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Extremely sharp carbon nanocone probes for atomic force microscopy imaging

Chen, I-Chen ; Chen, Li-Han ; Ye, Xiang-Rong ; [et al.]

AIP Publishing ; 2006

In: Applied Physics Letters Vol. 88, No. 15 ( 2006-04-10)

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In: Applied Physics Letters, AIP Publishing, Vol. 88, No. 15 ( 2006-04-10)

Abstract: A simple and reliable catalyst patterning technique combined with electric-field-guided growth is utilized to synthesize a sharp and high-aspect-ratio carbon nanocone probe on a tipless cantilever for atomic force microscopy. A single carbon nanodot produced by an electron-beam-induced deposition serves as a convenient chemical etch mask for catalyst patterning, thus eliminating the need for complicated, resist-based, electron-beam lithography for a nanoprobe fabrication. A gradual, sputtering-induced size reduction and eventual removal of the catalyst particle at the probe tip during electric-field-guided growth creates a sharp probe with a tip radius of only a few nanometers. These fabrication processes are amenable for the wafer-scale synthesis of multiple probes. High resolution imaging of three-dimensional features and deep trenches, and mechanical durability enabling continuous operation for many hours without noticeable image deterioration have been demonstrated.

Type of Medium: Online Resource

ISSN: 0003-6951 , 1077-3118

URL: Article

DOI: 10.1063/1.2193435

RVK:

UA 1000

Language: English

Publisher: AIP Publishing

Publication Date: 2006

detail.hit.zdb_id: 211245-0

detail.hit.zdb_id: 1469436-0

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Dynamics of two-dimensional monolayer water confined in hydrophobic and charged environments

Kumar, Pradeep ; Han, Sungho

AIP Publishing ; 2012

In: The Journal of Chemical Physics Vol. 137, No. 11 ( 2012-09-21)

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In: The Journal of Chemical Physics, AIP Publishing, Vol. 137, No. 11 ( 2012-09-21)

Abstract: We perform molecular dynamics simulations to study the effect of charged surfaces on the intermediate and long time dynamics of water in nanoconfinements. Here, we use the transferable interaction potential with five points (TIP5P) model of a water molecule confined in both hydrophobic and charged surfaces. For a single molecular layer of water between the surfaces, we find that the temperature dependence of the lateral diffusion constant of water up to very high temperatures remains Arrhenius with a high activation energy. In case of charged surfaces, however, the dynamics of water in the intermediate time regime is drastically modified presumably due to the transient coupling of dipoles of water molecules with electric field fluctuations induced by charges on the confining surfaces. Specifically, the lateral mean square displacements display a distinct super-diffusive behavior at intermediate time scale, defined as the time scale between ballistic and diffusive regimes. This change in the intermediate time-scale dynamics in the charged confinement leads to the enhancement of long-time dynamics as reflected in increasing diffusion constant. We introduce a simple model for a possible explanation of the super-diffusive behavior and find it to be in good agreement with our simulation results. Furthermore, we find that confinement and the surface polarity enhance the low frequency vibration in confinement compared to bulk water. By introducing a new effective length scale of coupling between translational and orientational motions, we find that the length scale increases with the increasing strength of the surface polarity. Further, we calculate the correlation between the diffusion constant and the excess entropy and find a disordering effect of polar surfaces on the structure of water. Finally, we find that the empirical relation between the diffusion constant and the excess entropy holds for a monolayer of water in nanoconfinement.

Type of Medium: Online Resource

ISSN: 0021-9606 , 1089-7690

URL: Article

DOI: 10.1063/1.4751545

Language: English

Publisher: AIP Publishing

Publication Date: 2012

detail.hit.zdb_id: 3113-6

detail.hit.zdb_id: 1473050-9

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Touch sensors based on planar liquid crystal-gated-organic field-effect transistors

Seo, Jooyeok ; Lee, Chulyeon ; Han, Hyemi ; [et al.]

AIP Publishing ; 2014

In: AIP Advances Vol. 4, No. 9 ( 2014-09-01)

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In: AIP Advances, AIP Publishing, Vol. 4, No. 9 ( 2014-09-01)

Abstract: We report a tactile touch sensor based on a planar liquid crystal-gated-organic field-effect transistor (LC-g-OFET) structure. The LC-g-OFET touch sensors were fabricated by forming the 10 μm thick LC layer (4-cyano-4′-pentylbiphenyl - 5CB) on top of the 50 nm thick channel layer (poly(3-hexylthiophene) - P3HT) that is coated on the in-plane aligned drain/source/gate electrodes (indium-tin oxide - ITO). As an external physical stimulation to examine the tactile touch performance, a weak nitrogen flow (83.3 μl/s) was employed to stimulate the LC layer of the touch device. The LC-g-OFET device exhibited p-type transistor characteristics with a hole mobility of 1.5 cm2/Vs, but no sensing current by the nitrogen flow touch was measured at sufficiently high drain (VD) and gate (VG) voltages. However, a clear sensing current signal was detected at lower voltages, which was quite sensitive to the combination of VD and VG. The best voltage combination was VD = −0.2 V and VG = −1 V for the highest ratio of signal currents to base currents (i.e., signal-to-noise ratio). The change in the LC alignment upon the nitrogen flow touch was assigned as the mechanism for the present LC-g-OFET touch sensors.

Type of Medium: Online Resource

ISSN: 2158-3226

URL: Article

DOI: 10.1063/1.4895110

Language: English

Publisher: AIP Publishing

Publication Date: 2014

detail.hit.zdb_id: 2583909-3

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Opening of aligned carbon nanotube ends via room-temperature sputter etching process

AuBuchon, Joseph F. ; Chen, Li-Han ; Gapin, Andrew I. ; [et al.]

AIP Publishing ; 2005

In: Journal of Applied Physics Vol. 97, No. 12 ( 2005-06-15)

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In: Journal of Applied Physics, AIP Publishing, Vol. 97, No. 12 ( 2005-06-15)

Abstract: Top ends of aligned carbon nanotubes were opened via room-temperature sputter etching of the nanotubes in the same chemical-vapor deposition (CVD) chamber that the nanotubes were grown. The mechanism of the sputter etching process involves incident positive ions in the plasma, such as hydrogen or argon, colliding with the nanotube material and preferentially eroding the nanotube walls around the catalyst metal particles. The cut-off nanotube segments are removed from the sample in the CVD chamber together with the catalyst particles. This process is entirely physical in nature with no wet chemical processing steps involved. The sputter etching process is found to be faster with larger ion size, higher applied voltage forming the plasma, and higher pressure of the sputtering gas.

Type of Medium: Online Resource

ISSN: 0021-8979 , 1089-7550

URL: Article

DOI: 10.1063/1.1946199

Language: English

Publisher: AIP Publishing

Publication Date: 2005

detail.hit.zdb_id: 220641-9

detail.hit.zdb_id: 3112-4

detail.hit.zdb_id: 1476463-5

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Efficient organic solar cells with solution-processed carbon nanosheets as transparent electrodes

Na, Seok-In ; Noh, Yong-Jin ; Son, Su-Young ; [et al.]

AIP Publishing ; 2013

In: Applied Physics Letters Vol. 102, No. 4 ( 2013-01-28)

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In: Applied Physics Letters, AIP Publishing, Vol. 102, No. 4 ( 2013-01-28)

Abstract: We demonstrate that solution-processed carbon nanosheet (CNS) films can efficiently serve as transparent electrodes for organic solar cells (OSCs). The CNS was obtained by spin-coating of polyacrylonitrile (PAN) dissolved in dimethylformamide on quartz substrates, followed by stabilization and carbonization processes to convert polymer into CNS. The thickness of the newly developed CNS films was easily controlled by varying the PAN solution concentration. The polymer-converted CNS films were intensively examined for the feasibility of the use as transparent anodes in solar cells. This approach could be highly desirable for all-solution-processed or printed OSCs.

Type of Medium: Online Resource

ISSN: 0003-6951 , 1077-3118

URL: Article

DOI: 10.1063/1.4789980

RVK:

UA 1000

Language: English

Publisher: AIP Publishing

Publication Date: 2013

detail.hit.zdb_id: 211245-0

detail.hit.zdb_id: 1469436-0

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