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Ribbon aromaticity in double-chain planar B_nH₂^2― and Li₂B_nH₂ nanoribbon clusters up to n = 22: lithiated boron dihydride analogues of polyenesHUI BAI; QIANG CHEN; MIAO, Chang-Qing et al.PCCP. Physical chemistry chemical physics (Print). 2013, Vol 15, Num 43, pp 18872-18880, issn 1463-9076, 9 p.Article

Modulating the electronic properties of graphdiyne nanoribbonsLIN, Zheng-Zhe; QUN WEI; XUANMIN ZHU et al.Carbon (New York, NY). 2014, Vol 66, pp 504-510, issn 0008-6223, 7 p.Article

Electron transport channels and their manipulation by impurity in armchair-edge graphene nanoribbonsXIONGWEN CHEN; ZHENGANG SHI; BAOJU CHEN et al.Carbon (New York, NY). 2014, Vol 72, pp 365-371, issn 0008-6223, 7 p.Article

Gold Nanobelts as High Confinement Plasmonic WaveguidesANDERSON, Lindsey J. E; ZHEN, Yu-Rong; PAYNE, Courtney M et al.Nano letters (Print). 2013, Vol 13, Num 12, pp 6256-6261, issn 1530-6984, 6 p.Article

The donor/acceptor edge-modification: an effective strategy to modulate the electronic and magnetic behaviors of zigzag silicon carbon nanoribbonsXIULING DING; GUANGTAO YU; XURI HUANG et al.PCCP. Physical chemistry chemical physics (Print). 2013, Vol 15, Num 41, pp 18039-18047, issn 1463-9076, 9 p.Article

Spin filter effects in zigzag-edge graphene nanoribbons with symmetric and asymmetric edge hydrogenationsDENG, X. Q; ZHANG, Z. H; TANG, G. P et al.Carbon (New York, NY). 2014, Vol 66, pp 646-653, issn 0008-6223, 8 p.Article

Recent Progress and Challenges in Graphene Nanoribbon SynthesisLIANG MA; JINLAN WANG; FENG DING et al.ChemPhysChem (Print). 2013, Vol 14, Num 1, pp 47-54, issn 1439-4235, 8 p.Article

First-principles prediction of the transition from graphdiyne to a superlattice of carbon nanotubes and graphene nanoribbonsHONGXIA BU; MINGWEN ZHAO; AIZHU WANG et al.Carbon (New York, NY). 2013, Vol 65, pp 341-348, issn 0008-6223, 8 p.Article

Interfaces between graphene and double- or single-side fully hydrogenated graphenePODLIVAEV, A. I; OPENOV, L. A.Physica. E, low-dimentional systems and nanostructures. 2012, Vol 44, Num 9, pp 1894-1899, issn 1386-9477, 6 p.Article

Rapid photoresponse of single-crystalline selenium nanobeltsAIMIAO QIN; ZHOU LI; RUSEN YANG et al.Solid state communications. 2008, Vol 148, Num 3-4, pp 145-147, issn 0038-1098, 3 p.Article

Anomalous thermal transport along the grain boundaries of bicrystalline graphene nanoribbons from atomistic simulationsLIU, Te-Huan; LEE, Shang-Chin; PAO, Chun-Wei et al.Carbon (New York, NY). 2014, Vol 73, pp 432-442, issn 0008-6223, 11 p.Article

Scaled Synthesis of Boron Nitride Nanotubes, Nanoribbons, and Nanococoons Using Direct Feedstock Injection into an Extended-Pressure, Inductively-Coupled Thermal PlasmaFATHALIZADEH, Aidin; PHAM, Thang; MICKELSON, William et al.Nano letters (Print). 2014, Vol 14, Num 8, pp 4881-4886, issn 1530-6984, 6 p.Article

Synthesis of graphene nanoribbons with various widths and its application to thin-film transistorKYUNG TAE KIM; JAE WOONG JUNG; WON HO JO et al.Carbon (New York, NY). 2013, Vol 63, pp 202-209, issn 0008-6223, 8 p.Article

Limited robustness of edge magnetism in zigzag graphene nanoribbons with electrodesKROMPIEWSKI, S.Nanotechnology (Bristol. Print). 2014, Vol 25, Num 46, issn 0957-4484, 465201.1-465201.5Article

Effect of pentagon―heptagon defect on thermal transport properties in graphene nanoribbonsTAN, Shi-Hua; TANG, Li-Ming; XIE, Zhong-Xiang et al.Carbon (New York, NY). 2013, Vol 65, pp 181-186, issn 0008-6223, 6 p.Article

Multilayer graphene nanoribbons exhibit larger capacitance than their few-layer and single-layer graphene counterpartsSHUHUA GOH, Madeline; PUMERA, Martin.Electrochemistry communications. 2010, Vol 12, Num 10, pp 1375-1377, issn 1388-2481, 3 p.Article

Tribological properties of nanostripe surface structures—a design concept for improving tribological propertiesMIYAKE, K; NAKANO, M; KORENAGA, A et al.Journal of physics. D, Applied physics (Print). 2010, Vol 43, Num 46, issn 0022-3727, 465302.1-465302.14Article

A chemical reaction controlled mechanochemical route to construction of CuO nanoribbons for high performance lithium-ion batteriesKUNFENG CHEN; DONGFENG XUE.PCCP. Physical chemistry chemical physics (Print). 2013, Vol 15, Num 45, pp 19708-19714, issn 1463-9076, 7 p.Article

Chemical functionalization of graphene : GrapheneBOUKHVALOV, D. W; KATSNELSON, M. I.Journal of physics. Condensed matter (Print). 2009, Vol 21, Num 34, issn 0953-8984, 344205.1-344205.12Article

Graphene nanoribbons formed by a sonochemical graphene unzipping using flavin mononucleotide as a templateWOOJIN YOON; YONGGEUN LEE; HONGJE JANG et al.Carbon (New York, NY). 2015, Vol 81, pp 629-638, issn 0008-6223, 10 p.Article

Polyynes and flexible Si-H doped carbon nanoribbons by pulsed laser ablation of graphite in tetraethyl orthosilicateWU, C. H; CHEN, S. Y; SHEN, P et al.Carbon (New York, NY). 2014, Vol 67, pp 27-37, issn 0008-6223, 11 p.Article

Tubular graphene nanoribbons with attached manganese oxide nanoparticles for use as electrodes in high-performance supercapacitorsWU, Mao-Sung; FU, Yan-Hao.Carbon (New York, NY). 2013, Vol 60, pp 236-245, issn 0008-6223, 10 p.Article

Dimension Dependence of Negative Differential Thermal Resistance in Graphene NanoribbonsAI, Bao-Quan; ZHONG, Wei-Rong; BAMBI HU et al.Journal of physical chemistry. C. 2012, Vol 116, Num 25, pp 13810-13815, issn 1932-7447, 6 p.Article

Large-Gap Quantum Spin Hall Insulator in Single Layer Bismuth Monobromide Bi₄Br₄ZHOU, Jin-Jian; WANXIANG FENG; LIU, Cheng-Cheng et al.Nano letters (Print). 2014, Vol 14, Num 8, pp 4767-4771, issn 1530-6984, 5 p.Article