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    Dames, Christopher

    TitleMechanical Faculty Sci/Engr
    SchoolLawrence Berkeley National Lab
    DepartmentMaterials Sciences
    Address1 Cyclotron Road
    Berkeley CA 94720
    Phone510/643-2582
    vCardDownload vCard

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      Publications listed below are automatically derived from MEDLINE/PubMed and other sources, which might result in incorrect or missing publications. Researchers can login to make corrections and additions, or contact us for help.
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      1. Lee S, Hippalgaonkar K, Yang F, Hong J, Ko C, Suh J, Liu K, Wang K, Urban JJ, Zhang X, Dames C, Hartnoll SA, Delaire O, Wu J. Anomalously low electronic thermal conductivity in metallic vanadium dioxide. Science. 2017 Jan 27; 355(6323):371-374. PMID: 28126811.
        View in: PubMed
      2. Lee J, Lee W, Wehmeyer G, Dhuey S, Olynick DL, Cabrini S, Dames C, Urban JJ, Yang P. Investigation of phonon coherence and backscattering using silicon nanomeshes. Nat Commun. 2017 Jan 04; 8:14054. PMID: 28051081.
        View in: PubMed
      3. Wei Z, Wehmeyer G, Dames C, Chen Y. Geometric tuning of thermal conductivity in three-dimensional anisotropic phononic crystals. Nanoscale. 2016 Oct 7; 8(37):16612-20. PMID: 27424558.
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      4. Kilbane JD, Chan EM, Monachon C, Borys NJ, Levy ES, Pickel AD, Urban JJ, Schuck PJ, Dames C. Far-field optical nanothermometry using individual sub-50 nm upconverting nanoparticles. Nanoscale. 2016 Jun 2; 8(22):11611-6. PMID: 27216164.
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      5. Bao W, Pickel AD, Zhang Q, Chen Y, Yao Y, Wan J, Fu KK, Wang Y, Dai J, Zhu H, Drew D, Fuhrer M, Dames C, Hu L. Nanocarbon Paper: Flexible, High Temperature, Planar Lighting with Large Scale Printable Nanocarbon Paper (Adv. Mater. 23/2016). Adv Mater. 2016 Jun; 28(23):4566. PMID: 27281044.
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      6. Bao W, Pickel AD, Zhang Q, Chen Y, Yao Y, Wan J, Fu KK, Wang Y, Dai J, Zhu H, Drew D, Fuhrer M, Dames C, Hu L. Flexible, High Temperature, Planar Lighting with Large Scale Printable Nanocarbon Paper. Adv Mater. 2016 Jun; 28(23):4684-91. PMID: 27000725.
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      7. Natesan H, Hodges W, Choi J, Lubner S, Dames C, Bischof J. A Micro-Thermal Sensor for Focal Therapy Applications. Sci Rep. 2016; 6:21395. PMID: 26916460.
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      8. Suh J, Yu KM, Fu D, Liu X, Yang F, Fan J, Smith DJ, Zhang YH, Furdyna JK, Dames C, Walukiewicz W, Wu J. Simultaneous Enhancement of Electrical Conductivity and Thermopower of Bi2 Te3 by Multifunctionality of Native Defects. Adv Mater. 2015 Jun; 27(24):3681-6. PMID: 25974062.
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      9. Mishra V, Hardin CL, Garay JE, Dames C. A 3 omega method to measure an arbitrary anisotropic thermal conductivity tensor. Rev Sci Instrum. 2015 May; 86(5):054902. PMID: 26026546.
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      10. Lubner SD, Choi J, Wehmeyer G, Waag B, Mishra V, Natesan H, Bischof JC, Dames C. Reusable bi-directional 3? sensor to measure thermal conductivity of 100-┬Ám thick biological tissues. Rev Sci Instrum. 2015 Jan; 86(1):014905. PMID: 25638111.
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      11. Chen Z, Wong C, Lubner S, Yee S, Miller J, Jang W, Hardin C, Fong A, Garay JE, Dames C. A photon thermal diode. Nat Commun. 2014; 5:5446. PMID: 25399761.
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      12. Guo H, Khan MI, Cheng C, Fan W, Dames C, Wu J, Minor AM. Vanadium dioxide nanowire-based microthermometer for quantitative evaluation of electron beam heating. Nat Commun. 2014; 5:4986. PMID: 25307160.
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      13. Bao W, Myhro K, Zhao Z, Chen Z, Jang W, Jing L, Miao F, Zhang H, Dames C, Lau CN. In situ observation of electrostatic and thermal manipulation of suspended graphene membranes. Nano Lett. 2012 Nov 14; 12(11):5470-4. PMID: 23043470.
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      14. Dames C. Thermal materials: Pulling together to control heat flow. Nat Nanotechnol. 2012 Feb; 7(2):82-3. PMID: 22306894.
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      15. Wang Z, Alaniz JE, Jang W, Garay JE, Dames C. Thermal conductivity of nanocrystalline silicon: importance of grain size and frequency-dependent mean free paths. Nano Lett. 2011 Jun 8; 11(6):2206-13. PMID: 21553856.
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      16. Jang W, Chen Z, Bao W, Lau CN, Dames C. Thickness-dependent thermal conductivity of encased graphene and ultrathin graphite. Nano Lett. 2010 Oct 13; 10(10):3909-13. PMID: 20836537.
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      17. Chen CC, Bao W, Theiss J, Dames C, Lau CN, Cronin SB. Raman spectroscopy of ripple formation in suspended graphene. Nano Lett. 2009 Dec; 9(12):4172-6. PMID: 19807131.
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      18. Bao W, Miao F, Chen Z, Zhang H, Jang W, Dames C, Lau CN. Controlled ripple texturing of suspended graphene and ultrathin graphite membranes. Nat Nanotechnol. 2009 Sep; 4(9):562-6. PMID: 19734927.
        View in: PubMed
      19. Dames C, Chen S, Harris CT, Huang JY, Ren ZF, Dresselhaus MS, Chen G. A hot-wire probe for thermal measurements of nanowires and nanotubes inside a transmission electron microscope. Rev Sci Instrum. 2007 Oct; 78(10):104903. PMID: 17979450.
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