Hisashi SUGIME, PhD
Project Assistant Professor, Research Organization for Nano & Life Innovation,
E-mail: sugime<at>aoni.waseda.jp
Office (Noda-Hanada group): Room 607, Building 55-S, Nishiwaseda Campus, Waseda University
Address: 3-4-1 Okubo, Shinjuku-ku, Tokyo 169-8555, Japan

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Education

Mar. 2005

Bachelor of Engineering, Department of Chemical System Engineering, The University of Tokyo

Mar. 2007

Master of Engineering, Department of Chemical System Engineering, The University of Tokyo

Mar. 2010

PhD, Department of Chemical System Engineering, The University of Tokyo

Employment

Apr. 2009 - Mar. 2010

Research Fellow of the Japan Society for the Promotion of Science (JSPS, DC2)

Apr. 2010 - Mar. 2012

Showa Denko K.K.

Apr. 2012 - Mar. 2014

Research Associate in University of Cambridge

Apr. 2014 - Mar. 2016

Research Fellow of the JSPS in University of Cambridge

Apr. 2016 - Mar. 2019

Assistant Professor of Waseda Institute for Advanced Study

Apr. 2019 - present

Project Assistant Professor, Research Organization for Nano & Life Innovation, Waseda University

Publication
(41) R. Xie, N. Ishijima, H. Sugime, and S. Noda*,
"Enhancing the photovoltaic performance of hybrid heterojunction solar cells by passivation of silicon surface via a simple 1-min annealing process,"
Sci. Rep. 9, 12051 (2019).
DOI:10.1038/s41598-019-48504-7
(40) S. Akiba, M. Kosaka, K. Ohashi, K. Hasegawa, H. Sugime, S. Noda*,
"Direct formation of continuous multilayer graphene films with controllable thickness on dielectric substrates,"
Thin Solid Films 675, 136-142 (2019).
DOI:10.1016/j.tsf.2019.02.035
(39) Y. Nagai, H. Sugime, and S. Noda*,
"1.5 Minute-synthesis of continuous graphene films by chemical vapor deposition on Cu foils rolled in three dimensions,"
Chem. Eng. Sci. 201, 319-324 (2019).
DOI:10.1016/j.ces.2019.02.038
(38) H. Sugime*, T. Ushiyama, K. Nishimura, Y. Ohno, and S. Noda,
"An interdigitated electrode with dense carbon nanotube forests on conductive supports for electrochemical biosensors,"
Analyst 143, 3635-3642 (2018).
DOI:10.1039/C8AN00528A
Interdigitated electrode with dense carbon nanotube forests on conductive supports.
Interdigitated electrode with dense carbon nanotube forests on conductive supports.
(37) S. Okada, H. Sugime, K. Hasegawa, T. Osawa, S. Kataoka, H. Sugiura, and S. Noda*,
"Flame-assisted chemical vapor deposition for continuous gas-phase synthesis of 1-nm-diameter single-wall carbon nanotubes,"
Carbon 138, 1-7 (2018).
DOI:10.1016/j.carbon.2018.05.060
(36) T. Sato, H. Sugime, and S. Noda*,
"CO2-assisted growth of millimeter-tall single-wall carbon nanotube arrays and its advantage against H2O for large-scale and uniform synthesis,"
Carbon 136, 143-149 (2018).
DOI:10.1016/j.carbon.2018.04.060
(35) S. Miura, Y. Yoshihara, M. Asaka, K. Hasegawa, H. Sugime, A. Ota, H. Oshima, and S. Noda*,
"Millimeter-tall carbon nanotube arrays grown on aluminum substrates,"
Carbon 130, 834-842 (2018).
DOI:10.1016/j.carbon.2018.01.075
(34) G. Rughoobur, H. Sugime, M. DeMiguel-Ramos, T. Mirea, S. Zheng, J. Robertson, E. Iborra, and A. Flewitt*,
"Carbon nanotube isolation layer enhancing in-liquid quality-factors of thin film bulk acoustic wave resonators for gravimetric sensing,"
Sensor. Actuat. B-Chem 261, 398-407 (2018).
DOI:10.1016/j.snb.2018.01.067
(33) H. Sugime*, L. D'Arsié, S. Esconjauregui, G. Zhong, X. Wu, E. Hildebrandt, H. Sezen, M. Amati, L. Gregoratti, R.S. Weatherup, and J. Robertson,
"Low temperature growth of fully covered single-layer graphene using CoCu catalyst,"
Nanoscale 9 (38), 14467-14475 (2017).
DOI:10.1039/C7NR02553J
Low temperature growth of fully covered single-layer graphene using CoCu catalyst
Growth of fully covered single-layer graphene using CoCu catalyst (750 °C, 3 min)
(32) S. Caneva, M.-B. Martin, L. D'Arsié, A.I. Aria, H. Sezen, M. Amati, L. Gregoratti, H. Sugime, S. Esconjauregui, J. Robertson, S. Hofmann, and R.S. Weatherup*,
"From growth surface to device interface: preserving metallic Fe under monolayer hexagonal boron nitride,"
ACS Appl. Mater. Interfaces 9 (35), 29973-29981 (2017).
DOI:10.1021/acsami.7b08717
(31) Y. Nagai, A. Okawa, T. Minamide, K. Hasegawa, H. Sugime, and S. Noda*,
"Tens-second epitaxy of Cu on repeatedly used sapphire for practical production of high-quality graphene,"
ACS Omega 2 (7), 3354-3362 (2017).
DOI:10.1021/acsomega.7b00509
(30) H. Shirae, K. Hasegawa, H. Sugime, E. Yi, R.M. Laine, and S. Noda*,
"Catalyst nucleation and carbon nanotube growth from flame-synthesized Co-Al-O nanopowders at ten-second time scale,"
Carbon 114, 31-38 (2017).
DOI:10.1016/j.carbon.2016.11.075
(29) L. D'Arsié*, S. Esconjauregui, R.S. Weatherup, X. Wu, W.E. Arter, H. Sugime, C. Cepek, and J. Robertson,
"Stable and efficient p-type doping of graphene by nitric acid,"
RSC Adv. 6 (114), 113185-113192 (2016).
DOI:10.1039/C6RA23727D
(28) X. Wu, G. Zhong*, L. D'Arsié, H. Sugime, S. Esconjauregui, A.W. Robertson, and J. Robertson,
"Growth of continuous monolayer graphene with millimeter-sized domains using industrially safe conditions,"
Sci. Rep. 6, 21152 (2016).
DOI:10.1038/srep21152
(27) G. Zhong*, J. Yang, H. Sugime, R. Rao, J. Zhao, D. Liu, A. Harutyunyan, and J. Robertson,
"Growth of high quality, high density single-walled carbon nanotube forests on copper foils,"
Carbon 98, 624-632 (2016).
DOI:10.1016/j.carbon.2015.11.047
(26) S. Esconjauregui*, T. Makaryan, T. Mirea, M. DeMiguel-Ramos, J. Olivares, Y. Guo, H. Sugime, L. D'Arsié, J. Yang, S. Bhardwaj, C. Cepek, J. Robertson, and E. Iborra,
"Carbon nanotube forests as top electrode in electroacoustic resonators,"
Appl. Phys. Lett. 107 (8), 133106 (2015).
DOI:10.1063/1.4932197
(25) S. Esconjauregui*, L. D'Arsié, Y. Guo, J. Yang, H. Sugime, S. Caneva, C. Cepek, and J. Robertson,
"Efficient transfer doping of carbon nanotube forests by MoO3,"
ACS Nano 9 (10), 10422-10430 (2015).
DOI:10.1021/acsnano.5b04644
(24) H. Sugime*, S. Esconjauregui, L. D'Arsié, J. Yang, A.W. Robertson, R.A. Oliver, S. Bhardwaj, C. Cepek, and J. Robertson,
"Low temperature growth of carbon nanotube forests consisting of tubes with narrow inner spacing using Co/Al/Mo catalyst on conductive supports,"
ACS Appl. Mater. Interfaces 7 (30), 16819-16827 (2015).
DOI:10.1021/acsami.5b04846
A novel catalyst design with a partial barrier layer for the growth of dense CNT forests
A novel catalyst design with a partial barrier layer for the growth of dense CNT forests
(23) J. Yang, S. Esconjauregui*, A.W. Robertson, Y. Guo, T. Hallam, H. Sugime, G. Zhong, G.S. Duesberg, and J. Robertson,
"Growth of high-density carbon nanotube forests on conductive TiSiN supports,"
Appl. Phys. Lett. 106 (8), 083108 (2015).
DOI:10.1063/1.4913762
(22) J. Yang, S. Esconjauregui*, H. Sugime, T. Makaryan, T. Hallam, G.S. Duesberg, and J. Robertson,
"Comparison of carbon nanotube forest growth using AlSi, TiSiN, and TiN as conductive catalyst supports,"
Phys. Status Solidi B 251 (12), 2389-2393 (2014).
DOI:10.1002/pssb.201451162
(21) H. Sugime*, S. Esconjauregui, L. D'Arsié, J. Yang, T. Makaryan, and J. Robertson,
"Growth kinetics and growth mechanism of ultra-high mass density carbon nanotube forests on conductive Ti/Cu supports,"
ACS Appl. Mater. Interfaces 6 (17), 15440-15447 (2014).
DOI:10.1021/am504048h
A schematic of growth mechanism of ultra-high mass density carbon nanotube forests and the smallest patterning of carbon nanotube forests grown at 450 °C on conductive supports
A schematic of growth mechanism of ultra-high mass density carbon nanotube forests and the smallest patterning of the carbon nanotube forests grown at 450 °C on conductive supports
(20) J. Yang, S. Esconjauregui*, R. Xie, H. Sugime, T. Makaryan, L. D'Arsié, D.L.G. Arellano, S. Bhardwaj, C. Cepek, and J. Robertson,
"Effect of oxygen plasma alumina treatment on the growth of carbon nanotube forests,"
J. Phys. Chem. C 118 (32), 18683-18692 (2014).
DOI:10.1021/jp5022196
(19) T. Makaryan*, S. Esconjauregui, M. Goncalves, J. Yang, H. Sugime, D. Nille, P. Renganathan, P. Goldberg, and J. Robertson,
"Hybrids of carbon nanotube forests and gold nanoparticles for improved surface plasmon manipulation,"
ACS Appl. Mater. Interfaces 6 (8), 5344-5349 (2014).
DOI:10.1021/am501863g
(18) F.B. Michaelis, R.S. Weatherup, B.C. Bayer, M.C.D. Bock, H. Sugime, S. Caneva, J. Robertson, J.J. Baumberg, and S. Hofmann*,
"Co-catalytic absorption layers for controlled laser-induced chemical vapor deposition of carbon nanotubes,"
ACS Appl. Mater. Interfaces 6 (6), 4025-4032 (2014).
DOI:10.1021/am405460r
(17) S. Esconjauregui*, S. Bhardwaj, J. Yang, C. Castellarin-Cudia, R. Xie, L. D'Arsié, T. Makaryan, H. Sugime, S.E. Fernandez, C. Cepek, and J. Robertson,
"Carbon nanotube growth on conductors: influence of the support structure and catalyst thickness,"
Carbon 73, 13-24 (2014).
DOI:10.1016/j.carbon.2014.02.026
(16) H. Tornatzky, D. Hardeman, S. Esconjauregui*, L. D'Arsié, R. Xie, H. Sugime, J. Yang, T. Makaryan, C. Thomsen, and J. Robertson,
"Evaluation of bimetallic catalysts for the growth of carbon nanotube forests,"
Phys. Status Solidi B 250 (12), 2605-2610 (2013).
DOI:10.1002/pssb.201300143
(15) H. Sugime*, S. Esconjauregui, J. Yang, L. D'Arsié, R.A. Oliver, S. Bhardwaj, C. Cepek, and J. Robertson,
"Low temperature growth of ultra-high mass density carbon nanotube forests on conductive supports,"
Appl. Phys. Lett. 103 (7), 073116 (2013).
DOI:10.1063/1.4818619
Press release by American Institute of Physics
Carbon nanotube forest grown at 450 °C on conductive supports with the highest mass density (1.6 g cm<sup>-3</sup>)
Carbon nanotube forest grown at 450 °C on conductive supports with the highest mass density (1.6 g cm-3)
(14) H. Sugime and S. Noda*,
"Cold-gas chemical vapor deposition to identify the key precursor for rapidly growing vertically-aligned single-wall and few-wall carbon nanotubes from pyrolyzed ethanol,"
Carbon 50 (8), 2953-2960 (2012).
DOI:10.1016/j.carbon.2012.02.065
(13) D.Y. Kim, H. Sugime, K. Hasegawa, T. Osawa, and S. Noda*,
"Fluidized-bed synthesis of sub-millimeter-long single walled carbon nanotube arrays,"
Carbon 50 (4), 1538-1545 (2012).
DOI:10.1016/j.carbon.2011.11.032
(12) Y. Shiratori, K. Furuichi, Y. Tsuji, H. Sugime, and S. Noda*,
"Tailoring the morphology of carbon nanotube assemblies using microgradients in the catalyst thickness,"
Jpn. J. Appl. Phys. 50 (9), 095101-1-7 (2011).
DOI:10.1143/JJAP.50.095101
(11) D.Y. Kim, H. Sugime, K. Hasegawa, T. Osawa, and S. Noda*,
"Sub-millimeter-long carbon nanotubes repeatedly grown on and separated from ceramic beads in a single fluidized bed reactor,"
Carbon 49 (6), 1972-1979 (2011).
DOI:10.1016/j.carbon.2011.01.022
(10) H. Sugime and S. Noda*,
"Millimeter-tall single-walled carbon nanotube forests growing from ethanol,"
Carbon 48 (8), 2203-2211 (2010).
DOI:10.1016/j.carbon.2010.02.024
(9) S. Noda*, H. Sugime, K. Hasegawa, K. Kakehi, and Y. Shiratori,
"A simple combinatorial method aiding research on single-walled carbon nanotube growth on substrates,"
Jpn. J. Appl. Phys. 49 (2), 02BA02 (2010).
DOI:10.1143/JJAP.49.02BA02
(8) Y. Shiratori, K. Furuichi, Y. Tsuji, H. Sugime, and S. Noda*,
"Efficient field emission from triode-type 1D arrays of carbon nanotubes,"
Nanotechnology 20 (47), 475707-1-7 (2009).
DOI:10.1088/0957-4484/20/47/475707
(7) T.W.H. Oates, H. Sugime, and S. Noda*,
"Combinatorial surface-enhanced Raman spectroscopy and spectroscopic ellipsometry of silver island films,"
J. Phys. Chem. C 113 (12), 4820-4828 (2009).
DOI:10.1021/jp8097654
(6) H. Sugime, S. Noda*, S. Maruyama, and Y. Yamaguchi,
"Multiple "optimum" conditions for Co-Mo catalyzed growth of vertically aligned single-walled carbon nanotube forests,"
Carbon 47 (1), 234-241 (2009).
DOI:10.1016/j.carbon.2008.10.001
(5) Y. Shiratori, H. Sugime, and S. Noda*,
"Combinatorial evaluation for field emission properties of carbon nanotubes,"
J. Phys. Chem. C 112 (46), 17974-17982 (2008).
DOI:10.1021/jp807078h
(4) K. Hasegawa, S. Noda*, H. Sugime, K. Kakehi, S. Maruyama, and Y. Yamaguchi,
"Growth window and possible mechanism of millimeter-thick single-walled carbon nanotube forests,"
J. Nanosci. Nanotechnol. 8 (11), 6123-6128 (2008).
DOI:10.1166/jnn.2008.SW17
(3) Y. Shiratori, K. Furuichi, S. Noda*, H. Sugime, Y. Tsuji, Z. Zhang, S. Maruyama, and Y. Yamaguchi,
"Field emission properties of single-walled carbon nanotubes with a variety of emitter-morphologies,"
Jpn. J. Appl. Phys. 47 (6), 4780-4787 (2008).
DOI:10.1143/JJAP.47.4780
(2) S. Noda*, K. Hasegawa, H. Sugime, K. Kakehi, Z. Zhang, S. Maruyama, and Y. Yamaguchi,
"Millimeter-thick single-walled carbon nanotube forests: hidden role of catalyst support,"
Jpn. J. Appl. Phys. 46 (17), L399-L401 (2007). (Express Letter)
DOI:10.1143/JJAP.46.L399
(1) S. Noda*, H. Sugime, T. Osawa, Y. Tsuji, S. Chiashi, Y. Murakami, and S. Maruyama,
"A simple combinatorial method to discover Co-Mo binary catalysts that grow vertically aligned single-walled carbon nanotubes,"
Carbon 44 (8), 1414-1419 (2006).
DOI:10.1016/j.carbon.2005.11.02
International Conference Proceedings
(3) C.F. Moldovan, K. Gajewski, M. Tamagnone, R.S. Weatherup, H. Sugime, A. Szumska, W. Vitale, J. Robertson, and A.M. Ionescu,
"Spatial variability in large area single and few-layer CVD graphene,"
EUROSOI-ULIS 2015 - Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon, D83, 85-88 (2015).
(2) J. Robertson, H. Sugime, S. Esconjaurequi, G. Zhong, C. Zhang, R. Xie, and B. Chen
"Carbon Nano-materials as VLSI Interconnects,"
International Conference on Solid State Devices and Materials, C-5-1 (2013).
DOI:10.7567/SSDM.2013.C-5-1
(1) K. Furuichi, Y. Shiratori, K. Sekiguchi, H. Sugime, and S. Noda,
"A 1-sec Implementation of CNT-Emitter Arrays on Glasses for BLUs,"
Digest of Technical Papers - Society for Information Display International Symposium, 40(Bk. 1), 139-141 (2009).
Patents
(4) S. Noda, D.Y. Kim, T. Osawa, H. Sugime, K. Hasegawa, and E. Haba,
"Method and apparatus for simultaneously producing carbon nanotubes and hydrogen,"
PCT Int. Appl. (2011), WO 2011/030821 A1, 20110317.
(3) S. Noda, K. Furuichi, Y. Shiratori, Y. Tsuji, and H. Sugime,
"Field emission device having slit structure and protruding carbon nanotube emitter,"
Jpn. Kokai Tokkyo Koho (2009), JP2009245672, 20091022.
(2) S. Noda, H. Sugime, Y. Yamaguchi, T. Ohsawa, K. Kakei, K. Hasegawa, and D.Y. Kim,
"Carbon nanotube manufacturing method and carbon nanotube manufacturing apparatus,"
Jpn. Kokai Tokkyo Koho (2009), JP2009245672, 20091022.
(1) S. Noda, H. Sugime, Y. Yamaguchi,
"Catalytic CVD process for production of carbon nanotube,"
PCT Int. Appl. (2008), 45pp. WO 2008/029927 A1, 20080313.