| Year |
Citation |
Score |
| 2016 |
Ouyang A, Cao A, Hu S, Li YH, Xu R, Wei J, Zhu H, Wu D. Polymer-Coated Graphene Aerogel Beads and Supercapacitor Application. Acs Applied Materials & Interfaces. PMID 27058391 DOI: 10.1021/Acsami.6B01965 |
0.596 |
|
| 2015 |
Ouyang A, Wang C, Wu S, Shi E, Zhao W, Cao A, Wu D. Highly Porous Core-Shell Structured Graphene-Chitosan Beads. Acs Applied Materials & Interfaces. 7: 14439-45. PMID 26079376 DOI: 10.1021/Acsami.5B03369 |
0.712 |
|
| 2015 |
Yang Y, Li P, Wu S, Li X, Shi E, Shen Q, Wu D, Xu W, Cao A, Yuan Q. Hierarchically designed three-dimensional macro/mesoporous carbon frameworks for advanced electrochemical capacitance storage. Chemistry (Weinheim An Der Bergstrasse, Germany). 21: 6157-64. PMID 25752493 DOI: 10.1002/Chem.201406199 |
0.754 |
|
| 2015 |
Xu R, Wei J, Guo F, Cui X, Zhang T, Zhu H, Wang K, Wu D. Highly conductive, twistable and bendable polypyrrole–carbon nanotube fiber for efficient supercapacitor electrodes Rsc Advances. 5: 22015-22021. DOI: 10.1039/C5Ra01917F |
0.464 |
|
| 2015 |
Sun P, Chen Q, Li X, Liu H, Wang K, Zhong M, Wei J, Wu D, Ma R, Sasaki T, Zhu H. Highly efficient quasi-static water desalination using monolayer graphene oxide|[sol]|titania hybrid laminates Npg Asia Materials. 7. DOI: 10.1038/Am.2015.7 |
0.311 |
|
| 2015 |
Jiang X, Cao Y, Wang K, Wei J, Wu D, Zhu H. Anti-reflection graphene coating on metal surface Surface & Coatings Technology. 261: 327-330. DOI: 10.1016/J.Surfcoat.2014.11.008 |
0.335 |
|
| 2015 |
Jiang X, Cao Y, Li P, Wei J, Wang K, Wu D, Zhu H. Polyaniline/graphene/carbon fiber ternary composites as supercapacitor electrodes Materials Letters. 140: 43-47. DOI: 10.1016/J.Matlet.2014.10.162 |
0.447 |
|
| 2014 |
Nan D, Wei J, Guo F, Fan G, Xu F, Li L, Zhu H, Wang K, Wu D. Fabrication and oil adsorption of carbon nanotube/polyvinylpyrrolidone surface composite. Journal of Nanoscience and Nanotechnology. 14: 6461-5. PMID 25936137 DOI: 10.1166/Jnn.2014.8875 |
0.372 |
|
| 2014 |
Sun H, Wei J, Jia Y, Cui X, Wang K, Wu D. Flexible carbon nanotube/mono-crystalline Si thin-film solar cells. Nanoscale Research Letters. 9: 514. PMID 25258617 DOI: 10.1186/1556-276X-9-514 |
0.425 |
|
| 2014 |
Zhu M, Li X, Guo Y, Li X, Sun P, Zang X, Wang K, Zhong M, Wu D, Zhu H. Vertical junction photodetectors based on reduced graphene oxide/silicon Schottky diodes. Nanoscale. 6: 4909-14. PMID 24671360 DOI: 10.1039/C4Nr00056K |
0.371 |
|
| 2014 |
Zang X, Chen Q, Li P, He Y, Li X, Zhu M, Li X, Wang K, Zhong M, Wu D, Zhu H. Highly flexible and adaptable, all-solid-state supercapacitors based on graphene woven-fabric film electrodes. Small (Weinheim An Der Bergstrasse, Germany). 10: 2583-8. PMID 24648143 DOI: 10.1002/Smll.201303738 |
0.371 |
|
| 2014 |
Li P, Yang Y, Shi E, Shen Q, Shang Y, Wu S, Wei J, Wang K, Zhu H, Yuan Q, Cao A, Wu D. Core-double-shell, carbon nanotube@polypyrrole@MnO₂ sponge as freestanding, compressible supercapacitor electrode. Acs Applied Materials & Interfaces. 6: 5228-34. PMID 24621200 DOI: 10.1021/Am500579C |
0.776 |
|
| 2014 |
Yang Y, Shi E, Li P, Wu D, Wu S, Shang Y, Xu W, Cao A, Yuan Q. A compressible mesoporous SiO2 sponge supported by a carbon nanotube network. Nanoscale. 6: 3585-92. PMID 24535234 DOI: 10.1039/C3Nr05931F |
0.76 |
|
| 2014 |
Peng Q, Li Y, He X, Gui X, Shang Y, Wang C, Wang C, Zhao W, Du S, Shi E, Li P, Wu D, Cao A. Graphene nanoribbon aerogels unzipped from carbon nanotube sponges. Advanced Materials (Deerfield Beach, Fla.). 26: 3241-7. PMID 24496883 DOI: 10.1002/Adma.201305274 |
0.791 |
|
| 2014 |
Guo N, Wei J, Jia Y, Sun H, Yang D, Yang S, Wang Y, Zhang L, Cao A, Zhu H, Wang K, Wu D. Fabrication and Electrical Properties of Semi-Conductive h-BNCx Thin Films Science of Advanced Materials. 6: 550-557. DOI: 10.1166/Sam.2014.1732 |
0.54 |
|
| 2014 |
Zhang Z, Cui T, Lv R, Zhu H, Wang K, Wu D, Kang F. Improved efficiency of graphene/si heterojunction solar cells by optimizing hydrocarbon feed rate Journal of Nanomaterials. 2014: 12. DOI: 10.1155/2014/359305 |
0.367 |
|
| 2014 |
Zang X, Li P, Chen Q, Wang K, Wei J, Wu D, Zhu H. Evaluation of layer-by-layer graphene structures as supercapacitor electrode materials Journal of Applied Physics. 115: 24305. DOI: 10.1063/1.4861629 |
0.374 |
|
| 2014 |
Fan L, Wang K, Wei J, Zhong M, Wu D, Zhu H. Correlation between nanoparticle location and graphene nucleation in chemical vapour deposition of graphene Journal of Materials Chemistry. 2: 13123-13128. DOI: 10.1039/C4Ta01975J |
0.329 |
|
| 2014 |
He S, Wei J, Guo F, Xu R, Li C, Cui X, Zhu H, Wang K, Wu D. A large area, flexible polyaniline/buckypaper composite with a core–shell structure for efficient supercapacitors Journal of Materials Chemistry. 2: 5898-5902. DOI: 10.1039/C4Ta00089G |
0.485 |
|
| 2014 |
Chen Q, Li X, Zang X, Cao Y, He Y, Li P, Wang K, Wei J, Wu D, Zhu H. Effect of different gel electrolytes on graphene-based solid-state supercapacitors Rsc Advances. 4: 36253-36256. DOI: 10.1039/C4Ra05553E |
0.372 |
|
| 2014 |
Sun H, Wei J, Sun J, Ning C, Zhu J, Jia Y, Yang S, Zhu H, Wang K, Wu D, Zhao Y, Vajtai R, Ajayan PM. Effect of microwave irradiation on carbon nanotube fibers: Exfoliation, structural change and strong light emission Rsc Advances. 4: 15502-15506. DOI: 10.1039/C4Ra01203H |
0.436 |
|
| 2014 |
Zhang R, Cao Y, Li P, Zang X, Sun P, Wang K, Zhong M, Wei J, Wu D, Kang F, Zhu H. Three-Dimensional Porous Graphene Sponges Assembled with the Combination of Surfactant and Freeze-drying Nano Research. 7: 1477-1487. DOI: 10.1007/S12274-014-0508-X |
0.348 |
|
| 2014 |
Yang T, Zhang H, Wang Y, Li X, Wang K, Wei J, Wu D, Li Z, Zhu H. Interconnected graphene/polymer micro-tube piping composites for liquid sensing Nano Research. 7: 869-876. DOI: 10.1007/S12274-014-0448-5 |
0.301 |
|
| 2014 |
Li P, Shi E, Yang Y, Shang Y, Peng Q, Wu S, Wei J, Wang K, Zhu H, Yuan Q, Cao A, Wu D. Carbon nanotube-polypyrrole core-shell sponge and its application as highly compressible supercapacitor electrode Nano Research. 7: 209-218. DOI: 10.1007/S12274-013-0388-5 |
0.793 |
|
| 2014 |
Li X, Zang X, Li X, Zhu M, Chen Q, Wang K, Zhong M, Wei J, Wu D, Zhu H. Hybrid Heterojunction and Solid‐State Photoelectrochemical Solar Cells Advanced Energy Materials. 4: 1400224. DOI: 10.1002/Aenm.201400224 |
0.357 |
|
| 2014 |
Zhu M, Li X, Zhang Z, Sun P, Zang X, Wang K, Zhong M, Wu D, Zhu H. Amorphous Nitrogen Doped Carbon Films: A Novel Corrosion Resistant Coating Material† Advanced Engineering Materials. 16: 532-538. DOI: 10.1002/Adem.201300408 |
0.406 |
|
| 2013 |
Cao Y, Zhu M, Li P, Zhang R, Li X, Gong Q, Wang K, Zhong M, Wu D, Lin F, Zhu H. Boosting supercapacitor performance of carbon fibres using electrochemically reduced graphene oxide additives. Physical Chemistry Chemical Physics : Pccp. 15: 19550-6. PMID 24141749 DOI: 10.1039/C3Cp54017K |
0.444 |
|
| 2013 |
He S, Wei J, Wang H, Sun D, Yao Z, Fu C, Xu R, Jia Y, Zhu H, Wang K, Wu D. Stable superhydrophobic surface of hierarchical carbon nanotubes on Si micropillar arrays. Nanoscale Research Letters. 8: 412. PMID 24098965 DOI: 10.1186/1556-276X-8-412 |
0.42 |
|
| 2013 |
Sun P, Zhu M, Wang K, Zhong M, Wei J, Wu D, Zhu H. Small temperature coefficient of resistivity of graphene/graphene oxide hybrid membranes. Acs Applied Materials & Interfaces. 5: 9563-71. PMID 24053358 DOI: 10.1021/Am403186R |
0.348 |
|
| 2013 |
Li X, Zhao T, Chen Q, Li P, Wang K, Zhong M, Wei J, Wu D, Wei B, Zhu H. Flexible all solid-state supercapacitors based on chemical vapor deposition derived graphene fibers. Physical Chemistry Chemical Physics : Pccp. 15: 17752-7. PMID 24045695 DOI: 10.1039/C3Cp52908H |
0.374 |
|
| 2013 |
Li P, Kong C, Shang Y, Shi E, Yu Y, Qian W, Wei F, Wei J, Wang K, Zhu H, Cao A, Wu D. Highly deformation-tolerant carbon nanotube sponges as supercapacitor electrodes. Nanoscale. 5: 8472-9. PMID 23897061 DOI: 10.1039/C3Nr01932B |
0.769 |
|
| 2013 |
Shi E, Li H, Yang L, Zhang L, Li Z, Li P, Shang Y, Wu S, Li X, Wei J, Wang K, Zhu H, Wu D, Fang Y, Cao A. Colloidal antireflection coating improves graphene-silicon solar cells. Nano Letters. 13: 1776-81. PMID 23517083 DOI: 10.1021/Nl400353F |
0.752 |
|
| 2013 |
Gui X, Lin Z, Zeng Z, Wang K, Wu D, Tang Z. Controllable synthesis of spongy carbon nanotube blocks with tunable macro- and microstructures. Nanotechnology. 24: 085705. PMID 23377139 DOI: 10.1088/0957-4484/24/8/085705 |
0.522 |
|
| 2013 |
Sun P, Ma R, Wang K, Zhong M, Wei J, Wu D, Sasaki T, Zhu H. Suppression of the coffee-ring effect by self-assembling graphene oxide and monolayer titania. Nanotechnology. 24: 075601. PMID 23358551 DOI: 10.1088/0957-4484/24/7/075601 |
0.342 |
|
| 2013 |
Li X, Xie D, Park H, Zhu M, Zeng TH, Wang K, Wei J, Wu D, Kong J, Zhu H. Ion doping of graphene for high-efficiency heterojunction solar cells. Nanoscale. 5: 1945-8. PMID 23358527 DOI: 10.1039/C2Nr33795A |
0.325 |
|
| 2013 |
Shang Y, Li Y, He X, Du S, Zhang L, Shi E, Wu S, Li Z, Li P, Wei J, Wang K, Zhu H, Wu D, Cao A. Highly twisted double-helix carbon nanotube yarns. Acs Nano. 7: 1446-53. PMID 23289799 DOI: 10.1021/Nn305209H |
0.77 |
|
| 2013 |
Lee X, Yang T, Li X, Zhang R, Zhu M, Zhang H, Xie D, Wei J, Zhong M, Wang K, Wu D, Li Z, Zhu H. Flexible graphene woven fabrics for touch sensing Applied Physics Letters. 102: 163117. DOI: 10.1063/1.4803165 |
0.385 |
|
| 2013 |
Cui T, Lv R, Huang Z, Chen S, Zhang Z, Gan X, Jia Y, Li X, Wang K, Wu D, Kang F. Enhanced efficiency of graphene/silicon heterojunction solar cells by molecular doping Journal of Materials Chemistry. 1: 5736-5740. DOI: 10.1039/C3Ta01634J |
0.365 |
|
| 2013 |
Cui T, Lv R, Huang Z, Gan X, Wang K, Wu D, Zhu H, Kang F. Hybrid graphene/amorphous carbon films with tadpole-like structures for high-performance photovoltaic applications Rsc Advances. 3: 22295-22300. DOI: 10.1039/C3Ra42968G |
0.482 |
|
| 2013 |
Hu X, Zhang Y, Ago H, Zhou H, Li X, Fan L, Cai B, Li X, Zhong M, Wang K, Wu D, Zhu H. Ultra-fast synthesis of graphene by melt spinning Carbon. 61: 299-304. DOI: 10.1016/J.Carbon.2013.05.008 |
0.442 |
|
| 2013 |
Guo N, Wei J, Jia Y, Sun H, Wang Y, Zhao K, Shi X, Zhang L, Li X, Cao A, Zhu H, Wang K, Wu D. Fabrication of large area hexagonal boron nitride thin films for bendable capacitors Nano Research. 6: 602-610. DOI: 10.1007/S12274-013-0336-4 |
0.542 |
|
| 2013 |
Zhu K, Shang Y, Sun P, Li Z, Li X, Wei J, Wang K, Wu D, Cao A, Zhu H. Oil spill cleanup from sea water by carbon nanotube sponges Frontiers of Materials Science. 7: 170-176. DOI: 10.1007/S11706-013-0200-1 |
0.561 |
|
| 2013 |
Li X, Xie D, Park H, Zeng TH, Wang K, Wei J, Zhong M, Wu D, Kong J, Zhu H. Anomalous Behaviors of Graphene Transparent Conductors in Graphene–Silicon Heterojunction Solar Cells Advanced Energy Materials. 3: 1029-1034. DOI: 10.1002/Aenm.201300052 |
0.314 |
|
| 2013 |
Li X, Zang X, Li Z, Li X, Li P, Sun P, Lee X, Zhang R, Huang Z, Wang K, Wu D, Kang F, Zhu H. Large‐Area Flexible Core–Shell Graphene/Porous Carbon Woven Fabric Films for Fiber Supercapacitor Electrodes Advanced Functional Materials. 23: 4862-4869. DOI: 10.1002/Adfm.201300464 |
0.503 |
|
| 2012 |
Shi E, Zhang L, Li Z, Li P, Shang Y, Jia Y, Wei J, Wang K, Zhu H, Wu D, Zhang S, Cao A. TiO₂-coated carbon nanotube-silicon solar cells with efficiency of 15%. Scientific Reports. 2: 884. PMID 23181192 DOI: 10.1038/Srep00884 |
0.782 |
|
| 2012 |
Li X, Zhang R, Yu W, Wang K, Wei J, Wu D, Cao A, Li Z, Cheng Y, Zheng Q, Ruoff RS, Zhu H. Stretchable and highly sensitive graphene-on-polymer strain sensors. Scientific Reports. 2: 870. PMID 23162694 DOI: 10.1038/Srep00870 |
0.527 |
|
| 2012 |
Zhang Y, Li X, Wang L, Yi X, Wu D, Zhu H, Wang G. Enhanced light emission of GaN-based diodes with a NiO(x)/graphene hybrid electrode. Nanoscale. 4: 5852-5. PMID 22918190 DOI: 10.1039/C2Nr31986A |
0.338 |
|
| 2012 |
Zhang L, Shi E, Ji C, Li Z, Li P, Shang Y, Li Y, Wei J, Wang K, Zhu H, Wu D, Cao A. Fiber and fabric solar cells by directly weaving carbon nanotube yarns with CdSe nanowire-based electrodes. Nanoscale. 4: 4954-9. PMID 22806611 DOI: 10.1039/C2Nr31440A |
0.789 |
|
| 2012 |
Jia Y, Cao A, Kang F, Li P, Gui X, Zhang L, Shi E, Wei J, Wang K, Zhu H, Wu D. Strong and reversible modulation of carbon nanotube-silicon heterojunction solar cells by an interfacial oxide layer. Physical Chemistry Chemical Physics : Pccp. 14: 8391-6. PMID 22573091 DOI: 10.1039/C2Cp23639G |
0.747 |
|
| 2012 |
Li X, Sun P, Fan L, Zhu M, Wang K, Zhong M, Wei J, Wu D, Cheng Y, Zhu H. Multifunctional graphene woven fabrics. Scientific Reports. 2: 395. PMID 22563524 DOI: 10.1038/Srep00395 |
0.373 |
|
| 2012 |
Shang Y, He X, Li Y, Zhang L, Li Z, Ji C, Shi E, Li P, Zhu K, Peng Q, Wang C, Zhang X, Wang R, Wei J, Wang K, ... ... Wu D, et al. Super-stretchable spring-like carbon nanotube ropes. Advanced Materials (Deerfield Beach, Fla.). 24: 2896-900. PMID 22539213 DOI: 10.1002/Adma.201200576 |
0.794 |
|
| 2012 |
Wei J, Lv R, Guo N, Wang H, Bai X, Mathkar A, Kang F, Zhu H, Wang K, Wu D, Vajtai R, Ajayan PM. Preparation of highly oxidized nitrogen-doped carbon nanotubes. Nanotechnology. 23: 155601. PMID 22437078 DOI: 10.1088/0957-4484/23/15/155601 |
0.446 |
|
| 2012 |
Fan L, Zou J, Li Z, Li X, Wang K, Wei J, Zhong M, Wu D, Xu Z, Zhu H. Topology evolution of graphene in chemical vapor deposition, a combined theoretical/experimental approach toward shape control of graphene domains. Nanotechnology. 23: 115605. PMID 22383458 DOI: 10.1088/0957-4484/23/11/115605 |
0.351 |
|
| 2012 |
Jia Y, Li X, Li P, Wang K, Cao A, Wei J, Zhu H, Wu D. Strong, conductive carbon nanotube fibers as efficient hole collectors. Nanoscale Research Letters. 7: 137. PMID 22340519 DOI: 10.1186/1556-276X-7-137 |
0.635 |
|
| 2012 |
Feng T, Xie D, Lin Y, Zhao H, Chen Y, Tian H, Ren T, Li X, Li Z, Wang K, Wu D, Zhu H. Efficiency enhancement of graphene/silicon-pillar-array solar cells by HNO3 and PEDOT-PSS. Nanoscale. 4: 2130-3. PMID 22337348 DOI: 10.1039/C2Nr12001A |
0.391 |
|
| 2012 |
Zhang L, Shi E, Li Z, Li P, Jia Y, Ji C, Wei J, Wang K, Zhu H, Wu D, Cao A. Wire-supported CdSe nanowire array photoelectrochemical solar cells. Physical Chemistry Chemical Physics : Pccp. 14: 3583-8. PMID 22311153 DOI: 10.1039/C2Cp00024E |
0.761 |
|
| 2012 |
Chen J, Gui X, Wang Z, Li Z, Xiang R, Wang K, Wu D, Xia X, Zhou Y, Wang Q, Tang Z, Chen L. Superlow thermal conductivity 3D carbon nanotube network for thermoelectric applications. Acs Applied Materials & Interfaces. 4: 81-6. PMID 22132803 DOI: 10.1021/Am201330F |
0.387 |
|
| 2012 |
Liu T, Li Y, Du Q, Sun J, Jiao Y, Yang G, Wang Z, Xia Y, Zhang W, Wang K, Zhu H, Wu D. Adsorption of methylene blue from aqueous solution by graphene. Colloids and Surfaces. B, Biointerfaces. 90: 197-203. PMID 22036471 DOI: 10.1016/J.Colsurfb.2011.10.019 |
0.31 |
|
| 2012 |
Chen Y, Zang Y, Xie D, Wu X, Ren T, Wei J, Wang K, Wu D, Zhu H. Light-Induced Modulation in Resistance Switching of Carbon Nanotube/BiFeO3/Pt Heterostructure Integrated Ferroelectrics. 134: 58-64. DOI: 10.1080/10584587.2012.664985 |
0.413 |
|
| 2012 |
Sun P, Zhu M, Wang K, Zhong M, Wei J, Wu D, Cheng Y, Zhu H. Photoinduced molecular desorption from graphene films Applied Physics Letters. 101: 53107. DOI: 10.1063/1.4742147 |
0.393 |
|
| 2012 |
Sun P, Zhu M, Ma R, Wang K, Wei J, Wu D, Sasaki T, Zhu H. Graphene oxide/titania hybrid films with dual-UV-responsive surfaces of tunable wettability Rsc Advances. 2: 10829-10835. DOI: 10.1039/C2Ra21699J |
0.35 |
|
| 2012 |
Li P, Li Z, Zhang L, Shi E, Shang Y, Cao A, Li H, Jia Y, Wei J, Wang K, Zhu H, Wu D. Bubble-promoted assembly of hierarchical, porous Ag2S nanoparticle membranes Journal of Materials Chemistry. 22: 24721. DOI: 10.1039/C2Jm35048C |
0.704 |
|
| 2012 |
Fan G, Fan L, Li Z, Bai X, Mulligan S, Jia Y, Wang K, Wei J, Cao A, Wu D, Wei B, Zhu H. Hybrid effect of gas flow and light excitation in carbon/silicon Schottky solar cells Journal of Materials Chemistry. 22: 3330. DOI: 10.1039/C2Jm15938D |
0.592 |
|
| 2012 |
Shi E, Nie J, Qin X, Li Z, Zhang L, Li Z, Li P, Jia Y, Ji C, Wei J, Wang K, Zhu H, Wu D, Li Y, Fang Y, et al. Nanobelt–carbon nanotube cross-junction solar cells Energy & Environmental Science. 5: 6119. DOI: 10.1039/C2Ee03409C |
0.772 |
|
| 2012 |
Wang H, Bai X, Wei J, Li P, Jia Y, Zhu H, Wang K, Wu D. Preparation of CuI particles and their applications in carbon nanotube-Si heterojunction solar cells Materials Letters. 79: 106-108. DOI: 10.1016/J.Matlet.2012.03.114 |
0.393 |
|
| 2012 |
Li Y, Du Q, Liu T, Sun J, Jiao Y, Xia Y, Xia L, Wang Z, Zhang W, Wang K, Zhu H, Wu D. Equilibrium, kinetic and thermodynamic studies on the adsorption of phenol onto graphene Materials Research Bulletin. 47: 1898-1904. DOI: 10.1016/J.Materresbull.2012.04.021 |
0.312 |
|
| 2012 |
Wang H, Wei J, Jia Y, Li Z, Zhu H, Wang K, Wu D. Improve photocurrent quantum efficiency of carbon nanotube by chemical treatment Materials Chemistry and Physics. 131: 680-685. DOI: 10.1016/J.Matchemphys.2011.10.033 |
0.479 |
|
| 2012 |
Bai X, Wang H, Wei J, Jia Y, Zhu H, Wang K, Wu D. Carbon nanotube–silicon hybrid solar cells with hydrogen peroxide doping Chemical Physics Letters. 533: 70-73. DOI: 10.1016/J.Cplett.2012.03.013 |
0.327 |
|
| 2012 |
Sun P, Ma R, Osada M, Sasaki T, Wei J, Wang K, Wu D, Cheng Y, Zhu H. The formation of graphene–titania hybrid films and their resistance change under ultraviolet irradiation Carbon. 50: 4518-4523. DOI: 10.1016/J.Carbon.2012.05.035 |
0.344 |
|
| 2012 |
Cui T, Lv R, Huang Z, Zhu H, Kang F, Wang K, Wu D. Effect of feed rate on the production of nitrogen-doped graphene from liquid acetonitrile Carbon. 50: 3659-3665. DOI: 10.1016/J.Carbon.2012.03.038 |
0.434 |
|
| 2012 |
Li Z, Wei J, Li P, Zhang L, Shi E, Ji C, Liu J, Zhuang D, Liu Z, Zhou J, Shang Y, Li Y, Wang K, Zhu H, Wu D, et al. Solution-processed bulk heterojunction solar cells based on interpenetrating CdS nanowires and carbon nanotubes Nano Research. 5: 595-604. DOI: 10.1007/S12274-012-0245-Y |
0.762 |
|
| 2012 |
Li H, Gui X, Ji C, Li P, Li Z, Zhang L, Shi E, Zhu K, Wei J, Wang K, Zhu H, Wu D, Cao A. Photocatalytic, recyclable CdS nanoparticle-carbon nanotube hybrid sponges Nano Research. 5: 265-271. DOI: 10.1007/S12274-012-0206-5 |
0.734 |
|
| 2012 |
Guo N, Wei J, Shu Q, Jia Y, Song S, Xu Y, Wang H, Li P, Zhu H, Wang K, Wu D. High-efficiency core–shell solar cell array from Si wafer Applied Physics A. 107: 911-917. DOI: 10.1007/S00339-012-6818-5 |
0.309 |
|
| 2012 |
Li X, Fan L, Li Z, Wang K, Zhong M, Wei J, Wu D, Zhu H. Boron Doping of Graphene for Graphene–Silicon p–n Junction Solar Cells Advanced Energy Materials. 2: 425-429. DOI: 10.1002/Aenm.201100671 |
0.337 |
|
| 2012 |
Shang Y, He X, Li Y, Zhang L, Li Z, Ji C, Shi E, Li P, Zhu K, Peng Q, Wang C, Zhang X, Wang R, Wei J, Wang K, ... ... Wu D, et al. Carbon Nanotubes: Super-Stretchable Spring-Like Carbon Nanotube Ropes (Adv. Mater. 21/2012) Advanced Materials. 24: 2935-2935. DOI: 10.1002/Adma.201290124 |
0.794 |
|
| 2011 |
Li X, Zhao T, Wang K, Yang Y, Wei J, Kang F, Wu D, Zhu H. Directly drawing self-assembled, porous, and monolithic graphene fiber from chemical vapor deposition grown graphene film and its electrochemical properties. Langmuir : the Acs Journal of Surfaces and Colloids. 27: 12164-71. PMID 21875131 DOI: 10.1021/La202380G |
0.372 |
|
| 2011 |
Cui T, Lv R, Huang ZH, Kang F, Wang K, Wu D. Effect of sulfur on enhancing nitrogen-doping and magnetic properties of carbon nanotubes. Nanoscale Research Letters. 6: 77. PMID 21711610 DOI: 10.1186/1556-276X-6-77 |
0.496 |
|
| 2011 |
Ji C, Li H, Zhang L, Liu Y, Li Y, Jia Y, Li Z, Li P, Shi E, Wei J, Wang K, Zhu H, Wu D, Cao A. Suspended, straightened carbon nanotube arrays by gel chapping. Acs Nano. 5: 5656-61. PMID 21699200 DOI: 10.1021/Nn2012805 |
0.78 |
|
| 2011 |
Gui X, Li H, Zhang L, Jia Y, Liu L, Li Z, Wei J, Wang K, Zhu H, Tang Z, Wu D, Cao A. A facile route to isotropic conductive nanocomposites by direct polymer infiltration of carbon nanotube sponges. Acs Nano. 5: 4276-83. PMID 21591806 DOI: 10.1021/Nn201002D |
0.655 |
|
| 2011 |
Jia Y, Cao A, Bai X, Li Z, Zhang L, Guo N, Wei J, Wang K, Zhu H, Wu D, Ajayan PM. Achieving high efficiency silicon-carbon nanotube heterojunction solar cells by acid doping. Nano Letters. 11: 1901-5. PMID 21452837 DOI: 10.1021/Nl2002632 |
0.642 |
|
| 2011 |
Fan G, Zhu H, Wang K, Wei J, Li X, Shu Q, Guo N, Wu D. Graphene/silicon nanowire Schottky junction for enhanced light harvesting. Acs Applied Materials & Interfaces. 3: 721-5. PMID 21323376 DOI: 10.1021/Am1010354 |
0.382 |
|
| 2011 |
Li Z, Zhu H, Xie D, Wang K, Cao A, Wei J, Li X, Fan L, Wu D. Flame synthesis of few-layered graphene/graphite films. Chemical Communications (Cambridge, England). 47: 3520-2. PMID 21308121 DOI: 10.1039/C0Cc05139J |
0.558 |
|
| 2011 |
Fan L, Li Z, Xu Z, Wang K, Wei J, Li X, Zou J, Wu D, Zhu H. Step driven competitive epitaxial and self-limited growth of graphene on copper surface Aip Advances. 1: 32145. DOI: 10.1063/1.3631775 |
0.308 |
|
| 2011 |
Jia Y, Li P, Gui X, Wei J, Wang K, Zhu H, Wu D, Zhang L, Cao A, Xu Y. Encapsulated carbon nanotube-oxide-silicon solar cells with stable 10% efficiency Applied Physics Letters. 98: 133115. DOI: 10.1063/1.3573829 |
0.638 |
|
| 2011 |
Wang L, Wang M, Huang Z, Cui T, Gui X, Kang F, Wang K, Wu D. Capacitive deionization of NaCl solutions using carbon nanotube sponge electrodes Journal of Materials Chemistry. 21: 18295-18299. DOI: 10.1039/C1Jm13105B |
0.535 |
|
| 2011 |
Li Z, Zhang P, Wang K, Xu Z, Wei J, Fan L, Wu D, Zhu H. Graphene buffered galvanic synthesis of graphene–metal hybrids Journal of Materials Chemistry. 21: 13241-13246. DOI: 10.1039/C1Jm11695A |
0.327 |
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| 2011 |
Cui T, Lv R, Huang Z, Wang M, Kang F, Wang K, Wu D. Temperature effect on synthesis of different carbon nanostructures by sulfur-assisted chemical vapor deposition Materials Letters. 65: 587-590. DOI: 10.1016/J.Matlet.2010.10.073 |
0.443 |
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| 2011 |
Cui T, Lv R, Huang Z, Zhu H, Zhang J, Li Z, Jia Y, Kang F, Wang K, Wu D. Synthesis of nitrogen-doped carbon thin films and their applications in solar cells Carbon. 49: 5022-5028. DOI: 10.1016/J.Carbon.2011.07.019 |
0.441 |
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| 2011 |
Li Z, Zhu H, Wang K, Wei J, Gui X, Li X, Li C, Fan L, Sun P, Wu D. Ethanol flame synthesis of highly transparent carbon thin films Carbon. 49: 237-241. DOI: 10.1016/J.Carbon.2010.09.009 |
0.448 |
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| 2011 |
Gui X, Li H, Wang K, Wei J, Jia Y, Li Z, Fan L, Cao A, Zhu H, Wu D. Recyclable carbon nanotube sponges for oil absorption Acta Materialia. 59: 4798-4804. DOI: 10.1016/J.Actamat.2011.04.022 |
0.551 |
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| 2011 |
Li P, Wang S, Jia Y, Li Z, Ji C, Zhang L, Li H, Shi E, Bian Z, Huang C, Wei J, Wang K, Zhu H, Wu D, Cao A. CuI-Si heterojunction solar cells with carbon nanotube films as flexible top-contact electrodes Nano Research. 4: 979-986. DOI: 10.1007/S12274-011-0154-5 |
0.792 |
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| 2011 |
Zhang L, Fan L, Li Z, Shi E, Li X, Li H, Ji C, Jia Y, Wei J, Wang K, Zhu H, Wu D, Cao A. Graphene-CdSe nanobelt solar cells with tunable configurations Nano Research. 4: 891-900. DOI: 10.1007/S12274-011-0145-6 |
0.764 |
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| 2011 |
Li H, Gui X, Zhang L, Ji C, Zhang Y, Sun P, Wei J, Wang K, Zhu H, Wu D, Cao A. Enhanced Transport of Nanoparticles Across a Porous Nanotube Sponge Advanced Functional Materials. 21: 3439-3445. DOI: 10.1002/Adfm.201100823 |
0.553 |
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| 2010 |
Li H, Gui X, Zhang L, Wang S, Ji C, Wei J, Wang K, Zhu H, Wu D, Cao A. Carbon nanotube sponge filters for trapping nanoparticles and dye molecules from water. Chemical Communications (Cambridge, England). 46: 7966-8. PMID 20865208 DOI: 10.1039/C0Cc03290E |
0.603 |
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| 2010 |
Zhang L, Jia Y, Wang S, Li Z, Ji C, Wei J, Zhu H, Wang K, Wu D, Shi E, Fang Y, Cao A. Carbon nanotube and CdSe nanobelt Schottky junction solar cells. Nano Letters. 10: 3583-9. PMID 20715803 DOI: 10.1021/Nl101888Y |
0.804 |
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| 2010 |
Cui T, Lv R, Kang F, Hu Q, Gu J, Wang K, Wu D. Synthesis and enhanced field-emission of thin-walled, open-ended, and well-aligned N-doped carbon nanotubes. Nanoscale Research Letters. 5: 941-8. PMID 20672122 DOI: 10.1007/S11671-010-9586-1 |
0.506 |
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| 2010 |
Shu Q, Wei J, Wang K, Song S, Guo N, Jia Y, Li Z, Xu Y, Cao A, Zhu H, Wu D. Efficient energy conversion of nanotube/nanowire-based solar cells. Chemical Communications (Cambridge, England). 46: 5533-5. PMID 20577694 DOI: 10.1039/C0Cc00512F |
0.643 |
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| 2010 |
Li X, Zhu H, Wang K, Cao A, Wei J, Li C, Jia Y, Li Z, Wu D. Graphene-on-silicon schottky junction solar cells Advanced Materials. 22: 2743-2748. PMID 20379996 DOI: 10.1002/Adma.200904383 |
0.64 |
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| 2010 |
Li X, Li C, Zhu H, Wang K, Wei J, Xu E, Li Z, Luo S, Lei Y, Wu D. Hybrid thin films of graphene nanowhiskers and amorphous carbon as transparent conductors Chemical Communications. 46: 3502-3504. PMID 20376392 DOI: 10.1039/C002092C |
0.475 |
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| 2010 |
Gui X, Cao A, Wei J, Li H, Jia Y, Li Z, Fan L, Wang K, Zhu H, Wu D. Soft, highly conductive nanotube sponges and composites with controlled compressibility. Acs Nano. 4: 2320-6. PMID 20361757 DOI: 10.1021/Nn100114D |
0.617 |
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| 2010 |
Gui X, Wang K, Cao A, Wei J, Lv R, Kang F, Shu Q, Jia Y, Wu D. Selective microwave absorption of iron-rich carbon nanotube composites. Journal of Nanoscience and Nanotechnology. 10: 1808-13. PMID 20355578 DOI: 10.1166/Jnn.2010.2137 |
0.609 |
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| 2010 |
Li X, Jia Y, Wei J, Zhu H, Wang K, Wu D, Cao A. Solar cells and light sensors based on nanoparticle-grafted carbon nanotube films. Acs Nano. 4: 2142-8. PMID 20222675 DOI: 10.1021/Nn901563Y |
0.654 |
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| 2010 |
Gui X, Wei J, Wang K, Cao A, Zhu H, Jia Y, Shu Q, Wu D. Carbon nanotube sponges. Advanced Materials (Deerfield Beach, Fla.). 22: 617-21. PMID 20217760 DOI: 10.1002/Adma.200902986 |
0.683 |
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| 2010 |
Xia X, Wang S, Jia Y, Bian Z, Wu D, Zhang L, Cao A, Huang C. Infrared-transparent polymer solar cells Journal of Materials Chemistry. 20: 8478. DOI: 10.1039/C0Jm02406F |
0.6 |
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| 2010 |
Li Z, Jia Y, Wei J, Wang K, Shu Q, Gui X, Zhu H, Cao A, Wu D. Large area, highly transparent carbon nanotube spiderwebs for energy harvesting Journal of Materials Chemistry. 20: 7236. DOI: 10.1039/C0Jm01361G |
0.706 |
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| 2010 |
Li C, Li Z, Zhu H, Wang K, Wei J, Li X, Sun P, Zhang H, Wu D. Graphene nano-"patches" on a carbon nanotube network for highly transparent/conductive thin film applications Journal of Physical Chemistry C. 114: 14008-14012. DOI: 10.1021/Jp1041487 |
0.515 |
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| 2010 |
Jia Y, Li P, Wei J, Cao A, Wang K, Li C, Zhuang D, Zhu H, Wu D. Carbon nanotube films by filtration for nanotube-silicon heterojunction solar cells Materials Research Bulletin. 45: 1401-1405. DOI: 10.1016/J.Materresbull.2010.06.045 |
0.665 |
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| 2010 |
Gui X, Wei J, Wang K, Xu E, Lv R, Zhu D, Guo Z, Kang F, Zhu Y, Li D, Zhu H, Wu D. Super-low turn-on and threshold electric fields of plasma-treated partly Fe-filled carbon nanotube films Materials Research Bulletin. 45: 568-571. DOI: 10.1016/J.Materresbull.2010.01.015 |
0.373 |
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| 2010 |
Qinke S, Wei J, Wang K, Gui X, Ma C, Zhu H, Jia Y, Li X, Guo N, Wu D. Fabrication and field emission properties of multi-walled carbon nanotube/silicon nanowire array Journal of Physics and Chemistry of Solids. 71: 708-711. DOI: 10.1016/J.Jpcs.2009.12.072 |
0.433 |
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| 2010 |
Xu E, Wei J, Wang K, Li Z, Gui X, Jia Y, Zhu H, Wu D. Doped carbon nanotube array with a gradient of nitrogen concentration Carbon. 48: 3097-3102. DOI: 10.1016/J.Carbon.2010.04.046 |
0.511 |
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| 2010 |
Guo N, Wei J, Shu Q, Jia Y, Li Z, Zhang K, Zhu H, Wang K, Song S, Xu Y, Wu D. Fabrication of silicon microwire arrays for photovoltaic applications Applied Physics A. 102: 109-114. DOI: 10.1007/S00339-010-6009-1 |
0.454 |
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| 2009 |
Shu Q, Wei J, Wang K, Zhu H, Li Z, Jia Y, Gui X, Guo N, Li X, Ma C, Wu D. Hybrid heterojunction and photoelectrochemistry solar cell based on silicon nanowires and double-walled carbon nanotubes. Nano Letters. 9: 4338-42. PMID 19852483 DOI: 10.1021/Nl902581K |
0.49 |
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| 2009 |
Gui X, Ye W, Wei J, Wang K, Lv R, Zhu H, Kang F, Gu J, Wu D. Optimization of electromagnetic matching of Fe-filled carbon nanotubes/ferrite composites for microwave absorption Journal of Physics D. 42: 75002. DOI: 10.1088/0022-3727/42/7/075002 |
0.415 |
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| 2009 |
Gu W, Zhang W, Li X, Zhu H, Wei J, Li Z, Shu Q, Wang C, Wang K, Shen W, Kang F, Wu D. Graphene sheets from worm-like exfoliated graphite Journal of Materials Chemistry. 19: 3367-3369. DOI: 10.1039/B904093P |
0.306 |
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| 2009 |
Zhu H, Wei J, Wang K, Wu D. Applications of carbon materials in photovoltaic solar cells Solar Energy Materials and Solar Cells. 93: 1461-1470. DOI: 10.1016/J.Solmat.2009.04.006 |
0.476 |
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| 2009 |
Zhu H, Masarapu C, Wei J, Wang K, Wu D, Wei B. Temperature dependence of field emission of single-walled carbon nanotube thin films Physica E-Low-Dimensional Systems & Nanostructures. 41: 1277-1280. DOI: 10.1016/J.Physe.2009.02.010 |
0.401 |
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| 2009 |
Li C, Zhu H, Suenaga K, Wei J, Wang K, Wu D. Diameter dependent growth mode of carbon nanotubes on nanoporous SiO2 substrates Materials Letters. 63: 1366-1369. DOI: 10.1016/J.Matlet.2009.03.025 |
0.448 |
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| 2009 |
Gui X, Wang K, Wang W, Wei J, Zhang X, Lv R, Jia Y, Shu Q, Kang F, Wu D. The decisive roles of chlorine-contained precursor and hydrogen for the filling Fe nanowires into carbon nanotubes Materials Chemistry and Physics. 113: 634-637. DOI: 10.1016/J.Matchemphys.2008.08.032 |
0.469 |
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| 2009 |
Wang C, Lv R, Kang F, Gu J, Gui X, Wu D. Synthesis and application of iron-filled carbon nanotubes coated with FeCo alloy nanoparticles Journal of Magnetism and Magnetic Materials. 321: 1924-1927. DOI: 10.1016/J.Jmmm.2008.12.013 |
0.387 |
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| 2009 |
Li X, Li C, Zhu H, Wei J, Wang K, Wu D. Force- and light-controlled electrical transport characteristics of carbon nanotube 1D/2D bulk junctions Chemical Physics Letters. 481: 224-228. DOI: 10.1016/J.Cplett.2009.09.097 |
0.462 |
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| 2009 |
Lv R, Kang F, Zhu D, Zhu Y, Gui X, Wei J, Gu J, Li D, Wang K, Wu D. Enhanced field emission of open-ended, thin-walled carbon nanotubes filled with ferromagnetic nanowires Carbon. 47: 2709-2715. DOI: 10.1016/J.Carbon.2009.05.027 |
0.464 |
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| 2009 |
Lv R, Tsuge S, Gui X, Takai K, Kang F, Enoki T, Wei J, Gu J, Wang K, Wu D. In situ synthesis and magnetic anisotropy of ferromagnetic buckypaper Carbon. 47: 1141-1145. DOI: 10.1016/J.Carbon.2008.12.048 |
0.4 |
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| 2009 |
Gui X, Wang K, Wei J, Lü R, Shu Q, Jia Y, Wang C, Zhu H, Wu D. Microwave absorbing properties and magnetic properties of different carbon nanotubes Science China-Technological Sciences. 52: 227-231. DOI: 10.1007/S11431-009-0020-9 |
0.409 |
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| 2009 |
Shu Q, Wang K, Wei J, Zhu H, Li X, Chen X, Jia Y, Gui X, Xu E, Wu D. Light emission of double-walled carbon nanotube filaments doped with yttrium and europium Science China-Technological Sciences. 52: 252-255. DOI: 10.1007/S11431-009-0016-5 |
0.45 |
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| 2009 |
Li X, Zhu H, Wei J, Wang K, Xu E, Li Z, Wu D. Determination of band gaps of self-assembled carbon nanotube films using Tauc/Davis–Mott model Applied Physics A. 97: 341-344. DOI: 10.1007/S00339-009-5330-Z |
0.443 |
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| 2008 |
Lv R, Zou L, Gui X, Kang F, Zhu Y, Zhu H, Wei J, Gu J, Wang K, Wu D. High-yield bamboo-shaped carbon nanotubes from cresol for electrochemical application. Chemical Communications (Cambridge, England). 2046-8. PMID 18536816 DOI: 10.1039/B800233A |
0.524 |
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| 2008 |
Gong T, Zhang Y, Liu W, Wei J, Wang K, Wu D, Zhong M. Connection of macro-sized double-walled carbon nanotube strands by current-assisted laser irradiation Journal of Laser Applications. 20: 122-126. DOI: 10.2351/1.2900545 |
0.446 |
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| 2008 |
Lv R, Kang F, Gu J, Gui X, Wei J, Wang K, Wu D. Carbon nanotubes filled with ferromagnetic alloy nanowires: Lightweight and wide-band microwave absorber Applied Physics Letters. 93: 223105. DOI: 10.1063/1.3042099 |
0.442 |
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| 2008 |
Zhu H, Suenaga K, Wei J, Wang K, Wu D. Atom-Resolved Imaging of Carbon Hexagons of Carbon Nanotubes Journal of Physical Chemistry C. 112: 11098-11101. DOI: 10.1021/Jp804385A |
0.464 |
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| 2008 |
Gong T, Zhang Y, Liu W, Wei J, Jia Y, Wang K, Wu D, Zhong M. Reinforcing the bandaged joint of double-walled carbon nanotube strands by intercalation of epoxy resin Materials Letters. 62: 4431-4433. DOI: 10.1016/J.Matlet.2008.07.056 |
0.402 |
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| 2008 |
Gui X, Wei J, Wang K, Wang W, Lv R, Chang J, Kang F, Gu J, Wu D. Improved filling rate and enhanced magnetic properties of Fe-filled carbon nanotubes by annealing and magnetic separation Materials Research Bulletin. 43: 3441-3446. DOI: 10.1016/J.Materresbull.2008.01.028 |
0.356 |
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| 2008 |
Zhang Y, Liu W, Wu C, Gong T, Wei J, Ma M, Wang K, Zhong M, Wu D. Photoluminescence of Fe2O3 nanoparticles prepared by laser oxidation of Fe catalysts in carbon nanotubes Materials Research Bulletin. 43: 3490-3494. DOI: 10.1016/J.Materresbull.2008.01.025 |
0.305 |
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| 2008 |
Zhu H, Suenaga K, Wei J, Wang K, Wu D. A strategy to control the chirality of single-walled carbon nanotubes Journal of Crystal Growth. 310: 5473-5476. DOI: 10.1016/J.Jcrysgro.2008.09.174 |
0.495 |
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| 2008 |
Gong T, Zhang Y, Liu W, Wei J, Jia Y, Wang K, Wu D, Zhong M. Structural transformation of double-walled carbon nanotube bundles into multi-walled carbon nanotubes induced by current treatment Diamond and Related Materials. 17: 158-161. DOI: 10.1016/J.Diamond.2007.11.017 |
0.48 |
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| 2008 |
Jia Y, Wei J, Wang K, Cao A, Shu Q, Gui X, Zhu Y, Zhuang D, Zhang G, Ma B, Wang L, Liu W, Wang Z, Luo J, Wu D. Nanotube–Silicon Heterojunction Solar Cells Advanced Materials. 20: 4594-4598. DOI: 10.1002/Adma.200801810 |
0.514 |
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| 2007 |
Wei J, Jia Y, Shu Q, Gu Z, Wang K, Zhuang D, Zhang G, Wang Z, Luo J, Cao A, Wu D. Double-walled carbon nanotube solar cells. Nano Letters. 7: 2317-21. PMID 17608444 DOI: 10.1021/Nl070961C |
0.662 |
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| 2007 |
Zhang Y, Gong T, Jia Y, Liu W, Wei J, Ma M, Wang K, Zhong M, Wu D, Cao A. Tailoring the intrinsic metallic states of double-walled nanotube films by self-soldered laser welding Applied Physics Letters. 91: 233109. DOI: 10.1063/1.2821830 |
0.613 |
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| 2007 |
Lv R, Cao A, Kang F, Wang W, Wei J, Gu J, Wang K, Wu D. Single-Crystalline Permalloy Nanowires in Carbon Nanotubes: Enhanced Encapsulation and Magnetization Journal of Physical Chemistry C. 111: 11475-11479. DOI: 10.1021/Jp0730803 |
0.687 |
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| 2007 |
Zhang Y, Gong T, Wei J, Liu W, Wang K, Wu D. Structural Changes in Double-Walled Carbon Nanotube Strands Induced by Ultraviolet Laser Irradiation Journal of Physical Chemistry C. 111: 2901-2905. DOI: 10.1021/Jp0666838 |
0.41 |
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| 2007 |
Wei J, Zhu H, Jia Y, Shu Q, Li C, Wang K, Wei B, Zhu Y, Wang Z, Luo J, Liu W, Wu D. The effect of sulfur on the number of layers in a carbon nanotube Carbon. 45: 2152-2158. DOI: 10.1016/J.Carbon.2007.07.001 |
0.483 |
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| 2007 |
Gong T, Zhang Y, Liu W, Wei J, Li C, Wang K, Wu D, Zhong M. Connection of macro-sized double-walled carbon nanotube strands by bandaging with double-walled carbon nanotube films Carbon. 45: 2235-2240. DOI: 10.1016/J.Carbon.2007.06.029 |
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| 2007 |
Lv R, Kang F, Wang W, Wei J, Gu J, Wang K, Wu D. Effect of using chlorine-containing precursors in the synthesis of FeNi-filled carbon nanotubes Carbon. 45: 1433-1438. DOI: 10.1016/J.Carbon.2007.03.032 |
0.507 |
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| 2007 |
Wang W, Wang K, Lv R, Wei J, Zhang X, Kang F, Chang J, Shu Q, Wang Y, Wu D. Synthesis of Fe-filled thin-walled carbon nanotubes with high filling ratio by using dichlorobenzene as precursor Carbon. 45: 1127-1129. DOI: 10.1016/J.Carbon.2006.12.029 |
0.47 |
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| 2007 |
Li C, Wang K, Wei J, Wei B, Zhu H, Wang Z, Luo J, Liu W, Zheng M, Wu D. Luminescence of carbon nanotube bulbs Chinese Science Bulletin. 52: 113-117. DOI: 10.1007/S11434-007-2211-8 |
0.508 |
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| 2007 |
Jia Y, Wei J, Shu Q, Chang J, Wang K, Wang Z, Luo J, Liu W, Zheng M, Wu D. Spread of double-walled carbon nanotube membrane Chinese Science Bulletin. 52: 997-1000. DOI: 10.1007/S11434-007-0068-5 |
0.391 |
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| 2007 |
Lv R, Kang F, Wang W, Wei J, Zhang X, Huang Z, Gu J, Wang K, Wu D. Soft magnetic performance improvement of Fe‐filled carbon nanotubes by water‐assisted pyrolysis route Physica Status Solidi (a). 204: 867-873. DOI: 10.1002/Pssa.200622356 |
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| 2006 |
Wei J, Sun JL, Zhu JL, Wang K, Wang Z, Luo J, Wu D, Cao A. Carbon nanotube macrobundles for light sensing. Small (Weinheim An Der Bergstrasse, Germany). 2: 988-93. PMID 17193155 DOI: 10.1002/Smll.200600191 |
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| 2006 |
Sun J, Wei J, Zhu J, Xu D, Liu X, Sun H, Wu D, Wu N. Photoinduced currents in carbon nanotube/metal heterojunctions Applied Physics Letters. 88: 131107. DOI: 10.1063/1.2189454 |
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| 2006 |
Li Y, Zhu Y, Zhao Y, Wu D, Luan Z. Different morphologies of carbon nanotubes effect on the lead removal from aqueous solution Diamond and Related Materials. 15: 90-94. DOI: 10.1016/J.Diamond.2005.07.004 |
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| 2006 |
Gu Z, Wang K, Wei J, Li C, Jia Y, Wang Z, Luo J, Wu D. Tensile properties of ultrathin double-walled carbon nanotube membranes Carbon. 44: 3315-3319. DOI: 10.1016/J.Carbon.2006.06.013 |
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| 2006 |
Li Y, Wang K, Wei J, Gu Z, Shu Q, Li C, Wang W, Wang Z, Luo J, Wu D. Improving tensile properties of double-walled carbon nanotube strands by intercalation of epoxy resin Carbon. 44: 176-179. DOI: 10.1016/J.Carbon.2005.08.011 |
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| 2006 |
Wei J, Zhu H, Li Y, Chen B, Jia Y, Wang K, Wang Z, Liu W, Luo J, Zheng M, Wu D, Zhu Y, Wei B. Ultrathin Single–Layered Membranes from Double–Walled Carbon Nanotubes Advanced Materials. 18: 1695-1700. DOI: 10.1002/Adma.200501841 |
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| 2006 |
Xu C, Chen J, Cui Y, Han Q, Choo H, Liaw PK, Wu D. Influence of the Surface Treatment on the Deposition of Platinum Nanoparticles on the Carbon Nanotubes Advanced Engineering Materials. 8: 73-77. DOI: 10.1002/Adem.200500179 |
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| 2005 |
Li YH, Di Z, Ding J, Wu D, Luan Z, Zhu Y. Adsorption thermodynamic, kinetic and desorption studies of Pb2+ on carbon nanotubes. Water Research. 39: 605-9. PMID 15707633 DOI: 10.1016/J.Watres.2004.11.004 |
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| 2005 |
Zhang Y, Gong T, Liu W, Zhang X, Chang J, Wang K, Wu D. Strong visible light emission from well-aligned multiwalled carbon nanotube films under infrared laser irradiation Applied Physics Letters. 87: 173114. DOI: 10.1063/1.2117627 |
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| 2005 |
Adhikari AR, Huang MB, Wu D, Dovidenko K, Wei BQ, Vajtai R, Ajayan PM. Ion-implantation-prepared catalyst nanoparticles for growth of carbon nanotubes Applied Physics Letters. 86: 053104. DOI: 10.1063/1.1856699 |
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| 2005 |
Wei J, Ding J, Zhang X, Wu D, Wang Z, Luo J, Wang K. Coated double-walled carbon nanotubes with ceria nanoparticles Materials Letters. 59: 322-325. DOI: 10.1016/J.Matlet.2004.10.012 |
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| 2005 |
Shang H, Xie H, Zhu H, Dai F, Wu D, Wang W, Fang Y. Investigation of strain in individual multi-walled carbon nanotube by a novel moiré method Journal of Materials Processing Technology. 170: 108-111. DOI: 10.1016/J.Jmatprotec.2005.04.089 |
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| 2005 |
Pan W, Zhang X, Li S, Wu D, Mao Z. Measuring hydrogen storage capacity of carbon nanotubes by high-pressure microbalance International Journal of Hydrogen Energy. 30: 719-722. DOI: 10.1016/J.Ijhydene.2004.06.006 |
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| 2005 |
Li Y, Wang K, Wei J, Gu Z, Wang Z, Luo J, Wu D. Tensile properties of long aligned double-walled carbon nanotube strands Carbon. 43: 31-35. DOI: 10.1016/J.Carbon.2004.08.017 |
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| 2004 |
Wei J, Zhu H, Wu D, Wei B. Carbon nanotube filaments in household light bulbs Applied Physics Letters. 84: 4869-4871. DOI: 10.1063/1.1762697 |
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| 2004 |
Wei J, Jiang B, Wu D, Wei B. Large-Scale Synthesis of Long Double-Walled Carbon Nanotubes The Journal of Physical Chemistry B. 108: 8844-8847. DOI: 10.1021/Jp049434X |
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| 2004 |
Xu C, Wu G, Liu Z, Wu D, Meek TT, Han Q. Preparation of copper nanoparticles on carbon nanotubes by electroless plating method Materials Research Bulletin. 39: 1499-1505. DOI: 10.1016/J.Materresbull.2004.04.021 |
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| 2004 |
Jiang B, Wei J, Ci L, Wu D. Preparation of double-walled carbon nanotubes Chinese Science Bulletin. 49: 107-110. DOI: 10.1007/Bf02901750 |
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| 2003 |
Li Y, Luan Z, Xiao X, Zhou X, Xu C, Wu D, Wei B. Removal of Cu2+ ions from aqueous solutions by carbon nanotubes Adsorption Science & Technology. 21: 475-485. DOI: 10.1260/026361703769645807 |
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| 2003 |
Wei J, Ci L, Jiang B, Li Y, Zhang X, Zhu H, Xu C, Wu D. Preparation of highly pure double-walled carbon nanotubes Journal of Materials Chemistry. 13: 1340. DOI: 10.1039/B300484H |
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| 2003 |
Li D, Zhang X, Sui G, Wu D, Liang J, Yi X. Toughness improvement of epoxy by incorporating carbon nanotubes into the resin Journal of Materials Science Letters. 22: 791-793. DOI: 10.1023/A:1023991522083 |
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| 2003 |
Zhu H, Jiang B, Xu C, Wu D. Synthesis of High Quality Single-Walled Carbon Nanotube Silks by the Arc Discharge Technique The Journal of Physical Chemistry B. 107: 6514-6518. DOI: 10.1021/Jp027490X |
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| 2003 |
Li X, Zhu H, Xu C, Mao Z, Wu D. Measuring hydrogen storage capacity of carbon nanotubes by tangent-mass method International Journal of Hydrogen Energy. 28: 1251-1253. DOI: 10.1016/S0360-3199(02)00237-9 |
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| 2003 |
Wei J, Li Y, Xu C, Wei B, Wu D. Structure and superconductivity of MgB2-carbon nanotube composites Materials Chemistry and Physics. 78: 785-790. DOI: 10.1016/S0254-0584(02)00391-7 |
0.44 |
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| 2003 |
Zhu H, Li X, Ci L, Xu C, Wu D, Mao Z. Hydrogen storage in heat-treated carbon nanofibers prepared by the vertical floating catalyst method Materials Chemistry and Physics. 78: 670-675. DOI: 10.1016/S0254-0584(02)00233-X |
0.365 |
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| 2003 |
Ci L, Zhu H, Wei B, Xu C, Wu D. Annealing amorphous carbon nanotubes for their application in hydrogen storage Applied Surface Science. 205: 39-43. DOI: 10.1016/S0169-4332(02)00897-8 |
0.482 |
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| 2003 |
Li Y, Wang S, Zhang X, Wei J, Xu C, Luan Z, Wu D. Adsorption of fluoride from water by aligned carbon nanotubes Materials Research Bulletin. 38: 469-476. DOI: 10.1016/S0025-5408(02)01063-2 |
0.381 |
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| 2003 |
Wei J, Jiang B, Zhang X, Zhu H, Wu D. Raman study on double-walled carbon nanotubes Chemical Physics Letters. 376: 753-757. DOI: 10.1016/S0009-2614(03)01076-5 |
0.47 |
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| 2003 |
Li Y, Ding J, Luan Z, Di Z, Zhu Y, Xu C, Wu D, Wei B. Competitive adsorption of Pb2+, Cu2+ and Cd2+ ions from aqueous solutions by multiwalled carbon nanotubes Carbon. 41: 2787-2792. DOI: 10.1016/S0008-6223(03)00392-0 |
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| 2003 |
Wei J, Zhu H, Jiang B, Ci L, Wu D. Electronic properties of double-walled carbon nanotube films Carbon. 41: 2495-2500. DOI: 10.1016/S0008-6223(03)00295-1 |
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| 2003 |
Li X, Zhu H, Jiang B, Ding J, Xu C, Wu D. High-yield synthesis of multi-walled carbon nanotubes by water-protected arc discharge method Carbon. 41: 1664-1666. DOI: 10.1016/S0008-6223(03)00128-3 |
0.456 |
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| 2003 |
Li Y, Wang S, Luan Z, Ding J, Xu C, Wu D. Adsorption of cadmium(II) from aqueous solution by surface oxidized carbon nanotubes Carbon. 41: 1057-1062. DOI: 10.1016/S0008-6223(02)00440-2 |
0.39 |
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| 2003 |
Wang S, Li Y, Xiaoyan G, Zhao H, Luan Z, Xu C, Wu D. Surface characteristics of modified carbon nanotubes and its application in lead adsorption from aqueous solution Chinese Science Bulletin. 48: 441-443. DOI: 10.1007/Bf03183246 |
0.428 |
|
| 2002 |
Zhu H, Jiang B, Xu C, Wu D. Long super-bundles of single-walled carbon nanotubes. Chemical Communications (Cambridge, England). 1858-9. PMID 12271644 DOI: 10.1039/B205401A |
0.52 |
|
| 2002 |
Ma R, Bando Y, Zhu H, Sato T, Xu C, Wu D. Hydrogen uptake in boron nitride nanotubes at room temperature. Journal of the American Chemical Society. 124: 7672-3. PMID 12083917 DOI: 10.1021/Ja026030E |
0.412 |
|
| 2002 |
Zhang X, Cao A, Sun Q, Xu C, Wu D. Oxidation and Opening of Well-Aligned Carbon Nanotube Tips Materials Transactions. 43: 1707-1710. DOI: 10.2320/Matertrans.43.1707 |
0.688 |
|
| 2002 |
Wang S, Li Y, Zhao D, Xu C, Luan Z, Liang J, Wu D. Preparation of alumina supported on carbon nanotubes and its application in fluoride adsorption from an aqueous solution Chinese Science Bulletin. 47: 722-724. DOI: 10.1360/02Tb9162 |
0.447 |
|
| 2002 |
Zhu H, Li X, Ci L, Xu C, Liang J, Wu D. Synthesis of single-walled carbon nanotubes by the vertical floating catalyst method Chinese Science Bulletin. 47: 158-161. DOI: 10.1360/02Tb9037 |
0.471 |
|
| 2002 |
Ma R, Bando Y, Sato T, Golberg D, Zhu H, Xu C, Wu D. Synthesis of boron nitride nanofibers and measurement of their hydrogen uptake capacity Applied Physics Letters. 81: 5225-5227. DOI: 10.1063/1.1534415 |
0.34 |
|
| 2002 |
Wei J, Jiang B, Li Y, Xu C, Wu D, Wei B. Straight boron carbide nanorods prepared from carbon nanotubes Journal of Materials Chemistry. 12: 3121-3124. DOI: 10.1039/B204792F |
0.515 |
|
| 2002 |
Wei, Vajtai R, Choi YY, Ajayan PM, Zhu H, Xu C, Wu D. Structural Characterizations of Long Single-Walled Carbon Nanotube Strands Nano Letters. 2: 1105-1107. DOI: 10.1021/Nl025719E |
0.5 |
|
| 2002 |
Cao A, Zhang X, Xu C, Wei B, Wu D. Tandem structure of aligned carbon nanotubes on Au and its solar thermal absorption Solar Energy Materials and Solar Cells. 70: 481-486. DOI: 10.1016/S0927-0248(01)00083-6 |
0.687 |
|
| 2002 |
Zhu H, Ci L, Xu C, Liang J, Wu D. Growth mechanism of Y-junction carbon nanotubes Diamond and Related Materials. 11: 1349-1352. DOI: 10.1016/S0925-9635(01)00745-2 |
0.479 |
|
| 2002 |
Zhu H, Li C, Li X, Xu C, Mao Z, Liang J, Wu D. Hydrogen storage by platelet-carbon fibers at room temperature Materials Letters. 57: 32-35. DOI: 10.1016/S0167-577X(02)00694-8 |
0.39 |
|
| 2002 |
Zhu H, Li X, Xu C, Wu D. Co-synthesis of single-walled carbon nanotubes and carbon fibers Materials Research Bulletin. 37: 177-183. DOI: 10.1016/S0025-5408(01)00811-X |
0.507 |
|
| 2002 |
Li Y, Ding J, Chen J, Xu C, Wei B, Liang J, Wu D. Preparation of ceria nanoparticles supported on carbon nanotubes Materials Research Bulletin. 37: 313-318. DOI: 10.1016/S0025-5408(01)00769-3 |
0.415 |
|
| 2002 |
Li Y, Wei J, Zhang X, Xu C, Wu D, Lu L, Wei B. Mechanical and electrical properties of carbon nanotube ribbons Chemical Physics Letters. 365: 95-100. DOI: 10.1016/S0009-2614(02)01434-3 |
0.467 |
|
| 2002 |
Zhang X, Cao A, Wei B, Li Y, Wei J, Xu C, Wu D. Rapid growth of well-aligned carbon nanotube arrays Chemical Physics Letters. 362: 285-290. DOI: 10.1016/S0009-2614(02)01025-4 |
0.665 |
|
| 2002 |
Li Y, Wang S, Wei J, Zhang X, Xu C, Luan Z, Wu D, Wei B. Lead Adsorption On Carbon Nanotubes Chemical Physics Letters. 357: 263-266. DOI: 10.1016/S0009-2614(02)00502-X |
0.399 |
|
| 2002 |
Zhang X, Cao A, Li Y, Xu C, Liang J, Wu D, Wei B. Self-organized arrays of carbon nanotube ropes Chemical Physics Letters. 351: 183-188. DOI: 10.1016/S0009-2614(01)01348-3 |
0.686 |
|
| 2002 |
Zhu H, Xu C, Wei B, Wu D. A new method for synthesizing double-walled carbon nanotubes Carbon. 40: 2023-2025. DOI: 10.1016/S0008-6223(02)00143-4 |
0.497 |
|
| 2001 |
Xu C, Zeng X, Wei B, Zhang M, Wu D. A Mechanism of Diamond Growth with Carbon Nanotube Nucleation Agent by Hot-Filament Chemical Vapor Deposition Materials Transactions. 42: 1753-1757. DOI: 10.2320/Matertrans.42.1753 |
0.494 |
|
| 2001 |
Cao A, Zhang X, Xu C, Liang J, Wu D, Wei B. Aligned carbon nanotube growth under oxidative ambient Journal of Materials Research. 16: 3107-3110. DOI: 10.1557/Jmr.2001.0428 |
0.686 |
|
| 2001 |
Cao A, Zhang X, Xu C, Liang J, Wu D, Chen X, Wei B, Ajayan PM. Grapevine-like growth of single walled carbon nanotubes among vertically aligned multiwalled nanotube arrays Applied Physics Letters. 79: 1252-1254. DOI: 10.1063/1.1399005 |
0.673 |
|
| 2001 |
Cao A, Zhang X, Wei J, Li Y, Xu C, Liang aJ, Wu D, Wei B. Macroscopic Three-Dimensional Arrays of Fe Nanoparticles Supported in Aligned Carbon Nanotubes Journal of Physical Chemistry B. 105: 11937-11940. DOI: 10.1021/Jp0127521 |
0.638 |
|
| 2001 |
Cao A, Zhang X, Xu C, Liang J, Wu D, Wei B. Synthesis of well-aligned carbon nanotube network on a gold-patterned quartz substrate Applied Surface Science. 181: 234-238. DOI: 10.1016/S0169-4332(01)00396-8 |
0.651 |
|
| 2001 |
Zhu H, Cao A, Li X, Xu C, Mao Z, Ruan D, Liang J, Wu D. Hydrogen adsorption in bundles of well-aligned carbon nanotubes at room temperature Applied Surface Science. 178: 50-55. DOI: 10.1016/S0169-4332(01)00309-9 |
0.664 |
|
| 2001 |
Cao A, Zhang X, Xu C, Liang J, Wu D, Wei B. Carbon nanotube dendrites: availability and their growth model Materials Research Bulletin. 36: 2519-2523. DOI: 10.1016/S0025-5408(01)00727-9 |
0.664 |
|
| 2001 |
Ci L, Wei B, Xu C, Liang J, Wu D, Xie S, Zhou W, Li Y, Liu Z, Tang D. Crystallization behavior of the amorphous carbon nanotubes prepared by the CVD method Journal of Crystal Growth. 233: 823-828. DOI: 10.1016/S0022-0248(01)01606-2 |
0.523 |
|
| 2001 |
Li Y, Wang S, Cao A, Zhao D, Zhang X, Xu C, Luan Z, Ruan D, Liang J, Wu D, Wei B. Adsorption of fluoride from water by amorphous alumina supported on carbon nanotubes Chemical Physics Letters. 350: 412-416. DOI: 10.1016/S0009-2614(01)01351-3 |
0.612 |
|
| 2001 |
Cao A, Xu C, Liang J, Wu D, Wei B. X-ray diffraction characterization on the alignment degree of carbon nanotubes Chemical Physics Letters. 344: 13-17. DOI: 10.1016/S0009-2614(01)00671-6 |
0.648 |
|
| 2001 |
Cao A, Zhu H, Zhang X, Li X, Ruan D, Xu C, Wei B, Liang J, Wu D. Hydrogen storage of dense-aligned carbon nanotubes Chemical Physics Letters. 342: 510-514. DOI: 10.1016/S0009-2614(01)00619-4 |
0.662 |
|
| 2001 |
Cao A, Ci L, Li D, Wei B, Xu C, Liang J, Wu D. Vertical aligned carbon nanotubes grown on Au film and reduction of threshold field in field emission Chemical Physics Letters. 335: 150-154. DOI: 10.1016/S0009-2614(01)00003-3 |
0.642 |
|
| 2001 |
Li X, Zhu H, Ci L, Xu C, Mao Z, Wei B, Liang J, Wu D. Hydrogen uptake by graphitized multi-walled carbon nanotubes under moderate pressure and at room temperature Carbon. 39: 2077-2079. DOI: 10.1016/S0008-6223(01)00183-X |
0.441 |
|
| 2001 |
Cao A, Ci L, Wu G, Wei B, Xu C, Liang J, Wu D. An effective way to lower catalyst content in well-aligned carbon nanotube films Carbon. 39: 152-155. DOI: 10.1016/S0008-6223(00)00206-2 |
0.644 |
|
| 2001 |
Ci L, Wei J, Wei B, Liang J, Xu C, Wu D. Carbon nanofibers and single-walled carbon nanotubes prepared by the floating catalyst method Carbon. 39: 329-335. DOI: 10.1016/S0008-6223(00)00126-3 |
0.492 |
|
| 2000 |
Ma R, Wei B, Xu C, Liang J, Wu D. The Development of Carbon Nanotubes/RuO2·xH2O Electrodes for Electrochemical Capacitors Bulletin of the Chemical Society of Japan. 73: 1813-1816. DOI: 10.1246/Bcsj.73.1813 |
0.539 |
|
| 2000 |
Ma R, Wei B, Xu C, Liang J, Wu D. Catalytic growth of carbon nanofibers on a porous carbon nanotubes substrate Journal of Materials Science Letters. 19: 1929-1931. DOI: 10.1023/A:1006763400539 |
0.525 |
|
| 2000 |
Ci L, Wei B, Xu C, Liang J, Wu D. Carbon-coated iron carbide particles transformed from as-grown carbon filaments under laser irradiation Journal of Materials Science Letters. 19: 1769-1770. DOI: 10.1023/A:1006743405561 |
0.411 |
|
| 2000 |
Ci L, Wei J, Wei B, Xu C, Liang J, Wu D. Novel carbon filaments with carbon beads grown on their surface Journal of Materials Science Letters. 19: 21-22. DOI: 10.1023/A:1006735311501 |
0.482 |
|
| 2000 |
Ci L, Zhu H, Wei B, Xu C, Liang J, Wu D. Graphitization behavior of carbon nanofibers prepared by the floating catalyst method Materials Letters. 43: 291-294. DOI: 10.1016/S0167-577X(99)00276-1 |
0.504 |
|
| 2000 |
Ci L, Wei B, Xu C, Liang J, Wu D. Novel microstructure transformation of benzene-derived carbon filaments under laser irradiation Carbon. 38: 929-931. DOI: 10.1016/S0008-6223(00)00034-8 |
0.369 |
|
| 2000 |
Ci L, Li Y, Wei B, Liang J, Xu C, Wu D. Preparation of carbon nanofibers by the floating catalyst method Carbon. 38: 1933-1937. DOI: 10.1016/S0008-6223(00)00030-0 |
0.445 |
|
| 2000 |
Chen G, Xu C, Mao Z, Li Y, Zhu J, Ci L, Wei B, Liang J, Wu D. Deposition of the platinum crystals on the carbon nanotubes Chinese Science Bulletin. 45: 134-137. DOI: 10.1007/Bf02884657 |
0.503 |
|
| 1999 |
Ma R, Liang J, Wei B, Zhang B, Xu C, Wu D. Processing and Performance of Electric Double-Layer Capacitors with Block-Type Carbon Nanotube Electrodes Bulletin of the Chemical Society of Japan. 72: 2563-2566. DOI: 10.1246/Bcsj.72.2563 |
0.534 |
|
| 1999 |
Ci L, Wei B, Liang J, Xu C, Wu D. Preparation of Carbon Nanotubules by the Floating Catalyst Method Journal of Materials Science Letters. 18: 797-799. DOI: 10.1023/A:1006693117962 |
0.399 |
|
| 1999 |
Jia Z, Wang Z, Xu C, Liang J, Wei B, Wu D, Zhu S. Study on poly(methyl methacrylate)/carbon nanotube composites Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing. 271: 395-400. DOI: 10.1016/S0921-5093(99)00263-4 |
0.505 |
|
| 1999 |
Ci L, Zhu H, Wei B, Liang J, Xu C, Wu D. Phosphorus - a new element for promoting growth of carbon filaments by the floating catalyst method Carbon. 37: 1652-1654. DOI: 10.1016/S0008-6223(99)00166-9 |
0.357 |
|
| 1999 |
Jia Z, Wang Z, Liang J, Wei B, Wu D. Production of short multi-walled carbon nanotubes Carbon. 37: 903-906. DOI: 10.1016/S0008-6223(98)00229-2 |
0.535 |
|
| 1998 |
Zhu J, Mao D, Cao A, Wei B, Liang J, Xu C, Li D, Wu D. Carbon nanotubes : New material applied to field emission display Proceedings of Spie. 3560: 107-110. DOI: 10.1117/12.319657 |
0.611 |
|
| 1998 |
Xu C, Wei B, Liang J, Wu D. Structure and electrical resistivity of the Al-carbon nanotube composites Metals and Materials. 4: 620-623. DOI: 10.1007/Bf03026369 |
0.473 |
|
| 1997 |
Wei B, Liang J, Gao Z, Zhang J, Zhu Y, Li Y, Wu D. The transformation of fullerenes into diamond under different processing conditions Journal of Materials Processing Technology. 63: 573-578. DOI: 10.1016/S0924-0136(96)02686-6 |
0.351 |
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