Organization of Organic Molecules with Inorganic Nanoparticles: Hybrid Nanodiodes

Mohanta, Kallol; Batabyal, Sudip Kumar; Pal, Amlan J.

doi:10.1002/adfm.200700926

Cited by 23 publications

(11 citation statements)

References 30 publications

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“…This improved response and electrical measurement as seen in Figure point to the significant role of surface and interfaces formed between CuO and SnO 2 . Similar role of interfaces has been discussed in literatures . They modulate electronic states and influence physiochemical properties.…”

Section: Resultssupporting

confidence: 71%

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SnO₂ Tailored by CuO for Improved CH₄ Sensing at Low Temperature

Das

Panda

2019

Physica Status Solidi (b)

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Trace level methane (CH4) detection is demonstrated at low temperature. Functional metal oxide of SnO2 tailored by CuO is prepared via a co‐precipitation chemical route followed by annealing in air. Raman spectroscopy confirms presence of Ag mode of CuO at 290 cm−1 along with A1g mode of SnO2 at 630 cm−1. Results from the X‐ray diffraction and transmission electron microscope indicate that both crystalline SnO2 and CuO are present in the composite. Particle size of SnO2 is found to be larger in the composite than the pristine‐annealed SnO2 of 25 nm at 800 °C. However, sensor studies with CH4 reveal stronger response and low operational temperature of 100 °C for the composite in comparison to the pristine‐annealed SnO2 which shows poor response (<1%) even at higher temperature of 150 °C. Current–voltage measurements support the formation of local p–n junctions in the CuO–SnO2 composite. The role of n–p junction in the composite is elaborated and correlated to the improved response.

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Section: Resultssupporting

confidence: 71%

“…Similar role of interfaces has been discussed in literatures. [34,35] They modulate electronic states and influence physiochemical properties. In general, individual n-p junction creates a depletion layer which is in excess of chemisorbed based depletion in SnO 2 .…”

Section: Sensing Mechanismmentioning

confidence: 99%

SnO₂ Tailored by CuO for Improved CH₄ Sensing at Low Temperature

Das

Panda

2019

Physica Status Solidi (b)

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“…Theoretical approaches based on the equation of motion method [100] or Fock space formalism [101] have also begun to be appear to gain understanding of this regime. Although, we have discussed mainly about one of the technologically useful non-linear phenomena, namely, Negative differential resistance, other phenomena such as multistability and hysteresis, which arise out of structural changes in a molecule during transport together with inelastic processes due to interactions at different energy and length scales in organic, inorganic or hybrid systems still remain the subjects of active current research [102,103,104,105].…”

Section: Discussionmentioning

confidence: 99%

Molecular Electronics: Effect of External Electric Field

2008

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The effect of electric field, applied on systems in the nanoscale regime has attracted a lot of research in recent times. We highlight some of the recent results in the field of single molecule electronics and then move on to focus on some of our own results in this area.We have first shown how important it is to obtain the spatial profile of the external bias potential across the system, and how this would change in the presence of electron-electron interactions. We have also studied different kinds of insulators in the presence of the spatially varying external bias, and have explicitly shown that a two sublattice structure, caused either by a lattice distortion, or by the presence of substituents with strong dipolar nature, can result in negative differential resistance (NDR) in the transport characteristics. We also find this to be true in case of correlated insulators. Additionally, we have shown clear NDR behavior in a correlated double quantum dot by tuning the electron-electron interaction strength in the system.

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“…In order to remove the dyes from the aqueous environment, various methods have been explored, such as photocatalysis, adsorption, electrochemical degradation, acidication, etc. In order to overcome these drawbacks, efforts have been made via combination ZnO with other components including inorganic or organic semiconductor, noble metals, and grapheme et al [11][12][13][14] Owing to the appropriate redox properties for the sensitization of large band-gap semiconductors and the thermal stability, metal phthalocyanine (MPc) have received signicant attention for advanced applications in dye-sensitized solar cells, gas sensors and molecular electronic devices. [2][3][4] As an important wide and direct band-gap semiconductor, ZnO has been deemed to be an efficient photocatalyst because of its high catalytic efficiency, low cost, and environmental sustainability.…”

Section: Introductionmentioning

confidence: 99%

“…[8][9][10] The rapid recombination of photogenerated electron-hole pairs formed in photocatalytic processes is also a major obstacle for increasing the photocatalytic efficiency of ZnO. In order to overcome these drawbacks, efforts have been made via combination ZnO with other components including inorganic or organic semiconductor, noble metals, and grapheme et al [11][12][13][14] Owing to the appropriate redox properties for the sensitization of large band-gap semiconductors and the thermal stability, metal phthalocyanine (MPc) have received signicant attention for advanced applications in dye-sensitized solar cells, gas sensors and molecular electronic devices. [15][16][17][18][19][20] More recently, it has been demonstrated that MPc could hinder the charge recombination and improve the photocatalytic efficiency.…”

Section: Introductionmentioning

confidence: 99%

ZnO nanorod/nickel phthalocyanine hierarchical hetero-nanostructures with superior visible light photocatalytic properties assisted by H₂O₂

Wang

Gao

et al. 2015

RSC Adv.

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Needle-like ZnO nanorod (ZnO-NR)/2,9,16,23-tetra-phenoxy nickel phthalocyanine (TPNiPc) nanofiber hierarchical hetero-nanostructures have been successfully designed and constructed via a two-step hydrothermal approach on zinc foil. The as-prepared ZnO-NR/TPNiPc hierarchical hetero-nanostructure exhibited superior photocatalytic activities in degradation of Rhodamine B assisted by H 2 O 2 under visible light irradiation with excellent efficiency, recyclability and stability. The intermolecular electron transfer in the process of photocatalysis was further confirmed by the enhanced photocurrent. This method offers a simple, economical, and convenient way to obtain a highly efficient visible-light photocatalyst based on ZnO, showing great industrial application potential in eliminating the organic pollutants from wastewater.Scheme 2 Illustrative diagram for the photocatalytic mechanism of ZnO-NRs/TPNiPc hierarchical hetero-nanostructure assisted with H 2 O 2 , VB ¼ valence band, CB ¼ conduction band, HOMO ¼ highest occupied molecular orbital and LUMO ¼ lowest occupied molecular orbital.This journal is

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Organization of Organic Molecules with Inorganic Nanoparticles: Hybrid Nanodiodes

Cited by 23 publications

References 30 publications

SnO₂ Tailored by CuO for Improved CH₄ Sensing at Low Temperature

SnO₂ Tailored by CuO for Improved CH₄ Sensing at Low Temperature

Molecular Electronics: Effect of External Electric Field

ZnO nanorod/nickel phthalocyanine hierarchical hetero-nanostructures with superior visible light photocatalytic properties assisted by H₂O₂

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Organization of Organic Molecules with Inorganic Nanoparticles: Hybrid Nanodiodes

Cited by 23 publications

References 30 publications

SnO­2 Tailored by CuO for Improved CH4 Sensing at Low Temperature

SnO­2 Tailored by CuO for Improved CH4 Sensing at Low Temperature

Molecular Electronics: Effect of External Electric Field

ZnO nanorod/nickel phthalocyanine hierarchical hetero-nanostructures with superior visible light photocatalytic properties assisted by H2O2

Contact Info

Product

Resources

About

SnO₂ Tailored by CuO for Improved CH₄ Sensing at Low Temperature

SnO₂ Tailored by CuO for Improved CH₄ Sensing at Low Temperature

ZnO nanorod/nickel phthalocyanine hierarchical hetero-nanostructures with superior visible light photocatalytic properties assisted by H₂O₂