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中国科学院兰州化学物理研究所机构知识库
KMS Lanzhou Institute of Chemical Physics,Chinese Academy of Sciences
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2016
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internal: 11
External: 2005
Domestic: 1633
Abroad: 383
Annual Views
277
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internal: 0
External: 277
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46
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internal: 0
External: 46
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Visits
Visits
1.
类金刚石碳基薄膜材料
[157369]
2.
Superior Micro-Supercapacitors Based on Graphene Quantum Dots
[957]
3.
含石墨烯离子液体纳米复合润滑膜
[832]
4.
A novel carbon-based solid–liquid duplex lubricating coating with..
[831]
5.
Surface amorphization and deoxygenation of graphene oxide paper by..
[808]
6.
Tribological properties of graphite-like carbon coatings coupling ..
[721]
7.
纳米润滑材料的研制及其摩擦学性能
[649]
8.
Flexible and conductive nanocomposite electrode based on graphene ..
[608]
9.
Preparation of porous BiVO4 fibers by electrospinning and their ph..
[553]
10.
Robust superhydrophobic surfaces with mechanical durability and ea..
[540]
11.
空间长寿命润滑材料与技术
[528]
12.
先进润滑材料制备与性能
[513]
13.
发动机进气阀积炭实验室检测装置
[509]
14.
The ethanol sensing property of magnetron sputtered ZnO thin films..
[508]
15.
Novel and high-performance asymmetric micro-supercapacitors based ..
[501]
16.
Synthesis of a graphene oxide-polyacrylic acid nanocomposite hydro..
[495]
17.
A versatile approach to produce superhydrophobic materials used fo..
[494]
18.
摩擦体系热力学引论
[480]
19.
Pattern abrasion of ultra-high molecular weight polyethylene: Micr..
[478]
20.
High performance supercapacitor electrode based on graphene paper ..
[473]
21.
Frictional dependence of graphene and carbon nanotube in diamond-l..
[471]
22.
超厚类金刚石涂层的超高速制备方法
[470]
23.
Promising porous carbon derived from celtuce leaves with outstandi..
[468]
24.
润滑添加剂的分子结构与摩擦学性能
[453]
25.
用于水润滑的织构化类金刚石复合薄膜的制备方法
[444]
26.
润滑油添加剂的现状及发展趋势
[443]
27.
Promising Porous Carbon Derived from Celtuce Leaves with Outstandi..
[441]
28.
石墨烯摩擦学及石墨烯基复合润滑材料的研究进展
[438]
29.
类金刚石复合二硫化钼纳米多层薄膜及其制备方法
[435]
30.
Multilayer hybrid films consisting of alternating graphene and tit..
[433]
31.
新型润滑添加剂制备与应用
[432]
32.
Synthesis of worm-like PtCo nanotubes for methanol oxidation
[429]
33.
核技术与材料科学
[425]
34.
A graphene coated cotton for oil/water separation
[421]
35.
PtNi Alloy Nanoparticles Supported on Polyelectrolyte Functionaliz..
[419]
36.
纳米氟化稀土润滑油添加剂
[415]
37.
Improved adaptability of PEEK by Nb doped graphite-like carbon com..
[413]
38.
PtFe nanotubes/graphene hybrid: Facile synthesis and its electroch..
[411]
39.
The tunable wettability in multistimuli-responsive smart graphene ..
[409]
40.
High vacuum tribological performance of DLC-based solid–liquid lu..
[407]
41.
基于萃取提纯技术高效制备石墨烯的方法
[404]
42.
Promising activated carbons derived from waste tea-leaves and thei..
[401]
43.
Novel DLC/ionic liquid/graphene nanocomposite coatings towards hig..
[394]
44.
Influences of the thickness of self-assembled graphene multilayer ..
[392]
45.
陶瓷的磨损与润滑
[391]
46.
Controlled water adhesion and electrowetting of conducting hydroph..
[391]
47.
金属自润滑复合材料
[388]
48.
离子液体二元复合纳米润滑膜的制备方法
[382]
49.
Alumina nanowire forests via unconventional anodization and super-..
[380]
50.
Ultra-elastic recovery and low friction of amorphous carbon films ..
[380]
51.
Facile fabrication of a superamphiphobic surface on the copper sub..
[378]
52.
多尺度强韧化碳基润滑薄膜的研究进展
[377]
53.
UHVT-1A超高真空表面分析摩擦试验装置
[376]
54.
Fabrication and characterization of poly(vinyl alcohol)/graphene o..
[375]
55.
Friction and Wear Properties of Graphene Oxide/Ultrahigh-Molecular..
[375]
56.
Vacuum tribological performance of DLC-based solid-liquid lubricat..
[371]
57.
一种基于萃取提纯技术高效制备石墨烯的方法
[368]
58.
Electrochemical corrosion behavior of nanocrystalline Co coatings ..
[366]
59.
Enhancement in the fluorescence of graphene quantum dots by hydraz..
[364]
60.
科普是科技工作者义不容辞的责任和义务
[358]
61.
Superamphiphobic coatings with coralline-like structure enabled by..
[356]
62.
Photoresponsive superhydrophobic coating for regulating boundary s..
[354]
63.
高性能润滑材料多烷基环戊烷的研究进展
[352]
64.
Fabrication of Bionic Superhydrophobic Manganese Oxide/Polystyrene..
[349]
65.
Fabrication of carbon nanofiber–polyaniline composite flexible pa..
[345]
66.
Supercapacitors based on graphene nanosheets using different non-a..
[343]
67.
Combustion synthesis melt-casting
[341]
68.
Ni3Al matrix high temperature self-lubricating composites
[339]
69.
Switching Fluid Slippage on pH-Responsive Superhydrophobic Surface..
[339]
70.
Controlling wear failure of graphite-like carbon film in aqueous e..
[338]
71.
Adhesion-Regulated Switchable Fluid Slippage on Superhydrophobic S..
[338]
72.
Improving the tribological performances of graphite-like carbon fi..
[336]
73.
TiC/a-C:H nanocomposite coatings as substitute for MoS2-based soli..
[336]
74.
聚合物及其复合材料的摩擦学性能研究
[334]
75.
Tribological Behavior of UHMWPE Reinforced with Graphene Oxide Nan..
[334]
76.
Surface composition variation and high-vacuum performance of DLC/I..
[333]
77.
Rapid and reversible switching between superoleophobicity and supe..
[332]
78.
偏压对CrN涂层结构与海水环境摩擦学行为的影响
[330]
79.
Self-Healing Surface Hydrophobicity by Consecutive Release of Hydr..
[328]
80.
Influence of different buffer gases on synthesis of few-layered gr..
[325]
81.
Preparation, mechanical properties and biocompatibility of graphen..
[325]
82.
Preparation of ordered mesoporous silicon carbide monoliths via pr..
[323]
83.
耐磨镍磷功能梯度镀层的制备方法
[323]
84.
Three-Dimensional Graphene/Polyaniline Composite Hydrogel as Super..
[323]
85.
CrN 基复合薄膜的结构及摩擦磨损性能研究
[322]
86.
Nanocomposite Microstructure and Environment Self-Adapted Tribolog..
[322]
87.
One-step synthesis of pure Cu nanowire/carbon nanotube coaxial nan..
[320]
88.
单/双咪唑环阳离子结构对离子液体薄膜微/纳摩擦学性能的影响
[320]
89.
Improved tribological behavior of DLC films under water lubricatio..
[319]
90.
Various curing conditions for controlling PTFE micro/nano-fiber te..
[319]
91.
Fabrication of CrAlN nanocomposite films with high hardness and ex..
[317]
92.
超细硼酸盐润滑油添加剂的制备方法
[317]
93.
链长对离子液体超薄膜微/纳摩擦学性能的影响
[315]
94.
Wear behaviors and wear mechanisms of several alloys under simulat..
[315]
95.
Facile synthesis of Ag/GNS-g-PAA nanohybrids for antimicrobial app..
[309]
96.
Graphene nanosheets supported hollow Pt&CoSn(OH)(6) nanospheres as..
[308]
97.
Comparison between metal ion and polyelectrolyte functionalization..
[308]
98.
Combustion synthesis of alloys
[308]
99.
Enhancement of field emission and photoluminescence properties of ..
[307]
100.
含硫有机化合物修饰金属-硫属化合物纳米微粒及其制备方法和用途
[307]
Downloads
1.
类金刚石碳基薄膜材料
[13969]
2.
核技术与材料科学
[76]
3.
Flexible and conductive nanocomposite electrode based on graphene ..
[65]
4.
摩擦体系热力学引论
[38]
5.
Combustion synthesis melt-casting
[33]
6.
Combustion synthesis of alloys
[30]
7.
分子有序体系超薄膜及其在摩擦学中的应用
[23]
8.
Promising porous carbon derived from celtuce leaves with outstandi..
[22]
9.
Vacuum tribological performance of DLC-based solid-liquid lubricat..
[17]
10.
含石墨烯离子液体纳米复合润滑膜
[15]
11.
润滑添加剂的分子结构与摩擦学性能
[14]
12.
Electrodeposition of nanocrystalline functionally graded and multi..
[14]
13.
Ultra-elastic recovery and low friction of amorphous carbon films ..
[13]
14.
A novel carbon-based solid–liquid duplex lubricating coating with..
[12]
15.
Surface composition variation and high-vacuum performance of DLC/I..
[12]
16.
超厚类金刚石涂层的超高速制备方法
[12]
17.
High vacuum tribological performance of DLC-based solid–liquid lu..
[11]
18.
Improving the tribological performances of graphite-like carbon fi..
[10]
19.
Micro/nanotribological behaviors of ionic liquid nanofilms with di..
[10]
20.
Tirbological behavior of PTFE sliding against steel in sea weter
[9]
21.
Duplex doped nanocomposite carbon-based coating with self-lubricat..
[9]
22.
纳米氟化稀土润滑油添加剂
[9]
23.
氧化物陶瓷薄膜的制备方法
[9]
24.
Novel DLC/ionic liquid/graphene nanocomposite coatings towards hig..
[9]
25.
纳米润滑材料的研制及其摩擦学性能
[8]
26.
润滑油添加剂的现状及发展趋势
[8]
27.
Frictional dependence of graphene and carbon nanotube in diamond-l..
[8]
28.
Robust superhydrophobic surfaces with mechanical durability and ea..
[7]
29.
Field emission properties of DLC and phosphorus-doped DLC films pr..
[7]
30.
高性能润滑材料多烷基环戊烷的研究进展
[7]
31.
Tribological performances of non-hydrogenated amorphous carbon cou..
[7]
32.
基于萃取提纯技术高效制备石墨烯的方法
[7]
33.
一种基于萃取提纯技术高效制备石墨烯的方法
[7]
34.
Preparation and tribological study of functionalized graphene IL n..
[6]
35.
Improvement in the tribological performances of Si3N4, SiC and WC ..
[6]
36.
摩擦磨损的热力学研究:现状和展望
[6]
37.
先进润滑材料制备与性能
[6]
38.
Tribo-pair dependence of friction and wear moisture sensitivity fo..
[6]
39.
Influence of nitric acid modification of ordered mesoporous carbon..
[6]
40.
The tribological performance of DLC-based coating under the solid-..
[6]
41.
Synthesis of worm-like PtCo nanotubes for methanol oxidation
[6]
42.
镍铝金属间化合物基高温自润滑复合材料的制备方法
[6]
43.
空间长寿命润滑材料与技术
[6]
44.
Switching Fluid Slippage on pH-Responsive Superhydrophobic Surface..
[6]
45.
类金刚石复合二硫化钼纳米多层薄膜及其制备方法
[6]
46.
One-step electrodeposition of amorphous carbon films containing WO..
[5]
47.
The structure and tribological properties of aluminum/carbon nanoc..
[5]
48.
Improved tribological behavior of DLC films under water lubricatio..
[5]
49.
DLC-based solid–liquid synergetic lubricating coatings for improv..
[5]
50.
链长对离子液体超薄膜微/纳摩擦学性能的影响
[5]
51.
Structure and mechanical properties of reactive sputtering CrSiN f..
[5]
52.
几种聚合物材料在海水中的摩擦学行为
[5]
53.
Facile fabrication of a superamphiphobic surface on the copper sub..
[5]
54.
提高中强碳纤维表面活性的γ射线处理方法
[5]
55.
含硫有机化合物修饰金属-硫属化合物纳米微粒及其制备方法和用途
[5]
56.
发动机进气阀积炭实验室检测装置
[5]
57.
铜管拉拔润滑油复合添加剂
[5]
58.
金属自润滑复合材料
[5]
59.
大块纳米晶碳化钨材料的制备方法
[5]
60.
聚酰亚胺二硫化钼插层复合材料的制备方法
[5]
61.
在功能化有机硅烷自组装单层薄膜表面制备氧化锆陶瓷薄膜的方法
[5]
62.
Promising activated carbons derived from waste tea-leaves and thei..
[5]
63.
块体铁硼软磁材料的制备方法
[5]
64.
石墨烯摩擦学及石墨烯基复合润滑材料的研究进展
[5]
65.
多尺度强韧化碳基润滑薄膜的研究进展
[5]
66.
含离子液基团的防污涂料基体树脂的制备方法
[5]
67.
The Tribological Mechanism of MoS2 Film under Different Humidity
[5]
68.
Fabrication of superhydrophobic polyaniline films with rapidly swi..
[4]
69.
Preparation of ordered mesoporous silicon carbide monoliths via pr..
[4]
70.
Ni3Al matrix high temperature self-lubricating composites
[4]
71.
Effect of particle size on tribological behavior of Ni3Al matrix h..
[4]
72.
Pattern abrasion of ultra-high molecular weight polyethylene: Micr..
[4]
73.
Design and fabrication of nanopillar patterned Au textures for imp..
[4]
74.
Fabrication of CrAlN nanocomposite films with high hardness and ex..
[4]
75.
耐磨镍磷功能梯度镀层的制备方法
[4]
76.
TiC/a-C:H nanocomposite coatings as substitute for MoS2-based soli..
[4]
77.
Microstructure and surface roughness of graphite-like carbon films..
[4]
78.
单/双咪唑环阳离子结构对离子液体薄膜微/纳摩擦学性能的影响
[4]
79.
Fabrication of Bionic Superhydrophobic Manganese Oxide/Polystyrene..
[4]
80.
多功能润滑油添加剂
[4]
81.
超细硼酸盐润滑油添加剂的制备方法
[4]
82.
聚苯乙烯二硫化钼插层复合材料的制备方法
[4]
83.
自润滑纳米复合材料及其制备方法
[4]
84.
含碳相增强的FeAl基金属间化合物复合材料的制备方法
[4]
85.
Structrure and tribological properties of Ag films deposited at lo..
[4]
86.
The tunable wettability in multistimuli-responsive smart graphene ..
[4]
87.
Controlled water adhesion and electrowetting of conducting hydroph..
[4]
88.
Tribological properties of graphite-like carbon coatings coupling ..
[4]
89.
PtNi Alloy Nanoparticles Supported on Polyelectrolyte Functionaliz..
[4]
90.
离子液体二元复合纳米润滑膜的制备方法
[4]
91.
白色润滑成膜膏的研制及其摩擦学特性与应用
[4]
92.
Improved adaptability of PEEK by Nb doped graphite-like carbon com..
[4]
93.
材料表面润湿性调控及减阻性能研究
[4]
94.
Effect of tribochemistry on friction behavior of fluorinated amorp..
[4]
95.
MoS2/Pb-Ti多层薄膜的结构和摩擦学性能
[4]
96.
Comparative study of simplex doped nc-WC/a-C and duplex doped nc-W..
[3]
97.
Fabrication of carbon nanofiber–polyaniline composite flexible pa..
[3]
98.
Deposition of WO3 doped amorphous hydrogenated carbon film by usin..
[3]
99.
Comparative study of microstructure and tribological behavior of T..
[3]
100.
Achieving low tribological moisture sensitivity by a-C:Si:Al carbo..
[3]
Major Research Outputs
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