余新泉
发布时间:2012-12-11   浏览次数:13557
 基 本 信 息

姓名:余新泉

性别:

党派:中共党员

职称:教授、博导

联系方式:Tel18905166632Emailx.q.yu@163.com


研究方向:

1. 高性能金属材料

2. 金属表面的微纳结构构造和仿生性能

 个 人 简 介

余新泉博士,教授,博士生导师;江苏省青蓝工程优秀青年骨干教师。先后主持或参加完成了国家“863”项目2项,国家自然基金3项,国家科技支撑计划和国家科技重大专项项目3项,省部级项目15项。目前主持或参加国家和省部级及企业委托项目8项。近年来科研成果分别获江苏省科技进步二等奖1项、三等奖2项,中国机械工业科技进步二等奖1项;已申报国家发明专利50余件,获授权发明专利20余件,在《Mater. Sci. and Eng.》,《Chem Comm.》等国内外学术刋物上发表论文80余篇。近年主要发表的学术论文如下:

  

论文名称

发表刊物名称

年、卷、期号、起止页码

级别及检索情况

Durability   evaluation of superhydrophobic copper foams for long-term oil-water   separation

Applied Surface   Science

2017,407, 145-155

SCI

(IF3.387)

Sprayable   superhydrophobic nano-chains coating with continuous self-jumping of dew and   melting frost

Scientific   Reports

2017,7, 40300

SCI

(IF4.259)

Condensed   dewdrops self-ejecting on sprayable superhydrophobic CNT/SiO2   composite coating

RSC Advances

2017,7, 27574

SCI

(IF3.108)

Corrosion-Resistant   Superhydrophobic Coatings on Mg Alloy Surfaces Inspired by Lotus Seedpod

Advanced   Functional Materials

2017,27, 1605446

SCI

(IF12.124)

Frosting Behavior   of Superhydrophobic Nanoarrays under Ultralow Temperature

Langmuir

2017,33, 88918898

SCI

(IF3.833)

Fabrication of   non-modified metallic superhydrophobic surfaces with temperature   insensitivity and self-healing ability

Applied Physics   Letters

2016,109, 043702

SCI

(IF3.411)

Stearic acid modified   aluminum surfaces with controlled wetting properties and corrosion resistance

Corrosion   Science

2014,83, 86-93

SCI

(IF5.245)

Low-Temperature   Solution Growth of ZnO Nanocone/Highly Oriented Nanorod Arrays on Copper

The Journal of Physical Chemistry B

2014,118, 1200212007

SCI

(IF3.177)

Direct solution   phase fabrication of ZnO nanostructure arrays on copper at near room   temperature

CrystEngComm

2014,16,   5394-5401

SCI

(IF3.474)

Solution growth   of ZnO nanostructure arrays on FTO substrates at nearroomtemperature

Materials   Letters

2014,131, 178-181

SCI

(IF2.572)

Porous copper   surfaces with improved superhydrophobicity under oil and their application in   oil separation and capture from water

Chemical   Communicatons

2013,49, 8410

SCI

(IF6.319)

Fabrication of   stable superhydrophobic surface with improved anticorrosion property on   magnesium alloy

Scripta   Materialia

2013,69, 614-617

SCI

(IF3.747)

  

科研方向:1)高性能金属材料;和相关行业龙头企业合作,主要开展应用于核电、风电、大型数控机床、高速铁路、煤制油(汽)等重大装备和工程领域中的高性能金属材料及其产品的研发。(2)金属表面的微纳结构构造和仿生性能;着重开展工程领域中最为常用的金属材料钢、铝、铜、镁等表面微纳结构构造技术和机理研究,获得具有超疏水、自洁净、抗凝露、抗结霜(冰)、耐腐蚀等特性的金属表面,可广泛应用于工程领域的不同场合。

欢迎有兴趣从事上述研究方向的学生报考硕士和博士研究生。联系方式:Tel18905166632Emailx.q.yu@163.com