姚忠平 中国
暂无描述
副教授
目前就职化工与化学学院
所在学科 化学工程与技术
永久地址 http://homepage.hit.edu.cn/zhongpingyao

BASIC INFORMATION


   姚忠平,男,汉族,1971年生。

   副教授,博士。

   

NEWS

2017年7月10日-14日本课题组参加法国举办的国际会议 “Anodize it ! 2017 conference”,并在大会上宣读论文一篇,张贴三张海报。
发布时间:2017-07-24
简单介绍:

https://anodizeit2017.sciencesconf.org/

Oral: July 12, 12:10-12:30 5-41 Preparation and thermal stability of black ceramic coatings on Ti alloys by micro arc oxidation, Zhongping Yao, China

Poster :  4-42 Fabrication of environmentally friendly anti-corrosive multi-layer structure composite coatings on AZ31B Mg alloys, Zhaohua Jiang, China

7-39 The oxide coating modified with transition metals (Ni, Co, Cu) prepared by plasma electrolytic oxidation and its Fenton-like activity by degradation of phenol, Jiankang Wang, China 7-40 Preparation of TiO2 nanotube/C/MnxOy nanostructured composite for high performance electrochemical capacitive energy storage, Qixing Xia, China

祝贺本课题组2017届毕业生再获奖!
发布时间:2017-07-24
简单介绍:

研究生刘冠杰获优秀毕业生银奖

 

本科生陈昌举获校百优本科生毕业设计(论文)奖

2016.11.04-11.10 赴印尼招生
简单介绍:    
2016.10 祝贺本课题组获黑龙江省科学技术奖(自然科学类)二等奖2016
发布时间:2016-10-12
简单介绍:

 

2016.07祝贺课题组硕士研究生再获金奖
发布时间:2016-7-15
简单介绍:

本课题组硕士研究生自2014年起,连续三年获得优秀毕业生奖励。

2014年沈巧香硕士获金奖,2015年李超楠硕士获银奖,2016年贺雅琼硕士再获金奖。

希望课题组同学再接再励,取得更大的成绩!

2015.8.14-8.20 ACS250 meeting, Boston MA
发布时间:2015-08-24
简单介绍:http://www.acs.org/content/acs/en/meetings/fall-2015/diane-grob-schmidt-2015-boston-welcome.html https://ep70.eventpilotadmin.com/web/page.php?page=Home&project=ACS15fall Oral presentation COLL: Division of Colloid and Surface Chemistry 275 - Interface bonding effect between ternary sulfide solid solution and TiO2NTs composite by solvothermal synthesis PHYS: Division of Physical Chemistry 591 - SiC Porous materials derived from apple with high performance electromagnetic interference shielding Poster CHED: Division of Chemical Education 68 - Building interface chemistry curriculum content system to meet the needs of different professionals 86 - Building a classroom teaching- experiment training - project research triune teaching mode for talent cultivation  在会议后又到UIUC进行了简单的参观学习。
2015-7-24课题组近两年来钛合金、镁合金及镁锂合金热控涂层领域取得进展
发布时间:2015-7-24
简单介绍:课程组近两年来在钛合金热控涂层领域发表多篇论文, 其中最近的一篇发表面Solar Energy Materials and Solar Cells国际期刊(2014年影响因子5.3)下载链接 http://www.sciencedirect.com/science/article/pii/S0927024815003384 Zhongping Yao, Qixing Xia, Qiaoxiang Shen, Pengfei Ju, Peibo Su, Bing Hu,Zhaohua Jiang. A facile preparation of ceramic coatings on Ti alloys for thermal protection systems. Solar Energy Materials and Solar Cells. Volume 143, December 2015, Pages 236–241 Yao, Zhongping; Su, Peibo; Shen, Qiaoxiang.Preparation of thermal control coatings on Ti alloy by plasma electrolytic oxidation in K2ZrF6 solution SURFACE & COATINGS TECHNOLOGY  卷: 269   页: 273-278   出版年: MAY 15 2015 Yao, Zhongping; Hu, Bing; Shen, Qiaoxiang. Preparation of black high absorbance and high emissivity thermal control coating on Ti alloy by plasma electrolytic oxidation. SURFACE & COATINGS TECHNOLOGY  卷: 253   页: 166-170   出版年: AUG 25 2014 Yao, Zhongping; Shen, Qiaoxiang. Preparation of high emissivity and low absorbance thermal control coatings on Ti alloys by plasma electrolytic oxidation. SURFACE & COATINGS TECHNOLOGY  卷: 242   页: 146-151   出版年: MAR 15 2014
2014年10月28日,材料保护杂志第七届编委会议
发布时间:2015-01-04
简单介绍:http://bmbh.bmgc.org/view.asp?id=211 编委们达成一致共识:《材料保护》杂志的学术价值(社会效益)和商业价值(经济效益)在业界已做得最好,但要保住品牌地位,引领行业发展,为中国产学研用做出更大贡献,成就更大辉煌,一是必须在固有特色的基础上,充分发挥编委会的作用,进一步提高文稿质量,加大选题力度、广度和深度,每期有计划地发表1-2篇行业知名专家的重点稿件,增加有见地的高学术水平、高学术地位且具有首创性的文章,以增加学术影响力,进一步提高杂志的社会效益;二是继续刊发一定比例的具有实际指导意义的应用性文章,以满足厂矿企业等读者群体的需求,扩大发行量,增加来自企业的广告投入,提高经济效益,为杂志健康发展提供强有力的支撑;三是必须重视期刊的国际化,要与国际接轨,图表附英文,每期刊登1-2篇全英文论文,同时推介国外的先进技术,增加国际影响力;四是要不断创新,继续实施网络化、数字化和信息化建设,建立综合性服务平台,以提高杂志的行业竞争力,实现可持续发展。 材料保护杂志第七届编委
2014.10.7-10.17赴印尼招生宣传
发布时间:2014-11-20
简单介绍:2014.10.7-10.17赴印尼招生宣传
2014.5.24-5.26 上海8院项目结题
发布时间:2014-05-28
简单介绍:在项目完成过程中,发表的研究论文和申请专利如下: (1)、发表的学术论文清单 1) Zhongping Yao, Qiaoxiang Shen, Aoxiang Niu, Bing Hu, Zhaohua Jiang. Preparation of high emissivity and low absorbance thermal control coatings on Ti alloys by plasma electrolytic oxidation. Surface and Coatings Technology. 2014, 242: 146–151 SCI IF=1.94. 2) Zhongping Yao, Bing Hu, Qiaoxiang Shen, Aoxiang Niu, , Zhaohua Jiang, Peibo Su, Pengfei Ju. Preparation of black high absorbance and high emissivity thermal control coating on Ti alloy by plasma electrolytic oxidation. Surface and Coatings Technology. 2014, accepted by Surface and Coatings Technology. SCI IF=1.94   (2)、申请的专利清单: 1) 姚忠平,牛翱翔,沈巧香,胡冰,姜兆华。一种钛合金表面低太阳吸收率高发射率涂层的制备方法 申请号:201310111042.8 申请时间:2013.4.2 已受理。 2) 姜兆华,胡冰,姚忠平等。 一种TC4钛合金表面原位生长黄色陶瓷膜层的方法 申请号:201310216285.8 时间:2013.6.4已受理。
2014.3.16-3.20 参加美国ACS247届年会,Dallas TX US
发布时间:2014-05-28
简单介绍:大会上宣读论文两篇 ENFL Ranjit Koodali, Ah-Hyung Park  Monday, March 17, 2014  125 - Carbon nanotube modified Zn0.83Cd0.17S nanocomposite photacalytists for photocatalytic hydrogen production Zhongping Yao, yaozhongping@hit.edu.cn, Lei Wang, Zhenxing Yu, Zhaohua Jiang. Harbin Institute of Technology, China Visible light photocatalytic H2 production from water splitting using solar light has received much attention for its potential application in converting solar energy into chemical energy. In this paper, carbon nanotube modified Zn0.83Cd0.17S nanocomposite was prepared by a simple hydrothermal method. The prepared samples as novel visible-light-driven photocatalysts exhibited enhanced photocatalytic H2-production activity. CNT content had a great influence on photocatalytic activity and an optimum amount of CNT was determined to be ca. 0.25 wt%, at which the Zn0.83Cd0.17S/CNTs displayed the highest photocatalytic activity under visible light, giving an H2 production rate of 5.41 mmol h-1g-1.CNTS can efficiently suppress the growth of chalcogenide nanoparticles and serves as an electron collector and transport, causing greater progress in rapid charge separation and slow charge recombination in the electron-transfer process. Furthermore, the prepared sample was photostable and no photocorrosion was observed after photocatalytic recycling. Monday, March 17, 2014 09:40 AM Advanced Materials for Hydrogen Energy (08:00 AM - 12:20 PM) Location: Dallas Convention Center Room: A130 Monday, March 17, 2014 08:00 PM Sci-Mix (08:00 PM - 10:00 PM) Location: Dallas Convention Center Room: Hall F  COLL Ramanathan Nagarajan  Thursday, March 20, 2014  826 - Hierarchical dendritic micronano structure a-Fe coated by SiO2 nanoshell and enhanced microwave absorption performance zhenxing yu, yuzhenxing@hit.edu.cn, zhongping yao, na zhang, zhaohua jiang. harbin institute of technology, China The hierarchical dendritic micro-nano structure a-Fe@SiO2 nanocomposite materials have been synthesized by electric field-induced method and Stober process. From the results, it can be known that the SiO2 nanoshell coated on the dendritic a-Fe is uniform. At the same time, the coating thickness increases with the quantity of TEOS added. The complex relative permittivity and permeability spectra exhibit that these a-Fe@SiO2 nanocomposite materials show some regular changes of response peaks with the change of SiO2 nanoshell thickness, which are caused by the free electronic polarization, nature resonance and exchange resonance. The maximum reflection loss value reaches about -57.8 dB when 1ml TEOS is added. And the widest frequency band between 4 and 17 GHz with RL < -20 dB is obtained when 1.5ml TEOS is used. The mechanism is analyzed based on the skin effect. The insulating SiO2 nanoshell is conducive to enhance the free electronic polarization which further enhances the dielectric loss. Meanwhile the effective matching thickness of SiO2 nanoshell contributes to that more microwave enters the materials and has been dissipated. So the microwave absorption properties have been successfully tuned by controlling the thickness of the coated SiO2 nanoshell. Thursday, March 20, 2014 04:40 PM Basic Research in Colloids, Surfactants and Nanomaterials (02:00 PM - 05:00 PM) Location: Dallas Convention Center Room: D165
2013.5.3-5.13赴印尼招生宣传
发布时间:2013-05-19
简单介绍:http://studyathit.hit.edu.cn/detail.asp?id=2084 下图为5.10参加在印尼SBO电视台的访谈节目(talk show).
20.13.10.12-13参观淄博东佳集团
发布时间:2013-10-26
简单介绍:20.13.10.12-13淄博东佳集团
ACS 243rd National Meeting, San Diego, Spring, 2012 - Chemistry of life Mar 25-29
发布时间:2014-05-28
简单介绍:http://portal.acs.org/portal/acs/corg/content?_nfpb=true&_pageLabel=PP_MULTICOLUMN_T5_33&node_id=644&use_sec=false&sec_url_var=region1&__uuid=a9b8d41b-3160-4df5-b3eb-968489de4e19 今年3月25日到29日,本人与邱海龙博士在美丽的SAN DIEGO参加了美国化学会243届年会,在会宣读了研究论文一篇,下在是宣读论文相关信息: PAPER TITLE: “Facile preparation of porous TiO2/V2O5 composite film photocatalyst” (final paper number: 451),DIVISION: FUEL: Division of Fuel Chemistry, SESSION: Hydrogen Production and Application, SESSION START TIME: March 28, 2012, 8:20 am PRESENTATION FORMAT: Oral, DAY & TIME OF PRESENTATION: March 28, 2012 from 11:30 am to 11:50 am LOCATION: San Diego Convention Center , Room: Room 30E
2012年1月14日 About the STM Group in PSU
发布时间:2012-01-14
简单介绍:STM Group The Trolier-McKinstry group research primarily revolves around thin film dielectric and piezoelectric materials.  The group works both to probe the fundamental mechanisms that control the magnitude of the achievable properties and to integrate new materials into devices.   ------ http://www.mri.psu.edu/faculty/stm/about.asp   ------ http://www.mri.psu.edu/faculty/stm/directory.asp
2012年1月2日My ACS Story---ACS Weekly Newsletter for October 25, 2011
发布时间:2012-01-02
简单介绍:Recently ACS members have been invited to share their reasons for joining and maintaining their membership in the Society; this week, visiting scholar Zhongping Yao describes how information from ACS has served as the jumping-off point for lessons and discussions with students, as well as new research directions… http://paracom.paramountcommunication.com/hostedemail/email.htm?h=6777118b67e061d7e30c14a88d7c350d&CID=mcid

STUDY AND WORK EXPERIENCE

2008.06-至今
职位,职称:副教授
工作地点:哈工大化工与化学学院
2011.03-2012.04
工作地点:美国宾西法尼亚州立大学访问学者
2008.07-2013.01
工作地点:哈工大/大庆石油管理局 联合博士后
2006.08-2008.04
工作地点:哈工大材料学院博士后
2006.06-2008.05
职位,职称:讲师/副教授
工作地点:哈工大应用化学系
2002.03-2006.07
工作地点:哈工大应用化学专业 博士学位
2001.09-2004.06
工作地点:哈工大应用化学专业 硕士学位
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