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楼主: NKU

南开2019年代表性论文ADV SCI [复制链接]

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发表于 2019-6-13 15:11:09 来自手机 |显示全部楼层
本帖最后由 166两南 于 2019-6-13 16:18 编辑

陈永胜论文冲刺

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发表于 2019-6-13 15:27:52 来自手机 |显示全部楼层
南开的高水平论文数可以插入中华武啊!真给力,这体量!赞一个!

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发表于 2019-6-13 15:28:01 来自手机 |显示全部楼层
翻页,占楼。。

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发表于 2019-6-13 16:01:17 来自手机 |显示全部楼层
假面 发表于 2019-6-13 15:28
翻页,占楼。。

可不比中华武差  因为南开标准更严格 什么并列一作都没统计

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发表于 2019-6-13 16:01:27 来自手机 |显示全部楼层
可不比中华武差  因为南开标准更严格 什么并列一作都没统计

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发表于 2019-6-13 18:03:44 |显示全部楼层
166两南 发表于 2019-6-13 15:11
陈永胜论文冲刺

科学院推荐的院士候选人基本上是打酱油的。

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发表于 2019-6-13 18:35:48 来自手机 |显示全部楼层
本帖最后由 NKU 于 2019-6-13 19:14 编辑

科研的主力是博士和博后,南开的博士生规模太小了,985倒数第三吧?别老是被本科规模瞎忽悠小而精。另外这只是高IF论文,不叫高水平论文。
即使和其他没有合并的高校比,南开也偏小,南开体量是南大一半多一点。不要问我为什么选科南,因为他们理工医与南开一样没有合并过,但就是这么多人。


南京大学
博士研究生6036人(数据截止日期:2017年12月)
https://www.nju.edu.cn/3642/list.htm


中国科学技术大学
博士研究生人数 5676 (2018年9月研究生在校情况)
http://xxgk.ustc.edu.cn/2017/1012/c13947a204936/page.htm


南开大学
博士研究生3383(数据截至2018年5月底)
http://www.nankai.edu.cn/162/list.htm

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发表于 2019-6-13 22:04:14 |显示全部楼层
NKU 发表于 2019-6-13 18:35
科研的主力是博士和博后,南开的博士生规模太小了,985倒数第三吧?别老是被本科规模瞎忽悠小而精。另外这 ...

南开博士三年制的。。。
而且博士数量关乎到博导人数,学科数量,博士点等。招多少博士都是有规定的。

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发表于 2019-6-13 22:05:12 |显示全部楼层
本帖最后由 NKU 于 2019-6-19 21:13 编辑

化学学院新能源材料化学研究所焦丽芳教授Nano Energy,通讯作者:焦丽芳
Nano Energy, DOI:10.1016/j.nanoen.2019.06.017, A vailable online 12 June 2019.
https://www.sciencedirect.com/science/article/pii/S221128551930521X

Promoted synergy in core-branch CoP@NiFe–OH nanohybrids for efficient electrochemical-/ photovoltage-driven overall water splitting

Dedicated to the 100th anniversary of Nankai University

Yang Li, Siwei Guo, Ting Jin, Yiling Wang, Fangyi Cheng, Lifang Jiao

Key Laboratory of Advanced Energy Materials Chemistry (Ministry of Education), Renewable Energy Conversion and Storage Center (ReCast), College of Chemistry, Nankai University, Tianjin, 300071, China


jiaolf nankai.edu.cn

Abstract

Developing low-cost, high-performance electrocatalysts to efficiently convert intermittent solar energy into hydrogen via water splitting is the key to realize sustainable energy cycle but remain challenges. Herein, the three dimensional core-branch CoP@NiFe–OH hybrid supported on surface-phosphatized Ni foam (CoP@NiFe–OH/SPNF) are facilely fabricated as the high-performance bifunctional electrocatalysts for alkaline water electrolysis. Theoretical calculation and electrochemical tests manifest that hybridizing CoP with NiFe–OH engenders strong synergistic catalytic effects, leading to fast hydrogen and oxygen evolution reaction kinetics. Meanwhile, hierarchical core-branch arrays and self-supported architecture also result in CoP@NiFe–OH/SPNF with multiple exposing active sites, faster ions, electron transport beha vior and superior lifespan. Owing to these typical merits, the bifunctional CoP@NiFe–OH/SPNF electrode expedites overall water splitting with affording a current density of 10, 50 and 100 mA cm−2 only at 1.53, 1.63 and 1.68 V respectively, surpassing the performance of noble (+)IrO2/C//Pt/C(−) and most bifunctional electrocatalysts. As a practical application, a portable solar energy-driven water electrolyzer equipped with the bifunctional CoP@NiFe–OH/SPNF electrode can produce hydrogen at room temperature with a high gas evolution rate of 20.83 μL s−1.



Graphical abstractUnique core-branch CoP@NiFe–OH nanohybrids supported on surface-phosphatized Ni foam has been successfully fabricated. Theoretical calculations and electrochemical test demonstrate that the strong synergistic effects between CoP and NiFe–OH lead to remarkable catalyzing hydrogen evolution and oxygen evolution activities.



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发表于 2019-6-14 17:32:25 来自手机 |显示全部楼层
本帖最后由 NKU 于 2019-6-14 23:20 编辑

化学学院高分子化学研究所张望清研究员Angew. Chem. Int. Ed.,通讯作者:张望清、Zhongqiang Han(东方雨虹)
Angew. Chem. Int. Ed.,DOI:10.1002/anie.201904991,First published: 12 June 2019

https://www.onlinelibrary.wiley.com/doi/10.1002/anie.201904991

Switchable Reversible Addition–Fragmentation Chain Transfer (RAFT) Polymerization with the Help of Azobenzenes
Huijun Nie+, Shenzhen Li+, Sijia Qian, Zhongqiang Han*, and Wangqing Zhang*

H. Nie,[+] S. Li,[+] S. Qian, Prof. W. Zhang
Key Laboratory of Functional Polymer Materials of the Ministry of Education. Institute of Polymer Chemistry, College of Chemistry, Nankai University 300071 Tianjin (China).
E-mail: wqzhang nankai.edu.cn.
Dr. Z. Han
State Key Laboratory of Special Functional Waterproof Materials Beijing Oriental Yuhong Waterproof Technology Co., Ltd. 100123 Beijing (China).
E-mail: E-mail: hanzq yuhong.com.cn.
Prof. W. Zhang
Collaborative Innovation Center of Chemical Science and Engineering (Tianjin), Nankai University,300071 Tianjin (China)
[+] These authors contributed equally to this work.

Abstract:
Modulating controlled radical polymerization is an interesting and important issue. Herein, modulating RAFT polymerization employing photosensitive azobenzenes is achieved. In the presence of azobenzenes and with visible light off, RAFT polymerization runs smoothly and follows a pseudo-first-order kinetics; whereas with light on, RAFT polymerization is greatly
decelerated or quenched dependent on the type and concentration of azobenzenes. Switchable RAFT polymerization of different (meth)acrylate monomers alternatively with light off and on is demonstrated. A mechanism of photo-regulating RAFT
polymerization involving radical quenching by azobenzenes is proposed.

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发表于 2019-6-14 17:40:09 来自手机 |显示全部楼层
看什么时候能来篇大刊

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发表于 2019-6-14 22:55:18 |显示全部楼层
化学学院高分子化学研究所陈永胜课题组Advanced Materials,通讯作者:刘永胜,陈永胜
Advanced Materials Early View First published: 13 June 2019 10.1002/adma.201901242
https://onlinelibrary.wiley.com/doi/10.1002/adma.201901242

Highly Efficient and Stable Solar Cells Based on Crystalline Oriented 2D/3D Hybrid Perovskite
Tong Zhou, Hongtao Lai, Tingting Liu, Di Lu, Xiangjian Wan, Xiaodan Zhang, Yongsheng Liu,* and Yongsheng Chen*
Dedicated to 100th anniversary of Nankai University
T. Zhou, H. Lai, T. Liu, D. Lu, Prof. X. Wan, Prof. Y. Liu, Prof. Y. Chen
The Centre of Nanoscale Science and Technology and Key Laboratory of Functional Polymer Materials, Institute of Polymer Chemistry, College of Chemistry, Nankai University, Tianjin 300071, China
E-mail: liuys@nankai.edu.cn; yschen99@nankai.edu.cn
Prof. X. Zhang
Institute of Photoelectronic Thin Film Devices and Technology, Nankai University, Tianjin 300071, China
Prof. X. Wan, Prof. X. Zhang, Prof. Y. Liu, Prof. Y. Chen
Renewable Energy Conversion and Storage Center, Nankai University, Tianjin 300071, China

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发表于 2019-6-15 07:44:20 |显示全部楼层
物理学院李勇男教授共同通讯作者Science Advances,该论文的第一作者+通讯作者单位为南京大学
Science Advances  14 Jun 2019, Vol. 5, no. 6, eaat9206, DOI: 10.1126/sciadv.aat9206
https://advances.sciencemag.org/content/5/6/eaat9206


Manipulation of eight-dimensional Bell-like states

Ling-Jun Kong1,2, Rui Liu3, Wen-Rong Qi3, Zhou-Xiang Wang3, Shuang-Yin Huang3, Qiang Wang3, Chenghou Tu3, Yongnan Li3,* and Hui-Tian Wang1,2,*
1 National Laboratory of Solid State Microstructures and School of Physics, Nanjing University, Nanjing 210093, China.
2 Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China.
3 Key Laboratory of Weak-Light Nonlinear Photonics and School of Physics, Nankai University, Tianjin 300071, China.
↵*Corresponding author. Email: liyongnan nankai.edu.cn (Y.L.); htwang nju.edu.cn (H.-T.W.)

Abstract

High-dimensional Bell-like states are necessary for increasing the channel capacity of the quantum protocol. However, their preparation and measurement are still huge challenges, especially for the latter. Here, we prepare an initial eight-dimensional Bell-like state based on hyperentanglement of spin and orbital angular momentum (OAM) of the first and the third orders. We design simple unitary operations to produce eight Bell-like states, which can be distinguished completely in theory among each other. We propose and illustrate a multiple projective measurement scheme composed of only linear optical elements and experimentally demonstrate that all the eight hyperentangled Bell-like states can be completely distinguished by our scheme. Our idea of manipulating the eight Bell-like states is beneficial to achieve the 3-bit channel capacity of quantum protocol, opening the door for extending applications of OAM states in future quantum information technology.

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发表于 2019-6-15 08:22:57 |显示全部楼层
本帖最后由 NKU 于 2019-6-15 09:50 编辑

曹雪涛校长能不能显著提高南开的影响力不好说,但是每篇文章都会带上Nankai University,二军医、协和、南开一个不会少,至少在ESI上能够给南开做一些贡献,加快免疫学进入ESI前1%。

南开现在拥有了历史上最好的条件,应该是会发展得更好的。现在学校有了一流的建筑设施(原985高校中最新建设的校园),后面要做的就是引一些一流的人,一流的设备,自然而然就会有好的产出,进入世界一流大学。同时改革对本科生和研究生的培养,在就业、升学、科研等方面给予更多的引导和实践,形成更好的氛围。改革博士后工作制和教师聘用形式,弥补量小的不足,加快世界一流大学建设。

另一方面,南开现在整体的量还不行,这些数量指标引申的排行榜已经严重影响到学校的声誉,应该重视一下(2017年度,南开大学SCI收录论文1467篇,全国高校排名第52位http://www.nankai.edu.cn/162/list.htm)。比如简介里这些无关紧要的话能不能删除了?对于南开这一层级的高校而言,基本有多少人就出多少论文,多少基金。没什么人ESI、SCI想前十,做梦吧。

距离南开百年校庆还有123天,百年之后,南开会更好。






https://www.pnas.org/content/early/2019/06/11/1903896116/

Author Information

Tianliang Lia, Kewei Qina, Nan Lia, Chaofeng Hana,1, and Xuetao Caoa,b,c,1
a National Key Laboratory of Medical Immunology, Institute of Immunology, Second Military Medical University, 200433 Shanghai, China;
b Department of Immunology, Center for Immunotherapy, Institute of Basic Medical Sciences, Peking Union Medical College, Chinese Academy of Medical Sciences, Beijing 100005, China;
c College of Life Sciences, Nankai University, 300071 Tianjin, China


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发表于 2019-6-15 09:38:48 |显示全部楼层
提示: 作者被禁止或删除 内容自动屏蔽

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发表于 2019-6-15 10:11:21 来自手机 |显示全部楼层
曹校什么时候有自己的实验室啊

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发表于 2019-6-15 13:12:15 来自手机 |显示全部楼层
生命科学学院欧来良教授Advanced Functional Materials,通讯作者:欧来良,Wenzhong Li,Rainer Haag

Advanced Functional Materials Early View First published: 13 June 2019 10.1002/adfm.201808961

https://onlinelibrary.wiley.com/doi/10.1002/adfm.201808961



Biospecific Monolayer Coating for Multivalent Capture of Circulating Tumor Cells with High Sensitivity

Jie Chen, Leixiao Yu, Yan Li, Jose Luis Cuellar-Camacho, Yamin Chai, Dong Li, Yueguo Li, Hongyu Liu, Lailiang Ou,* Wenzhong Li,* and Rainer Haag*

Dr. J. Chen, Y. Chai, Prof. L. Ou

Key Laboratory of Bioactive Materials, Ministry of Education, College of Life Sciences, Nankai University, Tianjin 300071, China

E-mail: ouyll@nankai.edu.cn

Dr. J. Chen, Dr. L. Yu, Y. Li, Dr. J. L. Cuellar-Camacho, Dr. W. Li, Prof. R. Haag

Institute of Chemistry and Biochemistry, Freie Universit?t Berlin, Takustrasse 3, Berlin 14195, Germany

E-mail: fuli@zedat.fu-berlin.de, bcrtlwz@gmail.com;

haag@chemie.fu-berlin.de

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发表于 2019-6-15 23:30:08 |显示全部楼层
物理科学学院陈树琪教授Advanced Materials,通讯作者:陈树琪
Advanced Materials Early View First published: 13 June 2019 10.1002/adma.201901729
https://onlinelibrary.wiley.com/doi/10.1002/adma.201901729

Energy-Tailorable Spin-Selective Multifunctional Metasurfaces with Full Fourier Components
Wenwei Liu, Zhancheng Li, Zhi Li, Hua Cheng, Chengchun Tang, Junjie Li, Shuqi Chen,* and Jianguo Tian

Dr. W. Liu, Dr. Z. Li, Dr. Z. Li, Prof. H. Cheng, Prof. S. Chen, Prof. J. Tian
The Key Laboratory of Weak Light Nonlinear Photonics Ministry of Education, School of Physics, TEDA Institute of Applied Physics, and Renewable Energy Conversion and Storage Center, Nankai University, Tianjin 300071, China
E-mail: schen@nankai.edu.cn
Prof. H. Cheng, Prof. S. Chen, Prof. J. Tian
The Collaborative Innovation Center of Extreme Optics, Shanxi University, Taiyuan, Shanxi 030006, China
Dr. C. Tang, Prof. J. Li
Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China

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发表于 2019-6-16 13:59:31 来自手机 |显示全部楼层
化学学院赵斌教授课题组Angewandte Chemie International Edition,通讯作者:赵斌

Angewandte Chemie International Edition Accepted Articles First published: 14 June 2019 10.1002/anie.201906306

https://onlinelibrary.wiley.com/doi/10.1002/anie.201906306



High Selectively Catalyzing Enamination of β-ketoesters by Interlocked [Cu8] and [Cu18] Nanocages

Wan-Zhen Qiao,[a] Tian-Qun Song, Peng Cheng[a] and Bin Zhao*[a]

[a] College of Chemistry, Key Laboratory of Advanced Energy Material Chemistry, MOE, Nankai University, Tianjin 300071.

E-mail: zhaobin@nankai.edu.cn

Department of Chemistry, Tianjin University, Tianjin 300072.

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发表于 2019-6-16 20:42:18 来自手机 |显示全部楼层
物理论文也起来了  比去年好多了

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发表于 2019-6-17 10:50:03 来自手机 |显示全部楼层
本帖最后由 南以离开 于 2019-6-17 11:09 编辑

fcc.nankai.edu.cn/2019/0617/c4734a178051/page.htm

罗锋很厉害么?1977年的,给了讲席教授,杰青也才是杰出教授级别

应该是这个,严纯华的学生
罗锋博士本科/博士阶段先后师从北京大学刘忠范院士/严纯华院士;2004-2006师从马普所微结构物理所所长表面磁学先驱JürgenKirschner教授;2006-2009 跟随APS/IEEE/IOP Fellow,瑞士联邦理工材料学院Laura Heyderman教授从事磁学/微纳加工研究;2010年12月加入马德里高等研究院纳米研究所任助理研究教授(预聘制),于2013年12月提前获得终身教职,2016年6月晋升为资深研究教授(终身正教授)。
      

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发表于 2019-6-17 11:53:54 来自手机 |显示全部楼层
为嘛字体全黑。。。

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发表于 2019-6-17 13:26:48 |显示全部楼层

刘叶涛
所在部门:
哲学系
性别:

现有职称:
教授
出生年月:
1977.9
导师身份:
硕士生导师
民 族:

学位:
博士
政治面貌:
中共党员
联系电话:
0335-8070994
学历::
博士研究生
电子信箱:
pkulyt@163.com
毕业院校::
北京大学
现任职务:
学院党委书记
通讯地址:
秦皇岛市河北大街西段438号燕山大学文法学院
学习工作简历

1995.9-1999.7,河北大学哲学系哲学本科专业学生,获哲学学士学位。
  
1999.9-2002.7,南京大学哲学系逻辑学专业研究生,获哲学硕士学位,师从张建军教授。
  
2002.9-2005.7,北京大学哲学系逻辑学专业研究生,获哲学博士学位,师从陈波教授。
  
2005.7至今,燕山大学文法学院教师,2012年评为教授。
  
2013.3-2016.3,燕山大学教务处,副处长。
  
2016.6至今,燕山大学文法学院党委书记。

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发表于 2019-6-17 16:33:00 来自手机 |显示全部楼层
中山大学社会学系主任王进教授加盟南开

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发表于 2019-6-18 07:21:11 来自手机 |显示全部楼层
本帖最后由 NKU 于 2019-6-19 21:11 编辑

材料科学与工程学院严纯华院士团队杜亚平教授共同通讯作者Angew. Chem. Int. Ed. ,通讯作者:杜亚平、Bolong Huang(香港理工大学),第一作者单位:西安交通大学
Angew. Chem. Int. Ed. ,DOI:10.1002/anie.201905852,First published: 17 June 2019

https://onlinelibrary.wiley.com/doi/10.1002/anie.201905852

Oxygen Vacancies on Layered Niobic Acid Weaken the Catalytic Conversion of Polysulfides in Lithium Sulfur Battery
Lingling Xu,[a] Hongyang Zhao,[a] Mingzi Sun, [c] Bolong Huang,*[c] Jianwei Wang,[a] Jiale Xia,[a] Na Li,[a] Dandan Yin,[a] Meng Luo,[a] Feng Luo,[d] Yaping Du,*[b ] and Chunhua Yan[ b,e,f]


Dedicated to 100th Anniversary of Nankai University


[a] L. Xu, H. Zhao,J. Wang, J. Xia, N. Li, D. Yin, M. Luo Frontier Institute of Science and Technology, Xi’an Jiaotong University, Xi’an, Shaanxi 710054, China
[b ] Prof. Y. Du, Prof. C. Yan
School of Materials Science and Engineering & National Institute for Advanced Materials, Key Laboratory of Advanced Energy Materials Chemistry, Tianjin Key Lab for Rare Earth Materials and Applications, Centre for Rare Earth and Inorganic Functional Materials, Nankai University, Tianjin, 300350, China
E-mail: ypdu nankai.edu.cn (Y. Du)
[c] M. Sun, Prof. B. Huang
Department of Applied Biology and Chemical Technology, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong SAR, P. R. China
E-mail: bhuang polyu.edu.hk (B. Huang)
[d] Prof. F. Luo
IMDEA Nanoscience, Faraday 9, Ciudad Universitaria de
Cantoblanco, 28049 Madrid, Spain
[e] Prof. C. Yan
Beijing National Laboratory for Molecular Sciences, State Key Laboratory of Rare Earth Materials Chemistry and Applications, PKU-HKU Joint Laboratory in Rare Earth Materials and Bioinorganic Chemistry, College of Chemistry and Molecular Engineering, Peking University, Beijing 100871, China
[f] Prof. C. Yan
College of Chemistry and Chemical Engineering, Lanzhou University, Lanzhou 730000, China
 These authors contributed equally.

Abstract
Oxygen vacancies are usually considered as beneficial in catalytic conversion of polysulfides in lithium sulfur battery. In this work, we demonstrated that the conversion of polysulfides was hindered by creating oxygen vacancies on ultrathin layered niobic acid. The inferior performance induced by oxygen vacancy was mainly attributed to the decreased electric conductivity as well as the weakened adsorption of polysulfides on catalyst surface. This work showed that the care should be taken when designing a new catalyst for lithium‐sulfur battery using defect‐engineering strategy.

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发表于 2019-6-18 10:17:58 来自手机 |显示全部楼层
杜亚平引进的可以  贡献不少论文

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发表于 2019-6-18 11:52:14 |显示全部楼层
本帖最后由 woaitjdaa 于 2019-6-18 12:32 编辑

杜亚平来南开后,特别是今年开始论文质量上了一个档次,而且给南开带来了新的方向。之前在西交时论文,感觉明显不如同时要引进的郑彦臻。郑彦臻被西交留住了,没来南开。

杜亚平来南开之后的通讯论文:
Advanced Materials Early View First published: 24 April 2019 10.1002/adma.201806461
Angewandte Chemie International Edition Accepted Articles First published: 17 June 2019 10.1002/anie.201905852
Angewandte Chemie International Edition Volume 58, Issue 21, May 20, 2019, Pages 6880-6885, 10.1002/anie.201812972
Coordination Chemistry Reviews, Volume 390, 1 July 2019, Pages 32-49
Mater. Horiz., 2018, 5, 1143-1150 10.1039/C8MH00386F
Nano Energy, In press, accepted manuscript, A vailable online 8 June 2019
Nano Energy, Volume 50, August 2018, Pages 176-181

ACS Appl. Mater. Interfaces, 2018, 10 (41), pp 35469–35476 (Research Article) DOI: 10.1021/acsami.8b11485
Chem. Sci., 2018, 9, 3421-3425 10.1039/C7SC05185A
Chemistry – A European Journal Volume 24, Issue 69, December 10, 2018 Pages 18220-18234, 10.1002/chem.201802438
J. Mater. Chem. A, 2018, 6, 18720-18727 10.1039/C8TA06491A
Mater. Chem. Front., 2019, Advance Article 10.1039/C9QM00024K
Mater. Chem. Front., 2019, 3, 394-398 10.1039/C8QM00549D
Nano Research June 2019, Volume 12, Issue 6, pp 1301–1305
Nano Research March 2019, Volume 12, Issue 3, pp 593–599
Nanoscale, 2018, 10, 11775-11781 10.1039/C8NR01229F
Phys. Chem. Chem. Phys., 2019, 21, 9391-9398 10.1039/C9CP00917E
Small Volume 14, Issue 48, November 28, 2018, 10.1002/smll.201803233

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发表于 2019-6-18 12:07:47 来自手机 |显示全部楼层
郑彦臻还是以南开为单位申请了自然基金  可惜没来

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发表于 2019-6-18 16:48:23 来自手机 |显示全部楼层
需要好好发展  南开危亡之际

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发表于 2019-6-19 13:47:05 来自手机 |显示全部楼层
本帖最后由 NKU 于 2019-6-19 21:14 编辑

电子信息与光学工程学院张晓丹研究员共同通讯作者Nano Energy
Nano Energy,DOI:10.1016/j.nanoen.2019.06.021,First online 19 June 2019
https://www.sciencedirect.com/science/article/pii/S2211285519305257

Exploring low-temperature processed a-WOx/SnO2 hybrid electron transporting layer for perovskite solar cells with efficiency >20.5%
Fengyou Wang a, c, e , Yuhong Zhang a, Meifang Yang a , Jinyue Du a, Leilei Xue a, Lili Yang a, c *, Lin Fan a, c,, Yingrui Sui a, c,, Jinghai Yang a, c *, and Xiaodan Zhang b *

a. Key Laboratory of Functional Materials Physics and Chemistry of the Ministry of Education, Jilin Normal University, Changchun 130103, China
b. Institute of Photoelectronic Thin Film Devices and Technology of Nankai University, Key Laboratory of Photoelectronic Thin Film Devices and Technology of Tianjin, Collaborative Innovation Center of Chemical Science and Engineering (Tianjin), Renewable Energy Conversion and Storage Center, Tianjin 300071, China
c. National Demonstration Center for Experimental Physics Education, Jilin Normal University, Siping 136000, China
d. Si Ping Hong Zui University Science Park, Siping, 136000, China
e. Key Laboratory of Preparation and Application of Environmental Friendly Materials, Ministry of Education, Jilin Normal University, Changchun 130103, China
E-mail address: llyang1980 126.com (L. Yang); jhyang1 jlnu.edu.cn (J. Yang);
xdzhang nankai.edu.cn (X. Zhang)

Abstract

Interfacial engineering strategy between the perovskite absorber and the charge transport layer play a vital role in highly efficient perovskite solar cells. Here, we propose an amorphous tungsten oxides/tin dioxide hybrid electron transport layer to effectively block holes through the pinholes and cracks of tin dioxide to indium tin oxide, resulting in promoting charge extraction and hindering electron-hole recombination process at the hetero-interface. Moreover, owing to the higher mobility of amorphous tungsten oxides and formation of cascade energy level sequence between amorphous tungsten oxides and tin dioxide, better electron transport is obtained compared with the traditional electron transport layer. The PSCs based on amorphous tungsten oxides/tin dioxide hybrid electron transport layer shows a better power conversion efficiency of 20.52% than the single tin dioxide electron transport layer. This study guides design strategies of the electron transport layer to enhance the efficiency of the perovskite solar cells by interfacial engineering. Moreover, the entire devices preparation process are finished at a temperature below 150 °C, promising great potential for the practical use in monolithic tandem devices and providing an a venue for the progress of flexible device.



Graphical abstract






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