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我院教师伊博乐、F.Guillou参加庆祝中华人民共和国成立70周年外国专家招待会

[日期:2019-09-28]

  9月27日,庆祝中华人民共和国成立70周年外国专家招待会在北京人民大会堂举行,中共中央政治局常委、国务院副总理韩正出席并致辞。内蒙古师范大学物理与电子信息学院教师伊博乐、F.Guillou受邀,与全国长期在华工作的外国老专家,在华工作的外国专家代表及配偶,中央和国家机关有关部门、北京市的负责同志,共约1800人参加了招待会。招待会由科技部部长王志刚主持。

 

 

 

  韩正首先代表中国政府,代表习近平主席,向所有关心、支持、参与中国改革开放和现代化建设的外国专家和国际友人,表示衷心感谢并致以诚挚问候。

 

 

  韩正说,新中国成立以来,特别是改革开放40多年来,中国共产党团结带领全国各族人民披荆斩棘、奋发图强,成功走出了一条中国特色社会主义道路,迎来了从站起来、富起来到强起来的伟大飞跃。党的十八大以来,以习近平同志为核心的党中央,统筹推进“五位一体”总体布局,协调推进“四个全面”战略布局,推动党和国家事业取得历史性成就、发生历史性变革,中国特色社会主义进入了新时代。新中国70年的发展成就,是中国各族人民不懈奋斗的结果,也凝结着外国专家的辛勤劳动。70年来,大批外国专家来到中国,与中国人民共同投身现代化建设事业,作出了不可磨灭的贡献,中国人民永远不会忘记。

 

 

  韩正指出,中国发展已站在新的历史起点上,中国人民正在为决胜全面建成小康社会、夺取新时代中国特色社会主义伟大胜利、实现中华民族伟大复兴的中国梦不懈奋斗。中国将坚持“发展是第一要务,人才是第一资源,创新是第一动力”,大力实施创新驱动发展战略,推动经济高质量发展。人是最具创新活力的因素,中国将加快培养造就一大批具有国际水平的战略科技人才、科技领军人才、青年科技人才和高水平创新团队。

 

 

  

  韩正表示,中国的事业是得到世界人民支持的事业,是向世界开放学习的事业,是同世界各国合作的事业。中国将以更加开放包容的姿态,虚心向世界各国人民学习,坚定实施更加积极、更加开放、更加有效的人才引进政策。我们诚挚欢迎越来越多的外国专家来华创新创业,欢迎世界各地英才俊杰参与中国现代化建设,为推动构建人类命运共同体、为世界和平发展和人类进步事业作出更大贡献。

 

  刘鹤、杨洁篪、陈希、张春贤、肖捷、万钢等中央领导出席招待会。

  附外部视频链接:http://tv.cctv.com/2019/09/27/VIDEumGa3B8tE9Gnf1m1vqnm190927.shtml

 

 

伊博乐老师简介:

  伊博乐,女,蒙古族,1985年出生,副教授,硕士生导师,2007年毕业于内蒙古师范大学物理与电子信息学院,获物理学学士学位,2010年毕业于内蒙古师范大学物理与电子信息学院,获凝聚态物理理学硕士学位,2016年毕业于荷兰代尔夫特理工大学应用科学学院,获理学博士学位,2018年至今在内蒙古师范大学物理与电子信息学院任教,主要讲授《电磁学》、《凝聚态磁性物理》、《凝聚态磁学》等课程。指导本科毕业论文3个课题。

  目前研究工作主要从事磁相变材料的制备、结构与磁性研究,重点研究新型过渡族金属化合物的磁热效应和负膨胀性能,以及单晶生长。现主持国家自然科学基金项目2项,校级项目2项。到目前为止,共发表了SCI国际论文20余篇,其中第一作者和通讯作者8篇。包括Acta Materialia, Phys.Rev. B,Appl. Phys. Lett.,Chemistry of Materials, Advanced Materials等国际核心期刊,总引次数超过300次。

  研究方向:磁相变材料

  电子邮箱:hyibole@imnu.edu.cn

 

 

Prof. Dr. Francois Guillou老师简介:

  Prof. Dr. Francois Guillou is offering one Master’s project (plus one optional depending on attendance) starting in September 2019. Since March 2018, he works at the Inner Mongolia Normal University, and more specifically at the Key Laboratory for physics and chemistry of functional materials as professor (Foreign High-level Talents & Professionals) to conduct research and teach materials science and condensed matter physics.

  Prior 2018, he participated in research at international level through doctoral (France) and several postdoctoral projects on magnetic and caloric materials. During his postdocs, he joined leading groups in the field of functional magnetic materials for energy of Prof. Dr. E. Bruck (TU Delft, Netherlands) and Prof. Dr. V.K. Pecharsky (Ames Laboratory, USA), and also worked at a state of the art synchrotron facility (ID12 beamline, ESRF, France).

  F. Guillou already supervised several BsC students (~10), MsC students (3) and was daily supervisor of one PhD student. All of them successfully defended their work. Within the 10 years from the beginning of his PhD till today, F. Guilloupublished 18 articles as first author in regular peer reviewed international journals, including high impact journals (Advanced Materials, Nature Communication). He also wrote 3 patents for the BASF company, and contributed to 20 additional articles published in regular peer reviewed international journals. It should be highlighted that all the projects F. Guillou was involved in have systematically led to publications at international level. He regularly presented (with vast majority of oral presentation) his work in international conferences. F. Guillou is currently leading one NSFC project and one IMNU project.

  Preliminary Master’ project(s) plan, starting September 2019:

  1-    Developing state of the art thermal measurements for caloric materials.

  Making accurate and reliable measurements is an essential precondition in experimental physics. While several commercial solutions exist to perform thermal measurements (temperature, specific heat) the specificities of caloric materials call for home-made probes with particular designs. The first and main goal of this master’s project will be to develop one differentialscanning calorimetry probe and one direct temperature change probe compatible with the versatile environment of the Quantum Design Versalab system. While all the required physical components are already available at Key laboratory, a significant amount of work will be required on building a LabVIEW interface. The second step of the project will consist in performing such measurements on reference materials. Finally, measurements on samples prepared at IMNU and in collaborating laboratories will be carried out.

  Main skills going to be developed: Metrology, LabVIEW programming, basis of magnetic and caloric materials, physical measurements in general, independent scientific work.

  (2)- Toward rare-earth free permanent magnets deriving from Fe2P (optional)

  Our recent discovery of a significant magneto-crystalline anisotropy at room temperature in quaternaries deriving from Fe2P offers great promisesfor creating rare-earth free permanent magnets. However, before such permanent magnets can be produced routinely several challenges need to be tackled: 1-creation of remanence and coercivity by control of defects concentration and particle size reduction ; 2- creation of oriented bonded permanent magnets ; 3- Compositional optimization and formulation of new compounds ; 4- understanding of the structure-properties relationships and origin of the magnetic anisotropy. This project will involve an extensive experimental work from synthesis of magnetic materials, chemical characterizations to magnetic measurements.

  Main skills going to be developed:Synthesis of materials by various methods, chemical characterizations including x-ray diffraction and electronic microscopy, physical measurements with emphasis on magnetic measurements, independent scientific work.

  English will be the working language for the project(s).

  Contact: francoisguillou@imnu.edu.cn