• Title/Summary/Keyword: Negative Differential Resistance (NDR)

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Study on the Mophology Observation and Electrical Properties of Dipyridinium Organic Monolayer Using STM (STM을 이용한 Dipyridinium 유기 단분자막의 모폴로지 관찰 및 전기적 특성 연구)

  • Lee Nam-Suk;Shin Hoon-Kyu;Kwon Young-Soo
    • The Transactions of the Korean Institute of Electrical Engineers C
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    • v.54 no.2
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    • pp.51-54
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    • 2005
  • In this work, the attempt has been made to investigate the morphology of self-assembled dipyridinium dithioacetate on Au(111) substrate by Scanning Tunneling Microscopy(STM). Also, we measured electrical properties(I-V) using Scanning Tunneling Spectroscopy(STS). Sample used in this experiment is dipyridinium dithioacetate, which contains thiol functional group, this structure that can be self-assembled easily to Au(111) substrate. The self-assembly procedure was used for two different concentrations, 0.5 mM/ml and 1 mM/ml. Dilute density of sample by 0.5 mM/ml, 1 mM/ml and observed dipyridinium dithioacetate's image by STM after self-assembled on Au(111) substrate. The structure of STM tip-SAMs-Au(111) substrate has been used measurement for electrical properties(I-V) using STS. The current-voltage(I-V) measurement result, observed negative differential resistance(NDR) properties.

Current-Voltage(I-V) Characteristics of ITO/PTFE/Al device with a variation of PTFE thickness (ITO/PTFE/Al 소자에서 PTFE 박막의 두께에 따른 전압-전류(I-V) 특성)

  • Jeong, J.;Oh, Y.C.;Shin, J.Y.;Lee, S.W.;Hong, J.W.
    • Proceedings of the KIEE Conference
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    • 2003.07c
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    • pp.1568-1570
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    • 2003
  • We have studied the I-V characteristics of polytetrafluoroethylene(PTFE) thin film depending on a variation of thickness. Polymer PTFE buffer layer was made using thermal evaporation technique. The device was made in the structure of ITO/PTFE/Al. We have observed the NDR(negative differential resistance) behavior between 2.5V and 5V. There are some reports on this NDR behavior in the polymer thin film[1]. We have studied the NDR behavior depending on a variation thickness. As the film thickness increased, The NDR behavior decreased and moved in low electrical field, and we have studied the conduction mechanism of PTFE thin film.

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Fabrication and Electrical Properties of MIM Devices In Self-assembled Organic Thin Film (자기조립 유기박막의 제작과 MIM소자의 전기적 특성)

  • Son, Jung-Ho;Shin, Hoon-Kyu;Kwon, Young-Soo
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2002.05b
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    • pp.24-26
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    • 2002
  • In this paper, we discuss the electrical properties of self-assembled (2'-amino-4,4-di(ethynylphenyl)-5'-nitro-l-(thioacetyl)benzene), which has been well known as a conducting molecule having possible application to molecular level NDR device. The phenomenon of negative differential resistance (NDR) is characterized by decreasing current through a junction at increasing voltage. also fabrication of MIM-type molecular electronic and the Molecular Level Using Scanning Tunneling Microscopy

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Fabrication of Organic Thin Film by Using Self-Assembly and Negative Difference Resistance Research (자기조립법을 이용한 유기박막의 소자 제작과 부성저항특성 연구)

  • Son, Jung-Ho;Shin, Hoon-Kyu;Kwon, Young-Soo
    • Proceedings of the KIEE Conference
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    • 2002.07c
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    • pp.1572-1574
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    • 2002
  • In this paper, we discuss the electrical properties of self-assembled (2'-amino-4,4-di(ethynylp henyl)-5'-nitro-1-(thioacetyl)benzene), which has been well known as a conducting molecule having possible application to molecular level NDR device. The phenomenon of negative differential resi(NDR) is characterized by decreasing current th a junction at increasing voltage, also fabricatio MIM-type molecular electronic device and the Molecular Level Using Scanning Tunneling Microscopy.

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A Study on the Negative Differential Resistance in Dipyridinium Self-Assembled Monolayers Using STM

  • Lee Nam-Suk;Shin Hoon-Kyu;Kwon Young-Soo
    • KIEE International Transactions on Electrophysics and Applications
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    • v.5C no.3
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    • pp.111-114
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    • 2005
  • Organic monolayers were fabricated onto Au(l l l) substrate by self-assembly method using dipyridinium. Also, organic single molecule in the organic monolayers was selected to measure the current-voltage (I-V) curves by using the ultrahigh vacuum scanning tunneling microscopy (UHV-STM). The organic molecule used in the experiment was dipyridinium dithioacetate, which contains thiol functional group and can be self-assembled easily onto Au(l l l) substrate. The concentration of dipyridinium dithioacetate for self-assembly procedure was I [mM/L]. To confirm the formation of self-assembled mono layers (SAMs), the differences of thickness of the self-assembled organic monolayers were observed by using an ellipsometer, and the morphology and I-V curves of the SAMs were investigated by using UHV-STM. The applied voltages were from -2 [V] to +2 [V], temperature was 300 [K]. The vacuum for measuring current of the organic single molecule was 6 $\times$ 10$^{-8}$ [Torr]. As a result, properties of the negative differential resistance (NDR) in constant voltage were found.

Study on electrical property of self-assembled nitro molecule onto Au(111) by Using STM/STS (STM/STS에 의한 Au (111)에 자기조립된 니트로분자의 전기적 특성 측정)

  • Lee, Nam-Suk;Choi, Won-Suk;Shin, Hoon-Kyu;Chang, Jeong-Soo;Kwon, Young-Soo
    • Proceedings of the KIEE Conference
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    • 2005.07c
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    • pp.1844-1846
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    • 2005
  • The characteristic of negative differential resistance(NDR) is decreased current when the applied voltage is increased. The NDR is potentially very useful in molecular electronics device schemes. Here, we investigated the NDR property of self-assembled 4,4- Di(ethynylphenyl)-2'-nitro-1-(thioacetyl)benzene, which has been well known as a conducting molecule. Self-assembly monolayers(SAMs) were prepared on Au(111), which had been thermally deposited onto pre-treatment$(H_2SO_4:H_2O_2=3:1)$ Si. The Au substrate was exposed to a 1mM/l solution of 1-dodecanethiol in ethanol for 24 hours to form a monolayer. After thorough rinsing the sample, it was exposed to a $0.1{\mu}M/l$ solution of 4,4-Di(ethynylphenyl)-2'-nitro-1-(thioacetyl)benzene in dimethylformamide(DMF) for 30 min and kept in the dark during immersion to avoid photo-oxidation. After the assembly, the samples were removed from the solutions, rinsed thoroughly with methanol, acetone, and $CH_2Cl_2$, and finally blown dry with $N_2$. Under these conditions, we measured electrical properties of self-assembly monolayers(SAMs) using ultra high vacuum scanning tunneling microscopy(UHV-STM). The applied voltages were from -2V to +2V with 299K temperature. The vacuum condition is $6{\times}10^{-8}$ Torr. As a result, we found the NDR voltage of the nitro-benzene is $-1.61{\pm}0.26$ V(negative region) and $1.84{\pm}0.33$ (positive region), respectively.

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Current-Voltage Properties measuring of Dipyridinium Molecule Using Scanning Tunneling Microscopy (STM에 의한 Dipyridinium 분자의 전압-전류 특성 측정)

  • Lee, Nam-Suk;Shin, Hoon-Kyu;Chang, Jeong-Soo;Kwon, Young-Soo
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2004.11a
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    • pp.485-488
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    • 2004
  • 본 연구에서는 dipyridinium dithioacetate 분자를 Au(111) 표면에 자기조립하여 STM 탐침-유기 단분자막-Au(111)기판의 수직구조로 STM 측정시스템을 이용하여, 전기적 특성을 관찰하였다. 먼저 Au(111)기판을 Piranha용액$(H_2SO_4:H_2O_2=3:1)$으로 Au 표면을 전처리 하였다. 전처리한 Au(111) 기판을 dipyridinium dithioacetate 1mol/ml 농도로 자기조립 하였으며, 자기조립막의 표면 구조를 STM으로 관찰하였다. dipyridinium dithioacetate의 전기적 특성은 STM 탐침-유기단분자막-Au(111) 기판의 수직구조로 STS를 이용하여 조사하였다. 전압과 전류 측정에서 전압이 증가함에 따라 전류가 감소하는 부성 미분저항(NDR)의 특성이 관찰 되었다. NDR 수치가 $-545\;[m\Omega/cm^2]$였고, PVCR은 1.64:1 이었다.

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A Study on the Current-Voltage Measurement of Self-Assembled Organic molecular onto Au Electrode (Au기판에 자기조립화된 유기 단분자의 전압-전류 측정 연구)

  • Kim, Seung-Un;Park, Sang-Hyun;Park, Jae-Chul;Shin, Hoon-Kyu;Kwon, Young-Soo
    • Proceedings of the KIEE Conference
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    • 2004.07c
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    • pp.1730-1733
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    • 2004
  • Device miniaturization and high integrated circuit design is of major interest for the development of electronic devices. Various studies have been conducted to develop new material and processing technique[1]. Negative Differential Resistance(NDR) is the defining behavior in several electronic components, including the Esaki diode and most notably, resonant tunneling diodes(RTD)[2]. We made a comparison of electrical properties between 4,4-Di(ethynylphenyl)-2'-nitro-1-(thioacetyl)benzene and 4-[2,5-dimethoxy-4-(p henylethynyl)phenyl]ethynylphenylethanethioate, which have been well known as a conducting molecule having possible application to molecular level NDR devices. As a result, we measured current-voltage curves using Scanning Tunneling microscopy(STM), I-V curves also showed several current peaks between negative and positive bias region.

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Non-Contact Sensing Method using PT Symmetric Circuit with Cross-Coupled NDR Circuits (크로스-결합구조의 부성 미분 저항 회로를 이용한 페리티-시간 대칭 구조의 비접촉 센서 구동 회로에 대한 연구)

  • Hong, Jong-Kyun
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.22 no.4
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    • pp.10-16
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    • 2021
  • This paper proposes a model that considers the parity-time symmetric structure as a state detection circuit for sensor applications using a stretchable inductor. In particular, to obtain a more practical computer simulation result, the stretchable inductor model was applied to this study model by referring to previously reported experimental results. The resistance component and phase component were controlled through the negative differential resistance circuit used in this study. In addition, the imbalance of the circuit caused by a change in the characteristics of the stretchable inductor could be compensated for using a negative differential resistance circuit. In particular, an analysis of the frequency characteristics of the sensor driving circuit of the parity-time symmetric structure proposed in this study confirmed that the Q-factor could be increased up to 20 times compared to the conventional resonant circuit.

NDR Property and Energy Band Diagram of Nitro-Benzene Molecule Using STM (STM에 의한 니트로벤젠 분자의 NDR 특성과 에너지 밴드 구조)

  • Lee, Nam-Suk;Chang, Jeong-Soo;Kwon, Young-Soo
    • Proceedings of the KIEE Conference
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    • 2005.11a
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    • pp.139-141
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    • 2005
  • It is possble to study charge transfer property which is caused by height variation because we can see the organic materials barrier height and STM tip by organic materials energy band gap. Here, we investigated the negative differential resistance(NDR) and charge transfer property of self-assembled 4,4-Di(ethynylphenyl)-2'-nitro-1-(thioacetyl)benzene, which has been well known as a conducting molecule. Self-assembly monolayers(SAMs) were prepared on Au(111), which had been thermally deposited onto pre-treatment($H_{2}SO_{4}:H_{2}O_{2}$=3:1) Si. The Au substrate was exposed to a 1 mM/l solution of 1-dodecanethiol in ethanol for 24 hours to form a monolayer. After thorough rinsing the sample, it was exposed to a $0.1{\mu}M/1$ solution of 4,4-Di(ethynylphenyl)-2'-nitro-1-(thioacetyl)benzene in dimethylformamide(DMF) for 30 min and kept in the dark during immersion to avoid photo-oxidation. After the assembly, the samples were removed from the solutions, rinsed thoroughly with methanol, acetone, and $CH_{2}Cl_{2}$, and finally blown dry with $N_2$. Under these conditions, we measured electrical properties of self-assembly monolayers(SAMs) using ultra high vacuum scanning tunneling microscopy(UHV-STM). The applied voltages were from -1.50 V to -1.20 V with 298 K temperature. The vacuum condition is $6{\times}10^{-8}$ Torr. As a result, we found that NDR and charge transfer property by a little change of height when the voltage is applied between STM tip and electrode.

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