方允樟

作者:来源:发布时间:2017-04-14

个人简介

方允樟,男,1963年11月出生,浙江省金华市金东区人, 现为浙江师范大学LED芯片研发中心教授级高级工程师、 凝聚态物理硕士生导师。


学习经历

1982.9-1986.7  杭州大学物理系获学士,物理专业;

1989.9-1990.7  华东师范大学物理系硕士课程,凝聚态物理专业;

2007.9-2011.7  西安建筑科技大学材料科学与工程学院获工学博士学位,材料科学专业;


工作简历

1986.8-至今  浙江师范大学任教;

助教(1987.9)/工程师(1992.11)/高级工程师(2001.12)教授级高级工程师(2006.12)硕导(2002.5)


学术兼职

浙江师范大学实验室建设指导委员委员(2008.1-至今)

浙江省高校材料科学教学指导委员会委员(2010.8-至今)


人才梯队、荣誉

浙江省中青年学科带头人(2007.10);

浙江省“151”人才第二层次(2008.10)。


研究领域及成果

长期从事非晶软磁材料及器件和LED芯片及照明技术的研究,在该领域取得一定成绩,在《Applied Physics Letters 》、《中国科学》等杂志上发表论文50余篇,获授权发明专利8项,获浙江省科学技术进步三等奖一项。

代表性论文、论著

1.“A mesostructural origin of stress-induced magnetic anisotropy in Fe-based nanocrystalline ribbons”2010年3月发表于《Applied Physics Letters》第96卷。

2.“A high sensitive giant magneto-impedance in solenoid containing FeCo-based ribbon” 2012年3月发表于《Chinese Phicycs B》第21卷第3期

3.“Nanometer size effect on the structure and magnetic properties of high oxygen content ferromagnetic PrMnO3+δ nanoparticles”2010年6月发表于《Journal of Applied Physics》第108卷;

4. “Low-density to high-density transition in Ce75Al23Si2 metallic glass”2010年8月发表于《Journal of Physics: Condensed Matter》第22卷;

5.“AFM research on the mechanism of F-based alloy stress annealed inducing magnetic anisotropy”2008年9月发表于《Science in China E》第51期;

6. “A nomalous compressive behavior in CeO2 nanocubes under high pressure”2008年11月发表于《New Journal of Physics》第10期;

7.“FeCo基薄带气流中应力退火感生磁结构研究”2011年4月发表于《金属学报》第47卷第5期;

8.“应力退火Fe基纳米晶薄带横磁向各向异性场的介观结构研”2007年4月发表于《物理学报》第56卷第7期;

9.“A new type of longitudinally driven GMI effect of FeCo-based alloy” 2008年3月发表于《Chinese Science Bulletin》第53卷第(3) 期;

10.“Fe基纳米晶晶化机理的AFM研究”2007年9月发表于《中国科学E辑》第37卷第9期。

代表性科研项目

1.2012—2015, 国家重点基础研究发展计划(973计划)项目合作项目——无序合金结构和性能表征的新方法和新技术;

2.2009—2011, 国家自然基金一般项目——高灵敏响应近零微弱外磁场的磁敏新材料及机理研究;

3.2009—2010, 浙江省自然基金项目——对近零弱磁场敏感的新型巨磁阻抗效应研究;

4.2009—2011, 国家科技部科技人员服务企业项目——锌基耐磨合金及其复合材料综合性能改善;

5.2007—2009, 浙江省科技计划重点项目——新型软磁非晶合金细丝制备技术及装置的研究;
6.2005—2007, 浙江省自然科学基金项目——Fe-Co基非晶丝的制备新工艺及巨磁阻抗效应研究;

7.2002-2005, 浙江省自然科学基金项目——外包线圈玻璃包裹Fe基纳米晶细丝特性研究;

8.2004-2006, 教育部科学技术研究重点项目——Fe基纳米晶磁敏传感器探头微型化研究;

9.2003-2005, 浙江省科技计划项目——Fe基纳米晶磁敏传感器的研究。

成果获奖

1.“Fe基纳米晶磁敏传感器的研究”获2006年浙江省科学技术三等奖;

2.“软磁材料及巨磁阻抗效应应用基础理论研究”获2013年陕西省科学技术三等奖。

学术报告

1.2011.05,在全国金属间化合物与高熵合金材料研讨会作邀请报告《Fe基非晶合金制备及纵向驱动巨磁阻抗效应》;

2.2013.11,在第十五届全国磁学和磁性材料会议上作邀请报告《Fe基非晶细带制备技术及巨磁阻抗效应研究》。


近三年教学情况

为本科生主讲课程有《磁性物理学》、《固体物理实验方法》、《材料科学导论》,指导本科生论文28篇;为研究生开设《固体物理实验方法》、《实验数据处理方法》、《铁磁学》等课程,指导培养硕士研究生9名。


Profile

Name: Fang Yunzhang

Date of Birth: 21/11/1963

Gender:Male

Nationality: Chinese

Registered Residence: Jindong District, Jin Hua, Zhejiang Province

Occupation: Professor in Research Center for Light Emitting Diodes of Zhejiang Normal University; Master’s Supervisor of Condensed Matter Physics


Education Background

09/2007-07/2011       PhD in Material Science, Engineering, Department of Science and Engineering, Xian University of Architecture and Engineering.

07/1990-09/1989       Master’s Courses in Condensed Matter Physics, Department of Physics, East China Normal University.

07/1986-09/1982       Bachelor’s Degree of Science, Physics, Department of Physics, Hangzhou University.


Work Experiences

08/1986-Present Teaching in Zhejiang Normal University
09/1987 Assistant Teacher

11/1992 Engineer

12/2001 Senior Engineer

12/2006 Professor

05/2002 Master’s Supervisor


Other Academic Positions/Memberships

01/2008-present   Member of Zhejiang Normal University Laboratory Construction Guidance Committee

08/2010-present  Member of Zhejiang Colleges’ Materials Science Teaching Steering Committee 


Honorable Titles and Awards:

10/2007 The youth discipline leader in Zhejiang Province

10/2008 selected as the second level Zhejiang Province“151 talented person engineering effort”


Research Field and Achievements

Long-term research in areas include amorphous soft magnetic materials and devices and the LED chip and lighting technology.

Achievements: more than 50 articles published on magazines such as Applied Physics Letter, Science in China

8 authorized invention patents


Representative Works

1. “A mesostructural origin of stress-induced magnetic anisotropy in Fe-based nanocrystalline ribbons.”Applied Physics Letters, Vol 96(published on March 2010).

2. “A high sensitive giant magneto-impedance in solenoid containing FeCo-based ribbon” Chinese Physics B. Vol 21, No. 3. (Published on March 2012).

3. “Nanometer size effect on the structure and magnetic properties of high oxygen content ferromagnetic PrMnO3+δ nanoparticles”Journal of Applied Physics. Vol 108. (Published on June 2010).

4. “Low-density to high-density transition in Ce75Al23Si2 metallic glass.” Journal of Physics: Condensed Matter. Vol 22. (Published on Aug 2010).

5. “AFM research on the mechanism of F-based alloy stress annealed inducing magnetic anisotropy”Science in China E. No 51. (Published on Sept 2008).

6. “A nomalous compressive behavior in CeO2 nanocubes under high pressure.”New Journal of Physics. No 10. (Published Nov 2008).

7. “Magnetic structure of rapidly quenched FeCo-based ribbon annealed under tensile stress in flowing atmosphere”,Acta Metallurgica Sinica. Vol. 47, Issue (4) (Published Mar 2011).

8. “Mesostructure investigation of the transverse magnetic anisotropy field in stress-annealed Fe-based nanocrystalline ribbons”, Acta Physica Sinica, Vol.56, Issue(7) (Published April 2007)

9. “A new type of longitudinally driven GMI effect of FeCo-based alloy”, Chinese Science Bulletin, 2008, Vol.53, Issue (3) (Published on Mar. 2008).

10. “An investigation on the mechanism of F-based nanocrystalizing alloy”,Science in China (Series E:Technological Sciences), Vol.37, Issue(9) (Published on Sept 2007)

Research Projects

1.2012-2015, The national key basic research development program (973 program) project cooperation projects—The new method and technology for characterization on the structure and properties in amorphous alloy.

2.2009-2011, National Science Foundation General Project—Study on the mechanization in a high sensitive magnetic materials responding the weak magnetic field approaching zero.

3.2009-2010, Zhejiang Province Natural Fund Project—A new giant magneto-impedance effect high sensitively in weak magnetic field approaching zero.

4.2009-2011, The national ministry of science and technology personnel service enterprise project—Improving the properties in high-abrasive Zr-based alloy and complex materials.

5.2007-2009, Key Projects of Science and Technology Plan of Zhejiang Province—The technology and device for the new soft magnetic amorphous thin wire.

6.2005-2007,Zhejiang Province Natural Fund Project—The giant magneto-impedance and new technique for preparation of Fe-Co-based amorphous thin wire.

7.2002-2005, Zhejiang Province Natural Fund Project—The properties in Fe-based nano-crystalline wire closed with glasses and coiles.

8.2004-2006, the Key project of The ministry of education of science and technology research—The miniaturization of Fe-based nano-crystalline magnetic sensor.

9.2003-2005, Zhejiang Province Science and technology plan projects —Study on the Fe-based nano-crystalline magnetic sensor.

Awards

1. “Research on the Fe-based nanocrystalline magnetic sensor” won 2006 third prize of science and technology in Zhejiang province.

2. “The foundation theories research on soft magnetic materials and giant magneto-impedance for applications” won 2013 third prize of science and technology in Shanxi province.

Reports

1.2011.5,“The preparation technology and longitudinally driven giant magneto-impedance of Fe-based amorphous alloy”, a gust speaker at the 2011 national conference on  materials in China --Deliberate the inter-metallic compounds and high-entropy alloys materials.

2. 2013.11, “The preparation technology and giant magneto-impedance of Fe-based amorphous thin ribbon”, a gust speaker at the 15th national conference on magnetism and magnetic materials in China.


Teaching and Supervision during Last 3 Years

Main Courses for undergraduate students:

Physics of Magnetism, The Experimental Method of Solid State Physics, Introduction to Materials Science.

Guided 28 undergraduate theses
Main Courses for graduate students:

The Experimental Method of Solid State Physics, The Method for Experiment Data Processing, Ferromagnetism.

Guided & Trained 9 graduate students