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
馆藏期刊(1)
万方学术会议(1)
CNKI学位论文(9893)
知网期刊论文(8378)
Springer电子图书(24)
CNKI会议论文(45)
CNKI期刊论文0611(42)
万方学位论文(4)
在“
SpringerLink电子期刊
”中,
命中:
2,593
条,耗时:0.0250181 秒
在所有数据库中总计命中:
18,388
条
1.
Removal of Pollutants from Water by Using Single-
Wall
ed
Carbon
Nanotubes
(SWCNTs) and Multi-
wall
ed Carbon Nanotubes (MWCNTs)
作者:
Md. Mostafizur Rahman
;
Sanjida Akter Sime…
关键词:
Carbon
nanotubes
;
Physicochemical parameters
;
Adsorption
;
filtration wastewater
;
Water pollution
刊名:Arabian Journal for Science and Engineering
出版年:2017
2.
Sensitive and Selective Determination of Riboflavin in Milk and Soymilk Powder by Multi-
wall
ed
Carbon
Nanotubes
and Ionic Liquid [BMPi]PF
6
Modified Electrode
作者:
Hongjiao Zhang
;
Yuntao Gao
;
Huabin Xiong
关键词:
Riboflavin
;
Multi
;
wall
ed
carbon
nanotubes
;
Ionic liquid
N ;
butyl
N ;
methyl
;
piperidinium hexafluorophosphate
;
Food analysis
刊名:Food Analytical Methods
出版年:2017
3.
Voltammetric myoglobin sensor based on a glassy
carbon
electrode modified with a composite film consisting of
carbon
nanotubes
and a molecularly imprinted polymerized ionic liquid
作者:
Yanying Wang
;
Miao Han
;
Xiaoxue Ye
;
Kangbing Wu
;
Tsunghsueh Wu…
关键词:
Molecularly imprinted polymer
;
Polymerized ionic liquid
;
Multi
;
wall
ed
carbon
nanotubes
;
Electrochemical assay
;
Myoglobin analysis
刊名:Microchimica Acta
出版年:2017
4.
Exploration of single
wall
carbon
nanotubes
for the peristaltic motion in a curved channel with variable viscosity
作者:
S. Nadeem
;
Hina Sadaf
关键词:
Peristaltic flow
;
Curved channel
;
Temperature dependent viscosity
;
Single
wall
carbon
nanotubes
;
Exact solution
刊名:Journal of the Brazilian Society of Mechanical Sciences and Engineering
出版年:2017
5.
Energy approach to the unstressed geometry of single-
wall
ed
carbon
nanotubes
作者:
Rafael Merli
;
Salvador Monleón
;
Carlos Lázaro
关键词:
Carbon
nanotubes
;
Molecular mechanics
;
Energy minimization
;
Prestressed state
刊名:Meccanica
出版年:2017
6.
Electrical Properties of Single-
Wall
ed/Multi-Walled
Carbon
-
Nanotubes
Filled Poly
carbon
ate Nanocomposites
作者:
P. K. Sain
;
R. K. Goyal
;
Y. V. S. S. Prasad…
关键词:
Polymer nanocomposites
;
carbon
nanotubes
;
electrical properties
;
electron microscopy
刊名:Journal of Electronic Materials
出版年:2017
7.
Oxidative treatment, dispersion effect, and simulation of multi-
wall
ed
carbon
nanotubes
in aqueous solution
作者:
Kai Song
;
Li-Quan Guo
;
Hui Chen
关键词:
multi
;
wall
ed
carbon
nanotubes
;
oxidative treatment
;
dispersion
;
surfactant
;
simulation
刊名:Russian Journal of Physical Chemistry A
出版年:2017
8.
Heat transfer effects on
carbon
nanotubes
suspended nanofluid flow in a channel with non-parallel
wall
s under the effect of velocity slip boundary condition: a numerical study
作者:
Umar Khan
;
Naveed Ahmed
;
Syed Tauseef Mohyud-Din
关键词:
Water
;
based nanofluids
;
Velocity slip
;
Carbon
nanotubes
;
Heat transfer
;
Numerical solution
;
Diverging and converging channels
刊名:Neural Computing and Applications
出版年:2017
9.
Amperometric NADH sensor based on a
carbon
ceramic electrode modified with the natural carotenoid crocin and multi-
wall
ed
carbon
nanotubes
作者:
Mahmoud Roushani
;
Maryam Karami
;
Behruz Zare Dizajdizi
关键词:
Crocin
;
Carbon
ceramic electrode
;
Electroanalysis
;
Methyltrimethoxysilane
;
Sol
;
gel
;
Nanohybrid
;
Amperometry
;
Cyclic voltammetry
;
Charge transfer coefficient
;
Electrode surface coverage
;
Electrocatalytic oxidation
刊名:Microchimica Acta
出版年:2017
10.
Chlorophenol sorption on multi-
wall
ed
carbon
nanotubes
: DFT modeling and structure–property relationship analysis
作者:
Marquita Watkins
;
Natalia Sizochenko
;
Quentarius Moore…
关键词:
Chlorophenols
;
Carbon
nanotubes
;
Adsorption
;
DFT
;
Structure–property relationship
;
Pollutants
刊名:Journal of Molecular Modeling
出版年:2017
1
2
3
4
5
6
7
8
9
按检索点细分(2593)
题名(1039)
关键词(512)
文摘(2242)
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
.