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Items: 26

1.

Catalyst discovery through megalibraries of nanomaterials.

Kluender EJ, Hedrick JL, Brown KA, Rao R, Meckes B, Du JS, Moreau LM, Maruyama B, Mirkin CA.

Proc Natl Acad Sci U S A. 2019 Jan 2;116(1):40-45. doi: 10.1073/pnas.1815358116. Epub 2018 Dec 17.

PMID:
30559201
2.

Carbon Nanotubes and Related Nanomaterials: Critical Advances and Challenges for Synthesis toward Mainstream Commercial Applications.

Rao R, Pint CL, Islam AE, Weatherup RS, Hofmann S, Meshot ER, Wu F, Zhou C, Dee N, Amama PB, Carpena-Nuñez J, Shi W, Plata DL, Penev ES, Yakobson BI, Balbuena PB, Bichara C, Futaba DN, Noda S, Shin H, Kim KS, Simard B, Mirri F, Pasquali M, Fornasiero F, Kauppinen EI, Arnold M, Cola BA, Nikolaev P, Arepalli S, Cheng HM, Zakharov DN, Stach EA, Zhang J, Wei F, Terrones M, Geohegan DB, Maruyama B, Maruyama S, Li Y, Adams WW, Hart AJ.

ACS Nano. 2018 Dec 5. doi: 10.1021/acsnano.8b06511. [Epub ahead of print]

PMID:
30516055
3.

Electrical Control of Shape in Voxelated Liquid Crystalline Polymer Nanocomposites.

Guin T, Kowalski BA, Rao R, Auguste AD, Grabowski CA, Lloyd PF, Tondiglia VP, Maruyama B, Vaia RA, White TJ.

ACS Appl Mater Interfaces. 2018 Jan 10;10(1):1187-1194. doi: 10.1021/acsami.7b13814. Epub 2017 Dec 26.

PMID:
29239172
4.

Flexible Gallium Nitride for High-Performance, Strainable Radio-Frequency Devices.

Glavin NR, Chabak KD, Heller ER, Moore EA, Prusnick TA, Maruyama B, Walker DE Jr, Dorsey DL, Paduano Q, Snure M.

Adv Mater. 2017 Dec;29(47). doi: 10.1002/adma.201701838. Epub 2017 Nov 2.

PMID:
29094392
5.

Harvesting electrical energy from carbon nanotube yarn twist.

Kim SH, Haines CS, Li N, Kim KJ, Mun TJ, Choi C, Di J, Oh YJ, Oviedo JP, Bykova J, Fang S, Jiang N, Liu Z, Wang R, Kumar P, Qiao R, Priya S, Cho K, Kim M, Lucas MS, Drummy LF, Maruyama B, Lee DY, Lepró X, Gao E, Albarq D, Ovalle-Robles R, Kim SJ, Baughman RH.

Science. 2017 Aug 25;357(6353):773-778. doi: 10.1126/science.aam8771.

PMID:
28839068
6.

Understanding properties of engineered catalyst supports using contact angle measurements and X-ray reflectivity.

Amama PB, Islam AE, Saber SM, Huffman DR, Maruyama B.

Nanoscale. 2016 Feb 7;8(5):2927-36. doi: 10.1039/c5nr08108d.

PMID:
26781333
7.

Creasable Batteries: Understanding Failure Modes through Dynamic Electrochemical Mechanical Testing.

Blake AJ, Kohlmeyer RR, Drummy LF, Gutiérrez-Kolar JS, Carpena-Núñez J, Maruyama B, Shahbazian-Yassar R, Huang H, Durstock MF.

ACS Appl Mater Interfaces. 2016 Mar 2;8(8):5196-204. doi: 10.1021/acsami.5b11175. Epub 2016 Jan 19.

PMID:
26741734
8.

Direct observation of morphological evolution of a catalyst during carbon nanotube forest growth: new insights into growth and growth termination.

Jeong S, Lee J, Kim HC, Hwang JY, Ku BC, Zakharov DN, Maruyama B, Stach EA, Kim SM.

Nanoscale. 2016 Jan 28;8(4):2055-62. doi: 10.1039/c5nr05547d.

PMID:
26700058
9.

Morphology dependent field emission of acid-spun carbon nanotube fibers.

Fairchild SB, Boeckl J, Back TC, Ferguson JB, Koerner H, Murray PT, Maruyama B, Lange MA, Cahay MM, Behabtu N, Young CC, Pasquali M, Lockwood NP, Averett KL, Gruen G, Tsentalovich DE.

Nanotechnology. 2015 Mar 13;26(10):105706. doi: 10.1088/0957-4484/26/10/105706. Epub 2015 Feb 19.

PMID:
25694166
10.

Discovery of wall-selective carbon nanotube growth conditions via automated experimentation.

Nikolaev P, Hooper D, Perea-López N, Terrones M, Maruyama B.

ACS Nano. 2014 Oct 28;8(10):10214-22. doi: 10.1021/nn503347a. Epub 2014 Oct 16.

PMID:
25299482
11.

Engineering the activity and lifetime of heterogeneous catalysts for carbon nanotube growth via substrate ion beam bombardment.

Islam AE, Nikolaev P, Amama PB, Saber S, Zakharov D, Huffman D, Erford M, Sargent G, Semiatin SL, Stach EA, Maruyama B.

Nano Lett. 2014 Sep 10;14(9):4997-5003. doi: 10.1021/nl501417h. Epub 2014 Aug 11.

PMID:
25079258
12.

Pulsed-laser deposited transition-metal carbides for field-emission cathode coatings.

Back T, Fairchild SB, Averett K, Maruyama B, Pierce N, Cahay M, Murray PT.

ACS Appl Mater Interfaces. 2013 Sep 25;5(18):9241-6. doi: 10.1021/am403362w. Epub 2013 Sep 16.

PMID:
23988076
13.

Wetting behavior and activity of catalyst supports in carbon nanotube carpet growth.

Amama PB, Putnam SA, Barron AR, Maruyama B.

Nanoscale. 2013 Apr 7;5(7):2642-6. doi: 10.1039/c3nr33634d.

PMID:
23446360
14.

Revealing the impact of catalyst phase transition on carbon nanotube growth by in situ Raman spectroscopy.

Rao R, Pierce N, Liptak D, Hooper D, Sargent G, Semiatin SL, Curtarolo S, Harutyunyan AR, Maruyama B.

ACS Nano. 2013 Feb 26;7(2):1100-7. doi: 10.1021/nn304064u. Epub 2013 Jan 30.

PMID:
23343776
15.

Strong, light, multifunctional fibers of carbon nanotubes with ultrahigh conductivity.

Behabtu N, Young CC, Tsentalovich DE, Kleinerman O, Wang X, Ma AW, Bengio EA, ter Waarbeek RF, de Jong JJ, Hoogerwerf RE, Fairchild SB, Ferguson JB, Maruyama B, Kono J, Talmon Y, Cohen Y, Otto MJ, Pasquali M.

Science. 2013 Jan 11;339(6116):182-6. doi: 10.1126/science.1228061.

16.

In situ evidence for chirality-dependent growth rates of individual carbon nanotubes.

Rao R, Liptak D, Cherukuri T, Yakobson BI, Maruyama B.

Nat Mater. 2012 Jan 29;11(3):213-6. doi: 10.1038/nmat3231.

PMID:
22286334
17.

Millimeter-long carbon nanotubes: outstanding electron-emitting sources.

Perea-López N, Rebollo-Plata B, Briones-León JA, Morelos-Gómez A, Hernández-Cruz D, Hirata GA, Meunier V, Botello-Méndez AR, Charlier JC, Maruyama B, Muñoz-Sandoval E, López-Urías F, Terrones M, Terrones H.

ACS Nano. 2011 Jun 28;5(6):5072-7. doi: 10.1021/nn201149y. Epub 2011 Jun 10.

PMID:
21609029
18.

Influence of alumina type on the evolution and activity of alumina-supported Fe catalysts in single-walled carbon nanotube carpet growth.

Amama PB, Pint CL, Kim SM, McJilton L, Eyink KG, Stach EA, Hauge RH, Maruyama B.

ACS Nano. 2010 Feb 23;4(2):895-904. doi: 10.1021/nn901700u.

PMID:
20131855
19.

Understanding effects of molecular adsorption at a single-wall boron nitride nanotube interface from density functional theory calculations.

Akdim B, Kim SN, Naik RR, Maruyama B, Pender MJ, Pachter R.

Nanotechnology. 2009 Sep 2;20(35):355705. doi: 10.1088/0957-4484/20/35/355705. Epub 2009 Aug 12.

PMID:
19671986
20.

Role of water in super growth of single-walled carbon nanotube carpets.

Amama PB, Pint CL, McJilton L, Kim SM, Stach EA, Murray PT, Hauge RH, Maruyama B.

Nano Lett. 2009 Jan;9(1):44-9. doi: 10.1021/nl801876h.

PMID:
19046079
21.

Double-walled boron nitride nanotubes grown by floating catalyst chemical vapor deposition.

Kim MJ, Chatterjee S, Kim SM, Stach EA, Bradley MG, Pender MJ, Sneddon LG, Maruyama B.

Nano Lett. 2008 Oct;8(10):3298-302. doi: 10.1021/nl8016835. Epub 2008 Sep 13.

PMID:
18788828
22.

Growth, new growth, and amplification of carbon nanotubes as a function of catalyst composition.

Crouse CA, Maruyama B, Colorado R Jr, Back T, Barron AR.

J Am Chem Soc. 2008 Jun 25;130(25):7946-54. doi: 10.1021/ja800233b. Epub 2008 May 29.

PMID:
18507464
23.

Multicomponent and multidimensional carbon nanotube micropatterns by dry contact transfer.

Yang J, Qu L, Zhao Y, Zhang Q, Dai L, Baur JW, Maruyama B, Vaia RA, Shin E, Murray PT, Luo H, Guo ZX.

J Nanosci Nanotechnol. 2007 Apr-May;7(4-5):1573-80.

PMID:
17450928
24.

A study of the formation, purification and application as a SWNT growth catalyst of the nanocluster [HxPMo12O40[subset]H4Mo72Fe30(O2CMe)15O254(H2O)98].

Anderson RE, Colorado R Jr, Crouse C, Ogrin D, Maruyama B, Pender MJ, Edwards CL, Whitsitt E, Moore VC, Koveal D, Lupu C, Stewart MP, Smalley RE, Tour JM, Barron AR.

Dalton Trans. 2006 Jul 7;(25):3097-107. Epub 2006 Apr 20.

PMID:
16786068
25.

Single-walled carbon nanotube growth using [Fe(3)(mu(3)-O)(mu-O(2)CR)(6)(L)(3)](n+) complexes as catalyst precursors.

Ogrin D, Colorado R Jr, Maruyama B, Pender MJ, Smalley RE, Barron AR.

Dalton Trans. 2006 Jan 7;(1):229-36. Epub 2005 Nov 9.

PMID:
16357981
26.

[A case of skin neoplasm caused by x-rays in a technical].

KOGA M, MARUYAMA B, YANO T, MORIMOTO H, ISHIHASHI S, NAKASHIMA T.

Rinsho Hoshasen. 1962 Apr;7:251-7. Japanese. No abstract available.

PMID:
14457759

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