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朱连杰
2014-10-21 16:12:37   审核人:   (点击: )

朱连杰简介

姓名

朱连杰

性别

出生年月

1971.02

学历学位

博士

职称

教授

系别

基础化学系

导师类型

硕导

电话

15922133508

Email

zhulj@tjut.edu.cn

办公/科研室

18号楼408/410

所属学科

081704 应用化学

研究方向

1.功能无机纳米材料
  2.
非平衡热力学
  3.
光催化
  4.
光谱学新技术应用与开发
  5.
环境监测方法、自动监测技术研究与开发

讲授课程:无机化学(本科)、高等无机化学(研究生)

受教育经历:1990/9 – 1994/6,吉林大学,化学系,本科;1998/9 – 2001/6,吉林大学,化学系,硕士;2001/9 – 2005/11,荷兰Delft University   of Technology(代尔夫特理工大学),化工系,博士;2006/1   – 2006/12,丹麦University   of Copenhagen(哥本哈根大学),化学所,博士后

主要科研项目及代表性成果(包括鉴定项目、论文、专著、获奖、专利等)

 

项目:                                                                                                                                                                                                                                                     

1)国家自然基金(面上),主持完成,牺牲模板法制备硒化铜空心结构反应体系的非平衡热力学研究,项目批准号:2137113275万元,2014.1-2017.12

2)天津市自然基金(面上),主持完成,功能材料DHA衍生物的制备与光物理化学性研究,项目批准号:07JCYBJC186008 万元,2007.10-2010.4

3)留学回国基金,主持完成,项目批准号:教外司留[2008890 号, 3 万元,2008.10-2011.10

4)国家自然基金(面上),第二申请人(主要完成人),完成,光开关材料DHA 敏化TiO2 可见光催化,项目批准号:2087109130 万元,2009.1-2011.12

5)南开大学先进能源材料化学重点实验室开放基金:主持完成,TiO2微纳米复合结构的制备及其光催化分解水制氢活性,项目批准号:KLAEMD-OP2012012 万元,2012.1-12

                                                                                                                                                                                                                                                                     

主要期刊论文:

(1)Wenwen Wang,   Lianjie Zhu*, Pengzhao Lv, Guokai Liu, Yanmiao Yu, and Jianfa Li*, Novel   Candy-like Cu4O3 Microstructure: Facile Wet Chemical Synthesis, Formation   Mechanism, and Good Long-Term Antibacterial Activities, ACS Appl. Mater.   Interfaces 10 (2018) 3728737297. (一区,Sci. IF: 8.45)

(2)Ningning Ba,   Lianjie Zhu*, Guangzhi Zhang, Jianfa Li, Hongji Li*, Facile synthesis of 3D   CuO nanowire bundle and its excellent gassensing and electrochemical sensing   properties, Sensor Actuat. B, 227 (2016) 142–148. (一区,Sci. IF: 6.39)
  (3)M. A. Petersen, Lianjie Zhu, S.H Jensen, A. S. Andersson, A. Kadziola, K.   Kilså,* and M. B. Nielsen*, Photoswitches containing the dithiafulvene   electron donor, Adv.Funct. Mater., 17 (2007) 797–804. (
一区,Sci. IF: 15.62)
  (4)Wenjun Zheng*, Xiaodi Liu, Zhiying Yan, and Lianjie Zhu, Ionic   Liquid-Assisted Synthesis of Large-Scale TiO2 Nanoparticles with Controllable   Phase by Hydrolysis of TiCl4, ACS Nano, 3 (2009) 115–122. (
一区,Sci. IF: 13.90)
  (5)Huili Zhang, Jiaqin Yang, Di Li, Wei Guo, Qing Qin, Lianjie Zhu* and   Wenjun Zheng*, Template-free facile preparation of monoclinic WO3 nanoplates   and their high photocatalytic activities, Appl. Surf. Sci., 305 (2014)   274–280. (Sci. IF: 5.15
,二区)
  (6)Sifeng Chen, Huiqun Wang, Lianjie Zhu*, Jianfa Li, Jingfeng Sun,   Solvothermal Synthesis of TiO2 Hollow Nanospheres Utilizing the Kirkendall   Effect and Their Photocatalytic Activities, Appl. Surf. Sci., 321 (2014)   86–93. (Sci. IF: 5.15,
二区)
  (7)Yanxing Zhao, Lianjie Zhu*, Yanmiao Yu, Fubo Gao, Wenwen Wang, Deyou Chen,   Xiaowei Zhao, Facile one-pot preparation of Ti3+, N co-doping TiO2 nanotube   arrays and enhanced photodegradation activities by tuning tube lengths and   diameters, Catal. Today, 2019, doi.org/10.1016/j.cattod.2019.06.051. (Sci.   IF: 4.88
,二区)
  (8)Lianjie Zhu*, Hanjie Xie, Yanxia Liu, Deyou Chen, Mingyang Bian, Wenjun Zheng,   Novel ultralong hollow hyperbranched Cu2-xSe with nanosheets hierarchical   structure: Preparation, formation mechanism and properties, J. Alloy Compd.   802 (2019) 430–436. (Sci. IF: 4.17
,二区)
  (9)Yunmeng Zhang, Xiaowei Zhao, Yangyang Li, Xian Wang, Qiusheng Wang,   Hongguang Lu*, Lianjie Zhu*, A fluorescent photosensitizer with far   red/near-infrared aggregation induced emission for imaging and photodynamic   killing of bacteria, Dyes Pigment. 165 (2019) 53–57. (Sci. IF: 4.018
,二区)
  (10)Wenwen Wang, Lianjie Zhu*, Pengzhao Lv, Jianfa Li, Xiaowei Zhao*
Facile synthesis   of Cu3Se2/Cu2Se/Cu2O hollow microspheres by sacrificial template method at   room temperature and excellent photodegradation activity, Mater. Res. Bull.   110 (2019) 190–197. (Sci. IF: 3.35)
  (11)TongIl Kim, HakSung Yun, GwangBok Han, Lian Jiabiao, Jianmin Ma,   Xiaochuan Duan, Lianjie Zhu*, Wenjun Zheng*, Preparation of mesoporous   ZnAl2O4 nanoflakes by ion exchange from a Na-dawsonite parent material in the   presence of an ionic liquid, RSC Adv. 9 (2019) 11894–11900. (Sci. IF:3.0)
  (12)Fubo Gao, Lianjie Zhu*, Hongji Li, Hanjie Xie
Hierarchical   flower-like CuO film: One-step room temperature synthesis, formation   mechanism and excellent optoelectronic Properties, Mater. Res. Bull. 93   (2017) 342–351. (Sci. IF: 3.35)
  (13)Yan Wang, Lianjie Zhu*, Ningning Ba, Fubo Gao, Hanjie Xie, Effects of   NH4F quantity on N-doping level, photodegradation and photocatalytic H2   production activities of N-doped TiO2 nanotube array films, Mater. Res. Bull.   86 (2017) 268–276. (Sci. IF: 3.35)
  (14)Lianjie Zhu*, Fubo Gao, Pengzhao Lv, Yan Zeng, Wenwen Wang, Wenjun Zheng,   Facile synthesis of 3D flower-like Cu2-xSe nanostructures via sacrificing   template method and the excellent antibacterial activities, CrystEngComm 19   (2017) 7253–7258. (Sci. IF: 3.38).
  (15)Lianjie Zhu,* Yanxing Zhao, Wenjun Zheng*, Ningning Ba, Guangzhi Zhang,   Jing Zhang, Xiaoting Li, Hanjie Xie and Lijian Bie*, One-step room   temperature rapid synthesis of Cu2Se nanostructures, phase transformation and   formation of p-Cu2Se/p-Cu3Se2 heterojunctions, CrystEngCommun, 18 (2016)   5202–5208. (Sci. IF: 3.38)
  (16)Fubo Gao, Lianjie Zhu*, Yan Wang, Hanjie Xie, Jianfa Li
Room temperature   facile synthesis of Cu2Se hexagonal nanoplates array film and its high   photodegradation activity to methyl blue with the assistance of H2O2, Mater.   Lett. 183 (2016) 425-428. (Sci. IF: 3.0)
  (17)YanxingZhao, LianjieZhu*, YingJiang, HanjieXie, GuangzhiZhang,   NingningBa, Microphone shaped Cu2Se micro/nanoarchitecture: Preparation,   formation mechanism and optical property, Mater. Lett. 147 (2015) 82–84.   (Sci. IF: 3.0)
  (18)Huili Zhang, Zhifang Liu, Jiaqin Yang, Wei Guo, Lianjie Zhu* and Wenjun   Zheng*, Temperature and acidity effects on WO3 nanostructures and gas-sensing   properties of WO3 nanoplates, Mater. Res. Bull., 57 (2014) 260–267. (Sci. IF:   3.35)
  (19)Chunyan Ma, Lianjie Zhu*, Sifeng Chen, Yanxing Zhao, Simple and rapid   preparation of CuO nanowires and their optical properties, Mater. Lett. 108   (2013) 114–117. (Sci. IF: 3.0)
  (20)Mo Qiu, Lianjie Zhu*, Tongtong Zhang, Hongbin Li, Youguang Sun, Kun Liu,   Ultrasound assisted quick synthesis of square-brick-like porous CuO and   optical properties, Mater. Res. Bull. 47 (2012) 2437–2441. (Sci. IF: 3.35)
  (21)Lianjie Zhu*, Yuntao Chen, Yiteng Zheng, Naixuan Li, Jiande Zhao,   Youguang Sun, Ultrasound Assisted Template-Free Synthesis of Cu(OH)2 and   Hierarchical CuO Nanowires from Cu7Cl4(OH)10.H2O, Mater. Lett. 64 (2010)   976–979. (Sci. IF: 3.0)
  (22)Lianjie Zhu*, Yiteng Zheng, Tianyuan Hao, Xinxin Shi, Yuntao Chen, Jie   Ou-Yang, Synthesis of hierarchical ZnO nanobelts via Zn(OH)F intermediate   using ionic liquid-assistant microwave irradiation method. Mater. Lett. 63   (2009) 2405–2408. (Sci. IF: 3.0)
  (23)Lianjie Zhu*, Gert Frens, Indications for a surface temperature excess in   heterogeneous catalysis, J. Phys. Chem. B, 110 (2006), 18307–18312. (Sci. IF:   3.6)
  (24)Ze Zhang, Xiaowei Zhao*, Xiaojun Jv, Hongguang Lu, Lianjie Zhu*. A   Simplified Method for Synthesis of L-Tyrosine Modified Magnetite   Nanoparticles and its Application for the Removal of Methylene Blue and   Methyl Orange from Aqueous Solution. J. Chem. Eng. Data. 62 (2017) 4279–4287.   (Sci. IF: 2.3)
  (25)Lianjie Zhu, Ger J.M. Koper*, Dick Bedeaux, Heats of transfer in the   diffusion boundary layer before the surface and the surface temperature for a   catalytic hydrogen oxidation reaction H2+1/2O2®H2O, J. Phys. Chem. A, 110   (2006) 4080–4088. (Sci. IF: 2.6)
  (26)Lianjie Zhu, Hans-Christian Becker, Lars Henriksena, Kristine Kilsa*, A   class of fluorescent heterocyclic dyes revisited: Photophysics, structure,   and solvent effects, Spectrochimica Acta part A 73 (2009) 757–763. (Sci.   IF:2.1)
  (27)Kun Liu, Lianjie Zhu*, Tengfei Jiang, Youguang Sun, Hongbin Li, Dejun   Wang, Mesoporous TiO2 Micro-Nanometer Composite Structure: Synthesis, Optoelectric   Properties, and Photocatalytic Selectivity, Int. J. Photoenergy, 2012,   Article ID 849062, 9 pages, 2012. (Sci. IF:2.0)
  (28)Hongbin Li, Lianjie Zhu*, Chunyan Ma and Huili Zhang, TiO2 hollow   microspheres: synthesis, photocatalytic activity, and selectivity for a   mixture of organic dyes, Monatsh. Chem., 145 (2014) 29–37.
Sci. IF: 1.5
  (29)Hanjie Xie, Lianjie Zhu*, Wenjun Zheng, Jing Zhang, Fubo Gao, Yan Wang,   Microwave- assisted template-free synthesis of butterfly-like CuO through   Cu2Cl(OH)3 precursor and the electrochemical sensing property, Solid State   Sci. 61 (2016) 146–154. (Sci. IF: 2.15)
  (30)Lianjie Zhu*, Kun Liu, Hongbin Li, Youguang Sun, Mo Qiu, Solvothermal   Synthesis of Mesoporous TiO2 Microspheres and Their Excellent Photocatalytic   Performance under Simulated Sunlight Irradiation, Solid State Sci. 20 (2013)   8–14. (Sci. IF: 2.15)
  (31)Ningning Ba, Lianjie Zhu*, Hongbin Li, Guangzhi Zhang, Jianfa Li,   Jingfeng Sun, 3D rod-like copper oxide with nanowire hierarchical structure:   Ultrasound assisted synthesis from Cu2(OH)3NO3 precursor, optical properties   and formation mechanism, Solid State Sci., 53 (2016) 23–29. (Sci. IF: 2.15)
  (32)Kun Liu, Lianjie Zhu*, Naixuan Li, Youguang Sun, Hongbin Li, and Xuchen   Zhu, Solvothermal synthesis of mesoporous slabstone-like TiO2 and its   photodegradation preference in a methyl orange-rhodamine B mixture solution,   Cryst. Res. Technol. 47 (2012) 1088–1094. (Sci. IF:1.1)
  (33)Lianjie Zhu*, Yuntao Chen, Youguang Sun, Yan Cui, Mao Liang, Jiande Zhao,   Naixuan Li Phase-manipulable synthesis of Cu-based nanomaterials using the   ionic liquid 1-butyl-3-methyl-imidazole tetrafluoroborate, Cryst. Res.   Technol. 45 (2010) 398–404. (Sci. IF:1.1)
  (34)Lianjie Zhu*, Hui Miao, Kun Liu, Youguang Sun, Mo Qiu and Xuchen Zhu,   Microwave and conventional hydrothermal synthesis of TiO2 nanoparticles and   their photocatalytic activities, Advanced Materials Research,Vols. 391-392   (2012) 988–992. (EI)
  (35)Yan Wang, Lianjie Zhu*, Fubo Gao, Hanjie Xie, Preparation,   Characterization and Photocatalytic Activities of TiO2-SrTiO3 composites, 1st   International Conference on New Material and Chemical Industry (NMCI2016),   IOP Conf. Series: Materials Science and Engineering 167 (2017) 012038,   doi:10.1088/1757-899X/167/1/012038. (EI)
  (36)Guangzhi Zhang, Lianjie Zhu* and Ningning Ba, Hydrothermal synthesis of   hexagonal Cu2-xSe microplates and optical properties, Proceedings of the 2015   International Conference on Materials Engineering and Environmental Science,   158–164.
  (37)Ningning Ba, Lianjie Zhu* and Guangzhi Zhang, Shape-controllable and   template-free synthesis of Cu2Se nanowires using a Se2- solution prepared by   microwave-assisted method, Proceedings of the 2015 International Conference   on Materials Engineering and Environmental Science,165–172.

(38)Kezhen Qi,   Di Li, Jiaqi Fu, Lianjie Zhu, Xiaochuan Duan, Qing Qin, Guichang Wang and   Wenjun Zheng, Elucidating Ionic Liquid Environments That Affect the   Morphology of TiO2 Nanocrystals: A DFT+D Study, J. Phys. Chem. C, 118 (2014)   2332023327.(   Sci. IF:4.8)

(39)Dick   Bedeaux, Signe Kjelstrup, Lianjie Zhu, Ger J.M. Koper, Nonequilibrium   thermodynamics—A tool to discribe heterogeneous catalysis, Phys. Chem. Chem.   Phys., 8 (2006) 5421–5427. (Sci. IF: 4.2)
  (40)Kezhen Qi, Jiaqin Yang, Jiaqi Fu, Guichang Wang, Lianjie Zhu, Guang Liu,   Wenjun Zheng*, Morphology controllable ZnO rings: Ionic liquid-assisted   hydrothermal synthesis, growth mechanism and photoluminescence properties,   CrystEngComm, 15 (2013) 6729–6735.  (Sci. IF:3.3)
  (41)Tengfeng Xie, Dejun Wang*, Lianjie Zhu, Ce Wang, Tiejin Li, et. al,   Application of Surface Photovoltage Technique to the Determination of   Conduction Types of Azo Pigment Films, J. Phys. Chem. B, 104 (2000)   8177–8181.
Sci.   IF:3.6
  (42)Tengfeng Xie, Dejun Wang *, Lianjie Zhu, Tiejin Li, Application of   Surface Photovoltage Technique in Photocatalysis Studies on Modified TiO2   Photo-catalysts for Photo-reduction of CO2, Mater. Chem. Phys., 70 (2001)   103–106.
Sci.   IF:2.1
  (43)Tengfeng Xie, Dejun Wang*, Yahong Zhang, Jinjie Xu, Lianjie Zhu, Tiejin Li,   The effect of electric field and doping on photovoltaic properties of   a-bromine-terthiophene thin film, Thin Solid Films, 394 (2001) 207–212. (Sci.   IF:1.3

  (44)
朱连杰,王德军*,谢腾峰,尚静等,TiO2纳米粒子的光催化活性与光伏响应特性研究,高等学校化学学报,225), 827-8292001。(Sci. IF:0.79
  (45)
朱连杰,徐跃华,冯守华*SrTi1-xSnxO3的水热合成与结构研究,高等学校化学学报,1712),1824-18271996(Sci. IF:0.79)
 
 

 学术会议:

(1) Yan Wang,   Lianjie Zhu*, et al.Preparation,   characterization and photocatalytic activities of TiO2-SrTiO3 composites,   International Conference on New Material and Chemical Industry, Nov. 19-21,   2016, Sanya, China. (会场主持人之一)
  (2) Lianjie Zhu*, Fubo Gao, Morphology Controllable Synthesis of Copper   Selenide Nanostructures and optical properties, 6th Annual World Congress of   Advanced Materials, Jun. 14-16, 2017, Xian, China. (
分会报告)
  (3)
朱连杰,球形TiO2纳米结构可控合成及其光催化降解染料活性,第十四届全国太阳能光化学与光催化学术会议,20147月,哈尔滨。(邀请报告)
  (4)
高付博,朱连杰*等,牺牲模板法制备3D花状硒化铜纳米结构及其光催化活性,第十五届全国应用化学年会,2017421-23日,天津。(墙报)
  (5) Lianjie Zhu
微波辅助合成蝴蝶状氧化铜及其电化学传感性,第十三届固态化学与无机合成学术会议,20148月,长春。(分会报告)
  (6) Lianjie Zhu*, Chunyan Ma, Haiyan Wang, Hongbin Li and Huili Zhang,   ‘Morphology-controllable quick synthesis of CuO nanostructures and their   properties’, The 2nd International Congress on Advanced Materials, 16-19 May   2013, Zhenjiang, China, Invited lecture.
(邀请报告)
  (7) Lianjie Zhu*, Hui Miao, Kun Liu, Youguang Sun, ‘Microwave assistant   synthesis of TiO2 nanoparticles: photoelectric properties and photocatalytic   activities’, XXV International Conference on Photochemistry, Beijing,   2011.08.7-12, poster.
(墙报)
 
 

专著:
 
(1)   Lianjie Zhu, "Surface temperature excessin heterogeneous   catalysis", Ph.D thesis, Delft University of Technology,ISBN:   9090200878, the Netherlands, 2005.
 
 
申请发明专利:
 
(1)朱连杰*,仇茉,马春燕,李宏斌,刘坤,孙有光,一种氧化铜微纳米复合结构材料及制备方法,中国,2011.12,申请号:201110428019.2
  (2)
朱连杰*, 吕鹏召, 一种铜纳米粒子的水热制备方法, 中国发明专利,2018.12,申请号:201811502018.6
  (3)
朱连杰*,于燕淼,一种利用碱式草酸铜光降解亚甲基蓝的方法,中国发明专利,2019.09,申请号:101910868087.7
 
 
授权实用新型专利:
 
1)朱连杰;翟玮娴;高付博,一种水质取样装置,ZL201721428881.2
 
2)朱连杰;白兆民等,一种比色瓶放置架,ZL201721420765.6
 
3)朱连杰;高付博等,一种液体检测用实验台,ZL201721431343.9
 
4)朱连杰等,一种检测振荡设备,ZL201721429608.1
 
5)朱连杰等,一种试剂混合设备,ZL201721428882.7
 
6)朱连杰等,一种多种样品储放箱,ZL201721416287.1
 
7)朱连杰等,一种瓶装试剂液注射装置,ZL201721431491.0
 
8)朱连杰等,一种COD测试仪存放盒,ZL201721416249.6
 
9)朱连杰等,一种用于消解注入吸取的注射装置,ZL201720051425.4
 
10)朱连杰等,一种简易水样消解装置,ZL201720051834.4
 
11)朱连杰等,一种多级液体干燥装置,ZL201720051134.5
 
12)朱连杰等,一种振荡型吸附装置,ZL201720051825.5
 
13)朱连杰等,一种红外测油仪光源增强装置,ZL201720051447.0
 
14)朱连杰等,一种萃取仪自动清洗装置,ZL201720051143.4
 
15)朱连杰等,一种全自动萃取装置,ZL201720051132.6(实用新型)
                                                                                                                                                                                                                                                                        

获奖:                                                                                                                                                                                                                                                    

1)所指导的学生在第十四届挑战杯天津市大学生课外学术科技作品竞赛中荣获 一等奖,本人获得优秀指导教师;

2)所指导的学生在第四届天津市大学生化学竞赛”-综合技能团队赛中荣获团队 一等奖,本人获得优秀指导教师;

3)所指导的学生在天津理工大学第十五届明理杯学生课外学术作品竞赛中荣获 特等奖,本人获得优秀指导教师;

42008年在天津市青年教师教学基本功竞赛中荣获校级一等奖,市级优秀奖;

5)多次获得本科毕业论文优秀指导教师;

620172018年获得学院的优秀主讲教师

 

 

总访问量:

天津理工大学主頁|亚博vip888网页全站登录_歡迎您  地址:天津市西青区宾水西道391号天津理工大学19号教学楼
电话:022-60214259  邮箱:ysh@tjut.edu.cn  邮编:300384