graphene layers. Nat Commun. (2014; 5, 4709. (doi: 10.1038/ncomms5709).

    2014:

    • Y. Hao, M. S. Bharathi, L. Wang, Y. Liu, H. Chen, S. Nie, X. Wang, H. Chou, C. Tan, B. Fallahazad, H. Ramanarayan, C. W. Magnuson, E. Tutuc, B. I. Yakobson, K. F. McCarty, Y. W. Zhang, P. Kim, J. Hone, L. Colombo, R. S. Ruoff, The role of surface oxygen in the growth of large single-crystal graphene on copper. Science 342, 720-723 (2013); 8 (10.1126/science.1243879).
    • F. Foucher, F. Westall, Raman imaging of metastable opal in carbonaceous microfossils of the 700-800 ma old Draken Formation. Astrobiology 13, 57-67 (2013); (10.1089/ast.2012.0889).
    • B. Kann, M. Windbergs, Chemical imaging of drug delivery systems with structured surfaces-a combined analytical approach of confocal Raman microscopy and optical profilometry. The AAPS Journal 15, 505-510 (2013); (10.1208/s12248-013-9457-7).

    2013:

    • Costantini, D., Greusard, L., Bousseksou, A., Rungsawang, R., Zhang, T. P., Callard, S., Decobert, J., Lelarge, F., Duan, G.-H., De Wilde, Y., & Colombelli, R., (2012). In situ generation of surface plasmon polaritons using a near-infrared laser diode. Nano Letters, 12(9), 4693–7. doi:10.1021/nl302040e
    • Matthaeus, C., Krafft, C., Dietzek, B., Brehm, B. R., Lorkowski, S., & Popp, J. (2012). Noninvasive imaging of intracellular lipid metabolism in macrophages by Raman microscopy in combination with stable isotopic labeling. Analytical Chemistry, 84(20), 8549–56. doi:10.1021/ac3012347
    • Rubio-Marcos, F., Del Campo, A., López-Juárez, R., Romero, J. J., & Fernández, J. F. (2012). High spatial resolution structure of (K,Na)NbO3 lead-free ferroelectric domains. Journal of Materials Chemistry, 22(1), 9714–9720. doi:10.1039/c2jm30483j

    2012:

    • Schmidt, D. A., Ohta, T., & Beechem, T. E. (2011). Strain and charge carrier coupling in epitaxial graphene. Physical Review B, 84(23), 235422. doi:10.1103/PhysRevB.84.235422
    • Nehrke, G., & Nouet, J. (2011). Confocal Raman microscope mapping as a tool to describe different mineral and organic phases at high spatial resolution within marine biogenic carbonates: case study on Nerita undata (Gastropoda, Neritopsina). Biogeosciences, 8(12), 3761–3769. doi:10.5194/bg-8-3761-2011
    • Xu, Y. N., Zhan, D., Liu, L., Suo, H., Ni, Z. H., Nguyen, T. T., Zhao, C., & Shen, Z. X., (2011). Thermal dynamics of graphene edges investigated by polarized Raman spectroscopy. ACS nano, 5(1), 147–52. doi:10.1021/nn101920c
    • Weber-Bargioni, A., Schwartzberg, A., Cornaglia, M., Ismach, A., Urban, J. J., Pang, Y., Gordon, R., Bokor, J., Salmeron, M. B., Ogletree, D. F., Ashby, P., Cabrini, S., Schuck, P. J., (2011). Hyperspectral Nanoscale Imaging on Dielectric Substrates with Coaxial Optical Antenna Scan Probes. Nano letters, 11, 1201–1207. doi:10.1021/nl104163m

    2011:

    • Meister, K., Schmidt, D. A., Bründermann, E., & Havenith, M. (2010). Confocal Raman microspectroscopy as an analytical tool to assess the mitochondrial status in human spermatozoa. The Analyst, 135(6), 1370–4. doi:10.1039/b927012d
    • dePaula, S. M., Huila, M. F. G., Araki, K., & Toma, H. E. (2010). Confocal Raman and electronic microscopy studies on the topotactic conversion of calcium carbonate from Pomacea lineate shells into hydroxyapatite bioceramic materials in phosphate media. Micron, 41(8), 983–9. doi:10.1016/j.micron.2010.06.014
    • Harrington, M. J., Masic, A., Holten-Andersen, N., Waite, J. H., & Fratzl, P. (2010). Iron-clad fibers: a metal-based biological strategy for hard flexible coatings. Science, 328(5975), 216–20. doi:10.1126/science.1181044