设为首页
收藏本站
网站地图
|
English
|
公务邮箱
About the library
Background
History
Leadership
Organization
Readers' Guide
Opening Hours
Collections
Help Via Email
Publications
Electronic Information Resources
常用资源
电子图书
期刊论文
学位会议
外文资源
特色专题
内部出版物
中国地质文献-英文(1)
SpringerLink电子期刊(4206)
NATURE电子期刊(166)
Elsevier电子期刊(19449)
Wiley电子期刊(490)
ProQuest学位论文(2)
GSW全文库(6)
ACS电子期刊(3154)
在“
SpringerLink电子期刊
”中,
命中:
4,206
条,耗时:0.0389798 秒
在所有数据库中总计命中:
27,474
条
1.
Electrochemical
Performance
of Morphologically Different Bi
2
WO
6
Nanostructures Synthesized via a Hydrothermal Route
作者:
Fei Wang
;
Hua Yang
;
Haimin Zhang
;
Junyan Su…
关键词:
Bi2WO6 nanostructures
;
hydrothermal method
;
different morphologies
;
electrochemical
performance
刊名:Journal of Electronic Materials
出版年:2017
2.
Optimization of Design Parameters and Operating Conditions of
Electrochemical
Capacitors for High Energy and Power
Performance
作者:
Innocent S. Ike
;
Iakovos Sigalas
;
Sunny E. Iyuke
关键词:
Electrode symmetry
;
modeling and simulation
;
performance
parameters
;
electrolyte type
;
working potential range
;
asymmetric capacitors
刊名:Journal of Electronic Materials
出版年:2017
3.
Electrochemical
performance
of CeO
2
nanoparticle-decorated graphene oxide as an electrode material for supercapacitor
作者:
Dongyang Deng
;
Nan Chen
;
Xuechun Xiao
;
Shangfeng Du
;
Yude Wang
关键词:
Coprecipitation method
;
CeO2 nanoparticles
;
Graphene oxide
;
Supercapacitors
;
Electrochemical
properties
刊名:Ionics
出版年:2017
4.
Direct growth of bundle-like cobalt selenide nanotube arrays on Ni foam as binder-free electrode for high-
performance
supercapacitors
作者:
Peng Sun
;
Ji-Cai Liang
;
Guang-Yi Chen
;
Kai-Yuan Zhou…
关键词:
Co0.85Se nanotube arrays
;
Binder
;
free electrode
;
Supercapacitors
;
Electrochemical
performance
刊名:Research on Chemical Intermediates
出版年:2017
5.
Modulated electrical field as a new pulse method to make TiO
2
film for high-
performance
photo-
electrochemical
cells and modeling of the deposition process
作者:
Behzad Rezaei
;
Mahmood Taki
;
Ali A. Ensafi
关键词:
Electrophoretic deposition
;
Modulated electrical field
;
Electrochemical
impedance spectroscopy
;
TiO2 suspension
;
Photo
;
electrochemical
刊名:Journal of Solid State Electrochemistry
出版年:2017
6.
A low-cost attempt to improve
electrochemical
performance
s of pitch-based hard carbon anodes in lithium-ion batteries by oxidative stabilization
作者:
Pin-Yi Zhao
;
Jia-Ji Tang
;
Cheng-Yang Wang
关键词:
Lithium
;
Ion batteries
;
Hard carbon
;
Pitch
;
Oxidative stabilization
刊名:Journal of Solid State Electrochemistry
出版年:2017
7.
Enhancement of
Electrochemical
Performance
by the Oxygen Vacancies in Hematite as Anode Material for Lithium-Ion Batteries
作者:
Peiyuan Zeng
;
Yueying Zhao
;
Yingwu Lin
;
Xiaoxiao Wang…
关键词:
Hematite
;
Oxygen vacancies
;
Calcination
;
Lithium
;
ion batteries
刊名:Nanoscale Research Letters
出版年:2017
8.
Cobalt oxyhydroxide/graphene oxide nanocomposite for amelioration of
electrochemical
performance
of lithium/sulfur batteries
作者:
Seyyed Taher Seyyedin
;
Mohammad Reza Yaftian…
关键词:
Lithium/sulfur battery
;
Sheet like structures
;
Metal oxyhydroxide
;
Sulfur cathode
刊名:Journal of Solid State Electrochemistry
出版年:2017
9.
Enhancing effect of boron trifluoride diethyl etherate electrolytes on capacitance
performance
of electropolymerized poly[poly(
N
-vinyl-carbazole)] films
作者:
Guo Ye
;
Jingkun Xu
;
Xiumei Ma
;
Qianjie Zhou…
关键词:
Supercapacitors
;
Poly[poly(N
;
vinyl
;
carbazole)]
;
Electrodeposition
;
Boron trifluoride diethyl etherate
;
Capacitance
performance
刊名:Journal of Solid State Electrochemistry
出版年:2017
10.
Porous sulfated metal oxide SO
4
2−
/Fe
2
O
3
as an anode material for Li-ion batteries with enhanced
electrochemical
performance
作者:
Zhen Li
;
Qianqian Lv
;
Xiaoxiong Huang
;
Yueyue Tan…
关键词:
SO42−/Fe2O3
;
Li
;
ion batteries
;
Porous architecture
;
Cycling stability
;
Nanoparticles
;
Energy storage
刊名:Journal of Nanoparticle Research
出版年:2017
1
2
3
4
5
6
7
8
9
按检索点细分(4206)
题名(560)
关键词(222)
文摘(3407)
NGLC 2004-2010.National Geological Library of China All Rights Reserved.
Add:29 Xueyuan Rd,Haidian District,Beijing,PRC. Mail Add: 8324 mailbox 100083
For exchange or info please contact us via
email
.