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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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763
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External: 746
Domestic: 560
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29
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Visits
Visits
1.
Tuning the Tribological Property with Thermal Sensitive Microgels ..
[927]
2.
Contact printing a biomimetic catecholic monolayer on a variety of..
[675]
3.
polyelectrolyte brush templated multiple loading of Pd nanoparticl..
[607]
4.
Noncovalent Microcontact Printing for Grafting Patterned Polymer B..
[524]
5.
Novel Fluorine-containing Trisilahydrocarbon Lubricants and Their ..
[482]
6.
Engineering a Titanium Surface with Controllable Oleophobicity and..
[468]
7.
Molecularly Engineered Dual-Crosslinked Hydrogel with Ultrahigh Me..
[463]
8.
Grafting zwitterionic polymer brushes via electrochemical surface-..
[446]
9.
Core-Shell-Corona-Structured Polyelectrolyte Brushes-Grafting Magn..
[438]
10.
一种室温固化超疏油聚氨酯涂料
[396]
11.
Stratified Polymer Brushes from Microcontact Printing of Polydopam..
[394]
12.
Alumina nanowire forests via unconventional anodization and super-..
[379]
13.
Low surface energy surfaces from self-assembly of perfluoropolymer..
[373]
14.
Highly durable hydrophobicity in simulated space environment
[373]
15.
A versatile macro-initiator with dual functional anchoring groups ..
[355]
16.
Superamphiphobic coatings with coralline-like structure enabled by..
[353]
17.
Biomimicking lubrication superior to fish skin using responsive hy..
[353]
18.
Self-healing superamphiphobicity
[345]
19.
聚丙烯酸/氧化石墨烯复合水凝胶摩擦学性能研究
[344]
20.
Grafting of polyelectrolytes onto hydrocarbon surfaces by high-ene..
[341]
21.
Effects of atomic oxygen and ultraviolet in low earth orbit on low..
[339]
22.
Self-Healing Surface Hydrophobicity by Consecutive Release of Hydr..
[327]
23.
i3DP, a robust 3D printing approach enabling genetic post-printing..
[316]
24.
Initiator-Integrated 3D Printing Enables the Formation of Complex ..
[298]
25.
Transparent, stretchable, carbon-nanotube-inlaid conductors enable..
[286]
26.
Hairy Polyelectrolyte Brushes-Grafted Thermosensitive Microgels as..
[280]
27.
Self-Assembly of Catecholic Macroinitiator on Various Substrates a..
[261]
28.
Fusion and alloying of (bi)metallic nanocrystals onto TiO2 nanowir..
[253]
29.
Synthesis and Properties of Low-surface-energy Polyimides
[249]
30.
Floating behavior of hydrophobic glass spheres
[247]
31.
CdS/CdSe quantum dot co-sensitized graphene nanocomposites via pol..
[242]
32.
Nanoporous Substrate-Infiltrated Hydrogels: a Bioinspired Regenera..
[238]
33.
High compressive strength metallic architectures prepared via poly..
[236]
34.
Superoleophobicity under vacuum
[234]
35.
Additively Manufacturing Metal−Organic Frameworks and Derivatives..
[216]
36.
低地球轨道环境中原子氧对空间润滑油的影响
[215]
37.
Antifouling Based on Biocides: Form Toxic to Green
[206]
38.
Bio-Inspired Renewable Surface-Initiated Polymerization from Perma..
[204]
39.
A replication strategy for complex micro/nanostructures with super..
[202]
40.
Articular Cartilage Inspired Bilayer Tough Hydrogel Prepared by In..
[202]
41.
一种DLP光固化3D打印用双料成型工作台组件
[199]
42.
Surface-initiated ring-opening metathesis polymerization of pentad..
[188]
43.
Superhydrophobic surface from Cu-Zn alloy by one step O2 concentra..
[186]
44.
Synthesis and properties of new poly(ether imides) based on pyridi..
[165]
45.
Biomimetic Surface with Tunable Frictional Anisotropy Enabled by ..
[164]
46.
Recyclable Polydopamine-Functionalized Sponge for HighEfficiency C..
[162]
47.
Brushing up from "anywhere" under sunlight: a universal surface-in..
[161]
48.
Spray-coated fluorine-free superhydrophobic coatings with easy rep..
[160]
49.
Magnetite-Loaded Thermosensitive Nanogels for Bioinspired Lubricat..
[160]
50.
Fabrication of binary components based on a poly(ionic liquid) thr..
[155]
51.
聚合物仿生润滑剂研究进展
[148]
52.
Bioinspired 3D Printed Locomotion Devices Based on Anisotropic Fri..
[148]
53.
Bio-inspired 3D Printed Locomotion Devices Based on Anisotropic Fr..
[148]
54.
Synthesis and properties of novel poly(benzimidazopyrrolone amide)..
[144]
55.
Correlation between conformation change of polyelectrolyte brushes..
[144]
56.
Drawing High-Definition and Reversible Hydrogel Paintings with Gra..
[140]
57.
一种异氰酸酯墨水及其制备方法和应用
[137]
58.
Synthesis and properties of new pyridine-bridged poly(ether-imide)..
[134]
59.
3D Printing as Feasible Platform for On-Site Building Oil-Skimmer ..
[133]
60.
Bio-inspired smart surface to achieve controllable locomotion thr..
[123]
61.
Multimaterials 3D Printing for Free Assembly Manufacturing of Magn..
[122]
62.
3D Printing of an Oil/Water Mixture Separator with In Situ Demulsi..
[121]
63.
一种可光固化聚醚醚酮齐聚物及其制备方法
[120]
64.
3D打印生物医用材料研究进展
[119]
65.
Continuous Surface Polymerization via Fe(II)‐Mediated Redox React..
[118]
66.
Photothermally actuated interfacial hydration for fast friction sw..
[116]
67.
一种聚酰亚胺自润滑墨水及其制备方法和在直书写3D打印中的应用
[115]
68.
Direct Ink Writing of High Performance Architectured Polyimides wi..
[112]
69.
Freezing Molecular Orientation under Stretch for High Mechanical S..
[111]
70.
3D Printing of High-Performance Isocyanate Ester Thermosets
[110]
71.
3D printing of bioinspired topographically oriented surfaces with ..
[109]
72.
紫外荧光型空间润滑油爬行屏障材料
[107]
73.
Direct ink writing of polymers and their composites, and related a..
[107]
74.
3D Printing of Dual-Physical Cross-linking Hydrogel with Ultrahigh..
[106]
75.
4D-printed light-responsive structures
[103]
76.
Additively manufacturing high-performance bismaleimide architectur..
[102]
77.
Recent advances in direct ink writing of electronic components an..
[99]
78.
一种基于螺杆挤出的直书写装置
[98]
79.
2D metal patterns transformed from 3D printed stamps for flexible ..
[98]
80.
仿生取向结构表界面及其摩擦各向异性研究进展
[95]
81.
一种低表面能聚酰亚胺薄膜的制备方法
[94]
82.
口腔正畸摩擦研究进展
[93]
83.
Direct ink writing with high-strength and swelling-resistant bioco..
[93]
84.
3D printing of metal-organic frameworks decorated hierarchical por..
[93]
85.
食品口腔摩擦学研究进展
[92]
86.
3D Printing of Shape Changing Composites for Constructing Flexible..
[89]
87.
一种高强度立体化中空水凝胶结构体的制备方法
[87]
88.
3D Printing of Hydrogel Architectures with Complex and Controllab..
[86]
89.
3D Printing of Photocuring Elastomers with Excellent Mechanical S..
[86]
90.
一种曲面打印装置
[84]
91.
3D直书写打印聚合物及其复合材料
[84]
92.
水性UV聚氨酯丙烯酸酯/二氧化硅复合材料的制备及涂膜性能
[83]
93.
Bio-inspired smart surface to achieve controllable locomotion thro..
[83]
94.
3D-Printed Electromagnetic Actuator for Bionic Swimming Robot
[82]
95.
一种测试骨钉微动磨损的装置
[81]
96.
一种3D打印多孔催化器件的方法及一种多孔催化器件
[81]
97.
一种3D打印双马来酰亚胺墨水及其制备方法和应用
[78]
98.
Direct-writing polyimide additive manufacturing material and prepa..
[77]
99.
一种聚醚醚酮光敏材料及其制备方法和应用
[76]
100.
Solvent-free and photocurable polyimide inks for 3D printing
[73]
Downloads
1.
Additively Manufacturing Metal−Organic Frameworks and Derivatives..
[81]
2.
Engineering a Titanium Surface with Controllable Oleophobicity and..
[37]
3.
4D-printed light-responsive structures
[35]
4.
Direct ink writing of polymers and their composites, and related a..
[26]
5.
Antifouling Based on Biocides: Form Toxic to Green
[20]
6.
Tuning the Tribological Property with Thermal Sensitive Microgels ..
[15]
7.
Novel Fluorine-containing Trisilahydrocarbon Lubricants and Their ..
[13]
8.
High compressive strength metallic architectures prepared via poly..
[9]
9.
紫外荧光型空间润滑油爬行屏障材料
[8]
10.
一种室温固化超疏油聚氨酯涂料
[6]
11.
Biomimicking lubrication superior to fish skin using responsive hy..
[6]
12.
Biomimetic Surface with Tunable Frictional Anisotropy Enabled by ..
[6]
13.
Bioinspired 3D Printed Locomotion Devices Based on Anisotropic Fri..
[6]
14.
Self-healing superamphiphobicity
[5]
15.
polyelectrolyte brush templated multiple loading of Pd nanoparticl..
[5]
16.
Noncovalent Microcontact Printing for Grafting Patterned Polymer B..
[5]
17.
Core-Shell-Corona-Structured Polyelectrolyte Brushes-Grafting Magn..
[5]
18.
Synthesis and Properties of Low-surface-energy Polyimides
[5]
19.
Bio-Inspired Renewable Surface-Initiated Polymerization from Perma..
[5]
20.
Articular Cartilage Inspired Bilayer Tough Hydrogel Prepared by In..
[5]
21.
一种3D打印生物医用水凝胶及其制备方法
[5]
22.
一种可光固化聚醚醚酮齐聚物及其制备方法
[5]
23.
Bio-inspired 3D Printed Locomotion Devices Based on Anisotropic Fr..
[5]
24.
i3DP, a robust 3D printing approach enabling genetic post-printing..
[4]
25.
一种DLP光固化3D打印用双料成型工作台组件
[4]
26.
一种基于螺杆挤出的直书写装置
[4]
27.
Alumina nanowire forests via unconventional anodization and super-..
[3]
28.
Superamphiphobic coatings with coralline-like structure enabled by..
[3]
29.
A versatile macro-initiator with dual functional anchoring groups ..
[3]
30.
Grafting of polyelectrolytes onto hydrocarbon surfaces by high-ene..
[3]
31.
Transparent, stretchable, carbon-nanotube-inlaid conductors enable..
[3]
32.
聚丙烯酸/氧化石墨烯复合水凝胶摩擦学性能研究
[3]
33.
Stratified Polymer Brushes from Microcontact Printing of Polydopam..
[3]
34.
Highly durable hydrophobicity in simulated space environment
[3]
35.
聚合物仿生润滑剂研究进展
[3]
36.
Magnetite-Loaded Thermosensitive Nanogels for Bioinspired Lubricat..
[3]
37.
Freezing Molecular Orientation under Stretch for High Mechanical S..
[3]
38.
Solvent-free and photocurable polyimide inks for 3D printing
[3]
39.
Multimaterials 3D Printing for Free Assembly Manufacturing of Magn..
[3]
40.
一种聚酰亚胺直书写增材及其制备方法
[3]
41.
一种熔融沉积3D打印用线材接线器组件
[3]
42.
Continuous Surface Polymerization via Fe(II)‐Mediated Redox React..
[3]
43.
Superoleophobicity under vacuum
[2]
44.
Contact printing a biomimetic catecholic monolayer on a variety of..
[2]
45.
Self-Assembly of Catecholic Macroinitiator on Various Substrates a..
[2]
46.
Initiator-Integrated 3D Printing Enables the Formation of Complex ..
[2]
47.
Hairy Polyelectrolyte Brushes-Grafted Thermosensitive Microgels as..
[2]
48.
Fabrication of binary components based on a poly(ionic liquid) thr..
[2]
49.
Nanoporous Substrate-Infiltrated Hydrogels: a Bioinspired Regenera..
[2]
50.
3D Printing as Feasible Platform for On-Site Building Oil-Skimmer ..
[2]
51.
一种双交联水凝胶的制备方法
[2]
52.
一种可快速光固化聚酰亚胺齐聚物及其制备方法和应用
[2]
53.
Recent advances in direct ink writing of electronic components an..
[2]
54.
一种熔融沉积3D打印用线材接线器组件
[2]
55.
一种测试骨钉微动磨损的装置
[2]
56.
一种生物陶瓷及其制备方法和应用
[2]
57.
Direct Ink Writing of High Performance Architectured Polyimides wi..
[2]
58.
3D Printing of High-Performance Isocyanate Ester Thermosets
[2]
59.
3D-Printed Electromagnetic Actuator for Bionic Swimming Robot
[2]
60.
2D metal patterns transformed from 3D printed stamps for flexible ..
[2]
61.
Surface-initiated ring-opening metathesis polymerization of pentad..
[1]
62.
Fusion and alloying of (bi)metallic nanocrystals onto TiO2 nanowir..
[1]
63.
低地球轨道环境中原子氧对空间润滑油的影响
[1]
64.
Spray-coated fluorine-free superhydrophobic coatings with easy rep..
[1]
65.
Synthesis and properties of novel poly(benzimidazopyrrolone amide)..
[1]
66.
Self-Healing Surface Hydrophobicity by Consecutive Release of Hydr..
[1]
67.
CdS/CdSe quantum dot co-sensitized graphene nanocomposites via pol..
[1]
68.
Grafting zwitterionic polymer brushes via electrochemical surface-..
[1]
69.
Brushing up from "anywhere" under sunlight: a universal surface-in..
[1]
70.
Correlation between conformation change of polyelectrolyte brushes..
[1]
71.
Photothermally actuated interfacial hydration for fast friction sw..
[1]
72.
3D打印生物医用材料研究进展
[1]
73.
一种主链氟硅改性聚酰亚胺的制备方法
[1]
74.
口腔正畸摩擦研究进展
[1]
75.
仿生取向结构表界面及其摩擦各向异性研究进展
[1]
76.
一种3D打印弹性体光敏树脂
[1]
77.
光固化3D打印聚酰亚胺墨水及其制备方法与应用
[1]
78.
3D Printing of Shape Changing Composites for Constructing Flexible..
[1]
79.
3D Printing of Hydrogel Architectures with Complex and Controllab..
[1]
80.
Drawing High-Definition and Reversible Hydrogel Paintings with Gra..
[1]
81.
3D Printing of Photocuring Elastomers with Excellent Mechanical S..
[1]
82.
3D Printing of an Oil/Water Mixture Separator with In Situ Demulsi..
[1]
83.
Direct-writing polyimide additive manufacturing material and prepa..
[1]
84.
一种异氰酸酯墨水及其制备方法和应用
[1]
85.
Additively manufacturing high-performance bismaleimide architectur..
[1]
86.
3D printing of bioinspired textured surfaces with superamphiphobic..
[1]
87.
3D直书写打印聚合物及其复合材料
[1]
88.
一种3D打印氰酸酯墨水及其制备方法和应用
[1]
89.
3D Printing of Dual-Physical Cross-linking Hydrogel with Ultrahigh..
[1]
90.
3D printing of porous polyimide for high-performance oil impregnat..
[1]
91.
Bio-inspired smart surface to achieve controllable locomotion thro..
[1]
92.
Bio-inspired smart surface to achieve controllable locomotion thr..
[1]
Major Research Outputs
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