2024/11/08 更新

写真a

アズハリ サマン
アズハリ サマン
所属
理工学術院 情報生産システム研究センター
職名
助教
学位
Doctor of Philosophy - PhD ( 2020年 Universiti Putra Malaysia )
メールアドレス
メールアドレス

経歴

  • 2022年04月
    -
    継続中

    早稲田大学   大学院情報生産システム研究科   助教

  • 2020年01月
    -
    2022年03月

    九州工業大学   大学院生命体工学研究科 人間知能システム工学専攻

  • 2015年08月
    -
    2016年01月

    Universiti Putra Malaysia   Institute of Advanced Technology   Research assistant   Research assistant

学歴

  • 2016年01月
    -
    2020年02月

    Universiti Putra Malaysia   Institute of Advanced Technology/Institute of Nanoscience and Nanotechnology   Nanotechnology  

  • 2013年01月
    -
    2016年01月

    Universiti Putra Malaysia   Institute of Advanced Technology/Institute of nanoscience and nanotechnology   Nanotechnology  

  • 2008年09月
    -
    2012年08月

    UCSI University   Engineering   Bachelor of Electrical and Electronics Engineering  

研究分野

  • 電気電子材料工学   Remote sensing via wirelessly powered porous multiwalled carbon nanotubes/polydimethylsiloxane nanocomposite / 電力工学   Wireless power transmission via inductive coupling / ナノバイオサイエンス   Bioreduction of metal nanoparticles / ナノ構造物理   Piezoresistive pressure sensing via Carbon nanotubes/Polydimethylsiloxane composite / 応用物性   Singlewalled carbon nanotubes-Polyoxometalate nanocomposite for reservoir computing / ナノ構造化学   Purification and functionalization of carbon nanotubes / ナノ材料科学   Synthesis and characterization of carbon nanotubes / 複合材料、界面   Carbon nanotubes-Polydimethylsiloxane nanocomposite
 

論文

  • Multi‐Electrode Electroretinography with Transparent Microelectrodes Printed on a Soft and Wet Contact Lens

    Lunjie Hu, Saman Azhari, Qianyu Li, Hanzhe Zhang, Atsushige Ashimori, Kazuhiro Kimura, Takeo Miyake

    Advanced Materials Technologies   9 ( 16 )  2024年05月

     概要を見る

    Visual electrophysiology measurements are crucial in ophthalmology as they are frequently used for diagnosing and treating numerous ocular diseases. Therefore, optically transparent and flexible electrodes with high sensitivity at localized regions are in high demand. Here, it is aimed to develop a soft, transparent, multi-electrode system assembled on commercially available soft contact lenses and assess its application in measuring Electroretinography (ERG) responses in rabbits. A biocompatible multi-electrode system on commercial disposable soft contact lenses is successfully constructed, showing 95% cell viability, 82% optical transparency over the visible range, and good flexibility at 10% strain. Direct current (DC) voltage is used to produce a highly resistive overoxidized poly(3,4-ethylenedioxythiophene) (PEDOT) layer that covers all parts of the electrodes except the sensing region, which, owing to its high conductivity, can accurately measure electrical signals from local regions of the cornea. Spatially resolved ERG recordings of rabbits are obtained with superior signal quality using this multi-electrode system. Thus, this device is expected to be used in ophthalmic diagnosis in the future.

    DOI

    Scopus

  • High Performance of an In-Material Reservoir Computing Device Achieved by Complex Dynamics in a Nanoparticle Random Network Memristor

    Oradee Srikimkaew, Deep Banerjee, Saman Azhari, Yuki Usami, Hirofumi Tanaka

    ACS Applied Electronic Materials   6 ( 2 ) 688 - 695  2024年02月

     概要を見る

    An in-material reservoir computing (RC) device with an Ag-Ag2S core-shell nanoparticle (NP) network is proposed. Network-wide nonlinear sine-wave outputs of higher frequencies and varying phases were produced from the different Ag+ ion diffusion rates and filament formation caused by the heterogeneous NP size in the thiol layer. Such emergent dynamics of multiple information regimes enabled the reconstruction of Fourier waves, with a maximum accuracy of 99% achieved only for trained outputs with mixed spatiotemporal complexities. Additionally, the device showed stable retrieval of past information with a two-times-step delay and successfully computed a two-step time-series prediction task with 87% accuracy.

    DOI

    Scopus

    4
    被引用数
    (Scopus)
  • Effect of nonlinearity induced by atomic switch in Ag/Ag2S nanoparticles on performance of in-materio reservoir computing

    Thien Tan Dang, Oradee Srikimkaew, Deep Banerjee, Saman Azhari, Yuki Usami, Hirofumi Tanaka

    Applied Physics Letters   124 ( 9 )  2024年02月

     概要を見る

    A random network of Ag/Ag2S nanoparticles (NPs) was used as a physical system in reservoir computing (RC) because the network has nonlinear and dynamical characteristics. Ag/Ag2S NPs were synthesized by the modified Brust-Schiffrin method. Atomic switching among the NPs caused nonlinear dynamical behavior of the random network. The Fourier transform of output signals indicated that the generated harmonics were far higher with a larger amplitude of the input sine wave because the atomic switching occurred only at high bias voltages. Higher accuracy was achieved in the Boolean logic RC task because of the nonlinearity originating from switching. These findings suggest that nonlinearity plays a fundamental role in the design and implementation of RC devices.

    DOI

    Scopus

  • Wireless Biosensors for Healthcare: Smart Contact Lenses and Microbial Devices

    Saman Azhari, Gábor Méhes, Takeo Miyake

    Wearable Biosensing in Medicine and Healthcare     151 - 177  2024年01月

    DOI

  • Short-Term and Long-Term Memory Functionality of a Brain-Like Device Built from Nanoparticle Atomic Switch Networks

    Oradee Srikimkaew, Saman Azhari, Deep Banerjee, Yuki Usami, Hirofumi Tanaka

    Advanced Electronic Materials    2024年

     概要を見る

    The synaptic plasticity of the Ag-Ag2S nanoparticle-based volatile memristor system is demonstrated. The nanoparticles self-assemble into a network with over 103 interconnected atomic switch interfaces. Short-term plasticity is identified by spontaneous conductance relaxation, attributed to the memristor's volatility. The conductance of the network is enhanced when a subsequent stimulus pulse arrives shortly after the previous one, analogous to the paired-pulse facilitation in biological synapses. Furthermore, repeated pulse stimulation is used to achieve the transition from short-term plasticity to long-term potentiation, a process related to learning and memory formation. Remarkably, the result reveals that the lifetime of long-term potentiation for 100-pulse stimulation is 40 min, indicating that the device can forget newly acquired information after prolonged storage, akin to human memories. The findings provide insight into the the learning and memory abilities of atomic switch network memristors, facilitating the development of hardware-implemented artificial neural networks.

    DOI

    Scopus

  • Haptic in-sensor computing device made of carbon nanotube-polydimethylsiloxane nanocomposites.

    Kouki Kimizuka, Saman Azhari, Shoshi Tokuno, Ahmet Karacali, Yuki Usami, Shuhei Ikemoto, Hakaru Tamukoh, Hirofumi Tanaka

    CoRR   abs/2406.03958  2024年

    DOI

  • Influence of junction resistance on spatiotemporal dynamics and reservoir computing performance arising from an SWNT/POM 3D network formed via a scaffold template technique

    Saman Azhari, Deep Banerjee, Takumi Kotooka, Yuki Usami, Hirofumi Tanaka

    Nanoscale   15 ( 18 ) 8169 - 8180  2023年

     概要を見る

    For scientists in numerous fields, creating a physical device that can function like the human brain is an aspiration. It is believed that we may achieve brain-like spatiotemporal information processing by fabricating an in materio reservoir computing (RC) device because of a complex random network topology with nonlinear dynamics. One of the significant drawbacks of a two-dimensional physical reservoir system is the difficulty in controlling the network density. This work reports the use of a 3D porous template as a scaffold to fabricate a three-dimensional network of a single-walled carbon nanotube polyoxometalate nanocomposite. Although the three-dimensional system exhibits better nonlinear dynamics and spatiotemporal dynamics, and higher harmonics generation than a two-dimensional system, the results suggest a correlation between a higher number of resistive junctions and reservoir performance. We show that by increasing the spatial dimension of the device, the memory capacity improves, while the scale-free network exponent (γ) remains nearly unchanged. The three-dimensional device also displays improved performance in the well-known RC benchmark task of waveform generation. This study demonstrates the impact of an additional spatial dimension, network distribution and network density on in materio RC device performance and tries to shed some light on the reason behind such behavior.

    DOI PubMed

  • Integration of wireless power transfer technology with hierarchical multi-walled carbon nanotubes-Polydimethylsiloxane piezo-responsive pressure sensor for remote force measurement

    Saman Azhari, Kouki Kimizuka, Gabor Mehes, Yuki Usami, Yasuhiko Hayashi, Hirofumi Tanaka, Takeo Miyake

    IEEE Sensors Journal   23 ( 7 ) 1 - 1  2023年

     概要を見る

    Integrating sensory devices with wireless power transfer technology for remote sensing (RS) requires the implementation of complex electronic circuitry and communication protocols. To overcome this challenge and remotely monitor mechanical force, we directly integrated piezo-responsive porous multiwalled carbon nanotubes (MWCNTs)/polydimethylsiloxane (PDMS) nanocomposites with a near-field wireless power transfer system. The wireless system transfers power bidirectionally between the transmitter and the sensing receiver at the resonant frequency of 13.56 MHz. The detection principle is based on the mechanical force-induced impedance changes in the receiver circuit. The modulated impedance signal is detected wirelessly at the transmitter circuit via a full-bridge rectifier and a smoothing capacitor. Furthermore, we demonstrate the wireless monitoring of finger bending and applied force using our flexible and disposable sensor without using any energy storage devices. The results suggest a response and recovery time of 400 ± 50 ms, strain sensitivity of 24.73, and pressure sensitivity of 0.98. Our approach adds a new path for disposable haptic-based sensory applications that do not require complex communication protocols in medical, robotics, and other fields.

    DOI

  • In-materio computing in random networks of carbon nanotubes complexed with chemically dynamic molecules: a review.

    Hirofumi Tanaka, Saman Azhari, Yuki Usami, Deep Banerjee, Takumi Kotooka, Oradee Srikimkaew, Thien-Tan Dang, S. Murazoe, Rikuto Oyabu, Kouki Kimizuka, Masaya Hakoshima

    Neuromorph. Comput. Eng.   2 ( 2 ) 22002 - 22002  2022年

     概要を見る

    The need for highly energy-efficient information processing has sparked a new age of material-based computational devices. Among these, random networks (RNWs) of carbon nanotubes (CNTs) complexed with other materials have been extensively investigated owing to their extraordinary characteristics. However, the heterogeneity of CNT research has made it quite challenging to comprehend the necessary features of in-materio computing in a RNW of CNTs. Herein, we systematically tackle the topic by reviewing the progress of CNT applications, from the discovery of individual CNT conduction to their recent uses in neuromorphic and unconventional (reservoir) computing. This review catalogues the extraordinary abilities of random CNT networks and their complexes used to conduct nonlinear in-materio computing tasks as well as classification tasks that may replace current energy-inefficient systems.

    DOI

    Scopus

    12
    被引用数
    (Scopus)
  • Emergence of In-Materio Intelligence from an Incidental Structure of a Single-Walled Carbon Nanotube-Porphyrin Polyoxometalate Random Network

    Deep Banerjee, Takumi Kotooka, Saman Azhari, Yuki Usami, Takuji Ogawa, James K. Gimzewski, Hakaru Tamukoh, Hirofumi Tanaka

    ADVANCED INTELLIGENT SYSTEMS   4 ( 4 ) 2100145 - 2100145  2022年01月

     概要を見る

    Hardware-based machine intelligence with the network architecture of reservoir computing (RC) is gaining interest because of its biological computational resemblance along with an easy and efficient neural network training approach. Herein, such a physical RC (in-materio RC) platform consisting of a recurrent network formed by the single-walled carbon nanotube (SWNT)-porphyrin polyoxometalate (Por-POM) complex is demonstrated. The network architecture executes the fundamental reservoir properties of nonlinearity, higher harmonic generation, and 1/f(gamma) power law information processing ability. Based on these functionalities, an RC benchmark task of waveform generation is performed where the device achieves maximum fitting accuracy of 99.4%. Furthermore, a supervised object classification task based on a one-hot vector target is also executed using Toyota Human Support Robot tactile inputs. The successful classification of objects of different hardness is enhanced when the device output response follows the 1/f(gamma) power law of maximized information processing.

    DOI

  • 自動トマト収穫システムに向けて:触覚ベースピエゾ抵抗ナノ複合材料と機械学習の統合【JST・京大機械翻訳】

    Azhari Saman, Setoguchi Takuya, Sasaki Iwao, Nakagawa Arata, Ikeda Kengo, Azhari Alin, Hasan Intan Helina, Hamidon Mohd Nizar, Fukunaga Naoto, Shibata Tomohiro, Tanaka Hirofumi

    IEEE Sensors Journal   21 ( 24 ) 27810 - 27817  2021年12月

    DOI J-GLOBAL

    Scopus

    5
    被引用数
    (Scopus)
  • 単層カーボンナノチューブ/ポルフィリン-ポリオキソ金属酸塩複合材料によるブール関数最適化のためのin-marioリザーバー計算の室温実証

    Banerjee Deep, Azhari Saman, Azhari Saman, Usami Yuki, Usami Yuki, Tanaka Hirofumi, Tanaka Hirofumi

    Applied Physics Express   14 ( 10 )  2021年10月

    DOI J-GLOBAL

    Scopus

    12
    被引用数
    (Scopus)
  • Ag-Ag2Sコア-シェルナノ粒子ベースランダムネットワークリザーバー計算デバイスの性能

    Hadiyawarman, Hadiyawarman, Usami Yuki, Usami Yuki, Kotooka Takumi, Azhari Saman, Azhari Saman, Eguchi Masanori, Eguchi Masanori, Tanaka Hirofumi, Tanaka Hirofumi, Tanaka Hirofumi

    Japanese Journal of Applied Physics   60 ( SC )  2021年06月

    DOI J-GLOBAL

    Scopus

    12
    被引用数
    (Scopus)
  • マイクロ波デバイス応用のための有機自動車として亜麻仁油を用いたニッケル亜鉛フェライト厚膜【JST・京大機械翻訳】

    Hasan Intan Helina, Hamidon Mohd Nizar, Hamidon Mohd Nizar, Ismail Alyani, Ismail Ismayadi, Mohd Azhari Nur Alin, Mohd Kusaimi Muhammad Asnawi, Azhari Saman

    Materials Chemistry and Physics   236  2019年10月

    DOI J-GLOBAL

    Scopus

    7
    被引用数
    (Scopus)
  • フレキシブルパッチアンテナの最適化性能のためのニッケル亜鉛フェライト厚膜【JST・京大機械翻訳】

    Hasan Intan Helina, Hamidon Mohd Nizar, Ismail Ismayadi, Ismail Alyani, Kusaimi Muhammad Asnawi Mohd, Azhari Saman

    IEEE Conference Proceedings   2019 ( ISESD )  2019年10月

    DOI J-GLOBAL

    Scopus

    1
    被引用数
    (Scopus)
  • パッチアンテナへの応用の可能性のあるカーボンナノチューブ厚膜ペーストのレオロジー特性【JST・京大機械翻訳】

    Hasan Intan Helina, Hamidon Mohd Nizar, Ismail Ismayadi, Kusaimi Muhammad Asnawi Mohd, Azhari Saman, Shafiee Farah Nabilah

    IEEE Conference Proceedings   2019 ( RSM ) 109 - 111  2019年08月

    DOI J-GLOBAL

    Scopus

    1
    被引用数
    (Scopus)
  • フレキシブルマイクロストリップパッチアンテナの作製におけるイットリウム鉄ガーネット厚膜の効果【JST・京大機械翻訳】

    Hasan Intan Helina, Hamidon Mohd Nizar, Ismail Alyani, Ismail Ismayadi, Azhari Nur Alin Mohd, Azhari Saman, Kusaimi Muhammad Asnawi Mohd, Osman Rosiah

    IEEE Conference Proceedings   2019 ( EDTM ) 389 - 391  2019年03月

    DOI J-GLOBAL

    Scopus

    1
    被引用数
    (Scopus)
  • Effect of firing temperature on surface morphology of nanosized ferrite-based thick film with linseed oil as organic vehicle

    Intan Helina Hasan, Mohd Nizar Hamidon, Muhammad Asnawi Mohd Kusaimi, Saman Azhari, Nur Alin Mohd Azhari, Rosiah Osman, Juraina Md Yusof, Ismayadi Ismail

    International Journal of Nanotechnology   16 ( 11-12 ) 660 - 667  2019年

     概要を見る

    This paper presents the results of morphological study on nanosized nickel zinc ferrite (NZF) thick film using linseed oil as organic vehicle and nanosized NZF powder. First, NZF nanopowder is mixed with organic vehicle which consists of linseed oil, m-xylene and α-terpineol. Paste samples were screen printed onto alumina as substrate, dried and fired at different temperatures of 100°C, 200°C, and 300°C, respectively. Microscopic images of the samples and elemental analysis were observed to determine good dispersion of the active powder with the organic vehicle. Based on the results, the nanoparticles were uniformly dispersed, and images of thick films fired at 200°C and 300°C have shown clearly visible particles, indicating that at these temperatures, the organic vehicle has started to evaporate on the surface, revealing nanoparticles of the active powders. The elemental analysis confirmed this idea, of which carbon element of the organic vehicle gradually decreased with increasing temperature.

    DOI

    Scopus

  • CNTの化学精製と官能化プロセスのより良い理解【JST・京大機械翻訳】

    Azhari Saman, Hamidon Mohd Nizar, Hasan Intan Halina, Asnawi Muhammad, Mohd Chachuli Siti Amaniah, Azhari Alin, Ismail Ismayadi

    IEEE Conference Proceedings   2018-August ( ICSE ) 25 - 28  2018年10月

    DOI J-GLOBAL

    Scopus

    2
    被引用数
    (Scopus)
  • Nickel zinc ferrite thick film as substrate overlay for improved performance of microstrip patch antenna

    I. H. Hasan, M. N. Hamidon, A. Ismail, I. Ismail, M. A.M. Kusaimi, S. Azhari, N. A.M. Azhari, R. Osman

    IOP Conference Series: Materials Science and Engineering   380 ( 1 )  2018年07月

     概要を見る

    In this paper, nickel zinc ferrite (NZF) nanopowder was mixed with organic vehicle which consists of linseed oil, m-xylene and α-terpineol. Then the mixture was sonicated for 1 hour at 40°C in order to obtain homogenous paste, followed by printing it onto FR4 substrate using the screen printing technique to form the NZF thick film layer before dried at 100°C and later fired at 200°C. A basic square shape patch antenna by using silver paste was printed onto the NZF thick film layer and was compared with another patch antenna which was been printed without the NZF layer. The results showed that the antenna with NZF thick film layer has return loss of -10.97dB, resonant frequency 6.42GHz, bandwidth 3.9 and Q factor of 1.646, which is better compared to the antenna without the layer by 32.81%, 3.22%, 86.60% and 44.69% respectively.

    DOI

    Scopus

    5
    被引用数
    (Scopus)
  • YIG Thick Film as Substrate Overlay for Bandwidth Enhancement of Microstrip Patch Antenna

    Intan Helina Hasan, Mohd Nizar Hamidon, Alyani Ismail, Ismayadi Ismail, Anwer Sabah Mekki, Muhammad Asnawi Mohd Kusaimi, Saman Azhari, Rosiah Osman

    IEEE Access   6   32601 - 32611  2018年05月

     概要を見る

    Research on microstrip patch antenna (MPA) has been growing in the past few decades due to its planar profile and easy fabrication. Its simplicity of structure, which includes a conductive patch, a dielectric substrate, a ground plane, and a microstrip feeder, is making it more popular for integration in devices which are more focused on miniaturization and flexibility. There are, however, a few disadvantages of MPA, such as narrow bandwidth, low power, and limited inexpensive material selection if a current printed circuit board etching fabrication technique is used. Ferrite substrates are known to be able to help overcome this issue, but the properties of bulk ferrites are difficult to control. This paper aims to solve this problem by using thick-film technology, which utilizes a screen printing method to include ferrite thick film in the MPA structure as substrate overlay to help enhance the performance of MPA. Yttrium iron garnet was chosen as the starting ferrite nanopowders, and the preparation and characterization of the ferrite thick-film paste were carried out to investigate properties of the thick film. Results showed that the thick film showed moderate permittivity and permeability, which is suitable for MPA fabrication. The actual fabricated MPA with ferrite thick-film inclusion on FR4 substrate showed that the thick film improved the performance of MPA with low firing temperature of 200 °C. For MPA which is designed to work at 5.8 GHz, the return loss and -3-dB bandwidth improved 100% and 73%, respectively. In conclusion, ferrite thick-film inclusion in MPA fabrication has proven to improve the performance of the antenna in terms of return loss and bandwidth enhancement.

    DOI

    Scopus

    20
    被引用数
    (Scopus)
  • Fabrication, functionalization, and dispersion of carbon nanotubes

    Taha Roodbar Shojaei, Saman Azhari

    Emerging Applications of Nanoparticles and Architectural Nanostructures: Current Prospects and Future Trends     501 - 531  2018年03月

     概要を見る

    Discovery of carbon nanotubes (CNTs) was beginning of a revolutionary path for material scientists. CNTs extraordinary properties made this wonder material an important alternative for scientists in all fields; although utilizing CNTs were not as simple as synthesizing them. Ever since the discovery, numerous platforms for synthesis of CNTs have been investigated. Depending on the necessity of the application in which CNTs are exploited different quality, yield, chirality, size, and properties are required. Nowadays the fabrication process mostly relies on arc discharge, laser ablation and chemical vapor deposition (CVD). One of the major drawbacks in exploitation of CNTs is their tenancy to aggregate due to the weak van der Waals forces present as a result of sp2 hybridization of carbon atoms. Due to the extraordinary mechanical, electrical, optical, chemical, physical, biological, and other features of CNTs, scientists began to work on different methods to overcome aggregation during utilization of CNTs. Dispersion of CNTs has been done via several functionalization processes. Each of these techniques has their own functionality. Functionalization of CNTs depends on two central techniques, covalent and noncovalent modifications, which are essential, to achieve desired characteristics that can be applied in wide range of applications. Therefore, in this chapter we will try to explain the CNTs fabrication techniques as well as the methods that have been utilized to increase the purity and dispersion of CNTs.

    DOI

    Scopus

    8
    被引用数
    (Scopus)
  • カーボンブラック/PDMSを用いたフレキシブル圧力センサの作製【Powered by NICT】

    Hadi Siti Nursyahirah Binti Abdul, Hamidon Mohd Nizar Bin, Azhari Saman

    IEEE Conference Proceedings   2018-January ( SCOReD ) 7 - 12  2018年02月

    DOI J-GLOBAL

    Scopus

  • マイクロ波オーブンによる籾殻からの炭素ナノ材料の合成【JST・京大機械翻訳】

    Asnawi Muhammad, Azhari Saman, Hamidon Mohd Nizar, Ismail Ismayadi, Helina Intan

    Journal of Nanomaterials (Web)   2018  2018年

    DOI J-GLOBAL

    Scopus

    45
    被引用数
    (Scopus)
  • 精製と官能化CNT/PDMSナノ複合材料によるピエゾ抵抗をベースにした圧力センサの作製:触覚センサの開発に向けて【Powered by NICT】

    Azhari Saman, Termeh Yousefi Amin, Tanaka Hirofumi, Khajeh Amin, Kuredemus Nico, Mansouri Bigdeli Mani, Hamidon Mohd Nizar

    Sensors and Actuators. A. Physical   266   158 - 165  2017年10月

    DOI J-GLOBAL

    Scopus

    33
    被引用数
    (Scopus)
  • 触覚に基づくピエゾ抵抗人工指先の開発:ヒト型ロボットのための効率的な触覚センシングシステムに向けて【Powered by NICT】

    TermehYousefi Amin, Azhari Saman, Khajeh Amin, Hamidon Mohd Nizar, Tanaka Hirofumi

    Materials Science & Engineering. C. Materials for Biological Applications   77   1098 - 1103  2017年08月  [国際誌]

    DOI PubMed J-GLOBAL

    Scopus

    17
    被引用数
    (Scopus)
  • Simple Microwave-Assisted Synthesis of Carbon Nanotubes Using Polyethylene as Carbon Precursor

    N. Kure, M. N. Hamidon, S. Azhari, N. S. Mamat, H. M. Yusoff, B. M. Isa, Z. Yunusa

    Journal of Nanomaterials   2017  2017年

     概要を見る

    In this work, a quick and effective method to synthesize carbon nanotubes (CNTs) is reported; a commercial microwave oven of 600 W at 2.45 GHz was utilized to synthesize CNTs from plasma catalytic decomposition of polyethylene. Polyethylene and silicon substrate coated with iron (III) nitrate were placed in the reaction chamber to form the synthesis stock. The CNTs were synthesized at 750°C under atmospheric pressure of 0.81 mbar. Raman spectroscopy and field emission scanning electron microscope revealed the quality and entangled bundles of mixed CNTs from which the diameters of the CNTs were calculated to be between 1.03 and 25.00 nm. High resolution transmission electron microscope further showed that the CNTs obtained by this method are graphitized. Energy dispersive X-ray analysis and thermogravimetric analysis revealed above 98% carbon purity.

    DOI

    Scopus

    30
    被引用数
    (Scopus)
  • Synthesis of carbon nanotubes using microwave oven

    Nicodemus Kure, Mohd Nizar Hamidon, Saman Azhari, Kamilu Iman Usman, Intan Helina Hasan, Ismayadi Ismail

    RSM 2015 - 2015 IEEE Regional Symposium on Micro and Nano Electronics, Proceedings     353 - 356  2015年12月

     概要を見る

    Advances in the synthesis of carbon nanotubes (CNTs) have emerged as a result of the properties and potential application of carbon nanotubes. We demonstrated a simple approach of using domestic microwave oven with 600W at 2.45 GHz which was modified to produce CNTs from a carbon source on coated silicon oxide substrate. The Raman spectroscopy showed the graphitic nature of the obtained CNTs, with intensity ratio ID/IG calculated to be 0.92. Field emission scanning electron microscope (FESEM) reveals CNTs are produced on the substrate surface with outer diameter range of 11-44 nm and length of about 0.25 μm. HRTEM further confirmed the graphitic nature of the CNTs obtained. The purity of the nanotubes was analyzed with energy dispersive X-ray (EDX) which showed atomic weight of 98% carbon purity. This paper shows that domestic microwave oven can be used to synthesize CNTs with polymer as the carbon source via plasma catalytic decomposition which was found to be fast, economical and clean technique.

    DOI

    Scopus

  • Printability and structural analysis of Yttrium iron garnet thick film with low firing temperature

    Intan Helina Hasan, Mohd Nizar Hamidon, Ismayadi Ismail, Rosiah Osman, Saman Azhari

    RSM 2015 - 2015 IEEE Regional Symposium on Micro and Nano Electronics, Proceedings     267 - 270  2015年12月

     概要を見る

    This paper presents results of study on Yttrium iron garnet (YIG) thick film paste using linseed oil as organic binder. YIG nanopowder is mixed with organic vehicle which consists of linseed oil, m-xylene and α-terpineol. Samples with different ratios of compositions are prepared to study the printability and adhesion properties of the paste. Paste samples were then screen printed onto alumina substrate, dried and fired at 300°C. Microscopic images of the samples were observed to determine most suitable ratio for producing YIG paste. Based on the results, YIG paste with 30 wt% ratio showed good adhesion to the substrate as well as having high dielectric property compared to pastes with lower powder ratio.

    DOI

    Scopus

    4
    被引用数
    (Scopus)
  • Effect of aggregation on dielectric property of MWCNT/PDMS nanocomposite

    Saman Azhari, Mohd Nizar Hamidon, Kamilu Iman Usman, Intan Helina Hasan, Ismayadi Ismail, Kure Nicodemus

    RSM 2015 - 2015 IEEE Regional Symposium on Micro and Nano Electronics, Proceedings     361 - 364  2015年12月

     概要を見る

    Highly graphitized nucleophilic group functionalized Multiwall carbon nanotubes are utilized to fabricate PDMS/FMWCNTs nanocomposites with low weight fraction (0.1 wt%). The effect of solvents on dispersion of FMWCNTs is studied. THF shows higher dispersion power in comparison with chloroform. The dielectric constant is measured using impedance analyzer in the range of 106-109 Hz. The result indicate, the dielectric property of FMWCNTs/PDMS nanocomposite could be manipulated with proper mixing techniques and adjustment of curing time.

    DOI

    Scopus

    3
    被引用数
    (Scopus)
  • Silicon nanowire interface circuit for biosensing applications

    Kamilu Iman Usman, Mohd Nizar Hamidon, Nor Azah Yusof, Saman Azhari, Intan Helina Hasan, Kure Nicodemus, Siti Fatimah Abd Rahman

    RSM 2015 - 2015 IEEE Regional Symposium on Micro and Nano Electronics, Proceedings     357 - 360  2015年12月

     概要を見る

    Detection and quantification of biological and chemical species are critical to many areas of the life sciences and health care, from disease diagnosis to drug screening. Central to detection is the transduction of the signal associated with the sensing event. Advances in nanotechnology have led to the development of the silicon nanowire which is faster, smaller, greener and cheaper. These nanowires have a very narrow diameter similar to that of the chemical and biological species to be sensed making them perfectly suited for biosensing. The top-down fabricated silicon nanowires is used in this work due to its oxide-coated surface and ease of integration with other microelectronic components. Due to the ultra-small output signal of the nanowire, bulky equipments which are often time consuming and expensive are used for reading the signal. This work attempts to build a circuit that can be interfaced with the nanowire to make the signal readable hence the sensor will become portable thereby increasing its utility to being a point-of-care and field-testing device.

    DOI

    Scopus

    1
    被引用数
    (Scopus)

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書籍等出版物

  • Emerging Applications of Nanoparticles and Architecture Nanostructures Current Prospects and Future Trends

    ( 担当: 分担執筆)

    Elsevier  2018年01月 ISBN: 9780323512541

共同研究・競争的資金等の研究課題

  • 人工皮膚応用に向けた微小圧力センサマイクロアレイの開発と生体実装

    旭興産グループ研究支援プログラム 

    研究期間:

    2021年04月
    -
    2024年03月
     

Misc

  • ナノマテリアルランダムネットワークを利用した物理リザバー演算素子とそのセンシング応用

    田中 啓文, アズハリ サマン, バナジー ディープ, 君塚 紘喜, 田中 悠一朗, 宇佐美 雄生

    表面と真空   67 ( 9 ) 428 - 432  2024年09月

    DOI

  • スマートコンタクトレンズに関する最新動向

    AZHARI Saman, MEHES Gabor, MIYAKE Takeo

    化学とマイクロ・ナノシステム   23 ( 1 ) 1 - 8  2024年

    J-GLOBAL

  • ナノ粒子ネットワークに基づく原子スイッチにおけるシナプス可塑性【JST・京大機械翻訳】

    SRIKIMKAEW Oradee, AZHARI Saman, BANERJEE Deep, USAMI Yuki, TANAKA Hirofumi

    ナノ学会大会講演予稿集   21st (Web)  2023年

    J-GLOBAL

  • 眼内圧測定のためのウェアラブルおよび伸縮性歪センサ【JST・京大機械翻訳】

    ZHANG Hanzhe, XIAO Te, SAMAN Azhari, MIYAKE Takeo

    応用物理学会春季学術講演会講演予稿集(CD-ROM)   70th  2023年

    J-GLOBAL

  • 微生物バイオエレクトロニクスのための電気化学重合による炭素系PEDOT-酸化還元高分子電極の調製【JST・京大機械翻訳】

    GU Shenghan, UEKI Aoba, NAGAMINE Kuniaki, AZHARI Saman, MEHES Gabor, MIYAKE Takeo, MIYAKE Takeo

    応用物理学会春季学術講演会講演予稿集(CD-ROM)   70th  2023年

    J-GLOBAL

  • CNT-PDMSナノ複合体を用いたリザバー素子によるインセンサコンピューティング

    君塚紘喜, AZHARI Saman, AZHARI Saman, 池本周平, 池本周平, 宇佐美雄生, 宇佐美雄生, 田中啓文, 田中啓文

    応用物理学会春季学術講演会講演予稿集(CD-ROM)   70th  2023年

    J-GLOBAL

  • CNT-PDMSナノ複合体を用いたリザバー素子によるインセンサコンピューティング

    君塚紘喜, AZHARI Saman, AZHARI Saman, 池本周平, 池本周平, 宇佐美雄生, 宇佐美雄生, 田中啓文, 田中啓文

    応用物理学会秋季学術講演会講演予稿集(CD-ROM)   84th  2023年

    J-GLOBAL

  • エレクトロレチノグラフィモニタリング用のコンタクトレンズ上に装着したソフト,透明,メッシュ微小電極【JST・京大機械翻訳】

    LI Qianyu, HU Lunjie, SAMAN Azhari, MIYAKE Takeo, KIMURA Kazuhiro, ASHIMORI Atsushige

    応用物理学会秋季学術講演会講演予稿集(CD-ROM)   84th  2023年

    J-GLOBAL

  • 無線電力伝送技術によるリモートセンシングのための多孔質MWCNTs-PDMSナノ複合材料のピエゾインピーダンス特性の利用【JST・京大機械翻訳】

    AZHARI Saman, KIMIZUKA Kouki, MEHES Gabor, USAMI Yuki, HAYASHI Yasuhiko, TANAKA Hirofumi, MIYAKE Takeo

    応用物理学会秋季学術講演会講演予稿集(CD-ROM)   84th  2023年

    J-GLOBAL

  • インマトリオ貯水池計算のための三次元ネットワークトポロジー【JST・京大機械翻訳】

    AZHARI Saman, JEE BANER Deep, USAMI Yuki, TANAKA Hirofumi

    応用物理学会春季学術講演会講演予稿集(CD-ROM)   69th  2022年

    J-GLOBAL

  • In-Materio貯留層計算のためのPt/Ag-Ag_2Sナノ粒子/Pt拡散メモリスタ【JST・京大機械翻訳】

    SRIKIMKAEW Oradee, AZHARI Saman, AZHARI Saman, USAMI Yuki, USAMI Yuki, TANAKA Hirofumi, TANAKA Hirofumi

    応用物理学会春季学術講演会講演予稿集(CD-ROM)   69th  2022年

    J-GLOBAL

  • CNT-PDMSナノ複合体を用いたリザバー素子によるインセンサーコンピューティング

    君塚紘喜, AZHARI Saman, AZHARI Saman, 池本周平, 池本周平, 宇佐美雄生, 宇佐美雄生, 田中啓文, 田中啓文

    ナノ学会大会講演予稿集   20th  2022年

    J-GLOBAL

  • CNT-PDMSナノ複合体を用いたインセンサー演算素子による重量・位置検出

    君塚紘喜, AZHARI Saman, AZHARI Saman, 池本周平, 池本周平, 宇佐美雄生, 宇佐美雄生, 田中啓文, 田中啓文

    応用物理学会秋季学術講演会講演予稿集(CD-ROM)   83rd  2022年

    J-GLOBAL

  • 拡散性メモリスタに基づくネットワーク化Ag/Ag_2Sナノ粒子におけるシナプス可塑性【JST・京大機械翻訳】

    SRIKIMKAEW Oradee, AZHARI Saman, AZHARI Saman, BANERJEE Deep, BANERJEE Deep, USAMI Yuki, USAMI Yuki, TANAKA Hirofumi, TANAKA Hirofumi

    応用物理学会秋季学術講演会講演予稿集(CD-ROM)   83rd  2022年

    J-GLOBAL

  • 3次元多孔質CNT-POMネットワークにおける貯留層計算増強【JST・京大機械翻訳】

    AZHARI Saman, BANERJEE Deep, KOTOOKA Takumi, USAMI Yuki, TANAKA Hirofumi

    応用物理学会春季学術講演会講演予稿集(CD-ROM)   68th   263 - 263  2021年

    DOI J-GLOBAL

  • ナノ材料集合体を記憶部に用いた時間遅延型リザバーコンピューティング

    中尾祐介, 宇佐美雄生, 宇佐美雄生, AZHARI Saman, AZHARI Saman, HADIYAWARMAN, HADIYAWARMAN, 田中啓文, 田中啓文

    応用物理学会春季学術講演会講演予稿集(CD-ROM)   68th   1670 - 1670  2021年

    DOI J-GLOBAL

  • 三次元多孔性CNT-POMネットワークのリザバーコンピューティング

    AZHARI Saman, BANERJEE Deep, KOTOOKA Takumi, USAMI Yuki, TANAKA Hirofumi

    ナノ学会大会講演予稿集   19th  2021年

    J-GLOBAL

  • 単層カーボンナノチューブ/ポルフィリン-ポリオキソメタレートのランダムネットワークによるインマトリオ教師付きブール論理演算【JST・京大機械翻訳】

    DEEP Banerjee, AZHARI Saman, USAMI Yuki, TANAKA Hirofumi

    応用物理学会秋季学術講演会講演予稿集(CD-ROM)   82nd  2021年

    J-GLOBAL

  • インマトリオ貯水池計算に及ぼすデバイストポロジーの影響【JST・京大機械翻訳】

    AZHARI Saman, BANERJEE Deep, MURAZOE Shuho, KOTOOKA Takumi, USAMI Yuki, USAMI Yuki, TANAKA Hirofumi, TANAKA Hirofumi

    応用物理学会秋季学術講演会講演予稿集(CD-ROM)   82nd  2021年

    J-GLOBAL

  • TiO_2ナノワイヤの水素ガス検知特性に及ぼす親水性の影響【JST・京大機械翻訳】

    AZHARI Saman, HAMIDON Mohd Nizar, TANAKA Hirofumi

    応用物理学会春季学術講演会講演予稿集(CD-ROM)   67th   1725 - 1725  2020年

    DOI J-GLOBAL

  • 多様な材料を利用したランダムネットワーク物理リザバーの比較

    田中啓文, 田中啓文, 琴岡匠, DEEP Banerjee, HADIYAWARMAN, HADIYAWARMAN, AZHARI Saman, AZHARI Saman, 宇佐美雄生, 宇佐美雄生

    応用物理学会秋季学術講演会講演予稿集(CD-ROM)   81st   222 - 222  2020年

    DOI J-GLOBAL

  • TiO_2ナノチューブの水素ガス検知特性に対する親水性の重要性【JST・京大機械翻訳】

    AZHARI Saman, AZHARI Saman, HAMIDON Mohd Nizar, TANAKA Hirofumi, TANAKA Hirofumi

    応用物理学会秋季学術講演会講演予稿集(CD-ROM)   81st   1287 - 1287  2020年

    DOI J-GLOBAL

  • カーボンフォームを利用した触覚センサの作製と評価

    池田健吾, AZHARI Saman, 佐々木巌, 宇佐美雄生, 田中啓文

    応用物理学会秋季学術講演会講演予稿集(CD-ROM)   81st   2245 - 2245  2020年

    DOI J-GLOBAL

  • トマト収穫自動化に向けた,高感度ピエゾ抵抗ナノ複合材料触覚センサ

    池田健吾, 佐々木巌, Azhari Saman, Azhari Saman, 瀬戸口卓也, 中川新, Hamidon Mohd Nizar, 田中啓文

    日本表面真空学会学術講演会要旨集(Web)   2019   1Ca12  2019年

     概要を見る

    CNT / PDMS複合材料をトマト収穫用触覚センサとして構成し、I-VおよびI-t特性を調査した。導電パスの増加により、I-V曲線は高重量領域に向かって減少した。硬度測定の結果、トマトの低重量領域において正確で安定した測定が可能となり、 市販のセンサよりも高い感度を示した。トマトの成熟度を判別するためにサポートベクターマシンによる機械学習を行った。その結果、0.67の判別精度であった。

    DOI CiNii J-GLOBAL

▼全件表示

産業財産権

  • 識別装置及びそれを有するロボット

    田中啓文, 宇佐美雄生, 君塚紘喜, アズハリサマン, カラチャリアハメト

    特許権

  • 力学量センサ及びそれを有するロボット並びに力学量のセンシング方法

    田中啓文, 宇佐美雄生, アズハリサマン, 君塚紘喜

    特許権

  • 3次元電気素子及びそれを備えた機械学習システム並びにそれぞれの製造方法

    田中啓文, 宇佐美雄生, アズハリサマン

    特許権

  • 3次元電気素子及びそれを備えた機械学習システム

    田中啓文, 宇佐美雄生, アズハリサマン

    特許権

 

特定課題制度(学内資金)

  • Tunable 3D reservoir computing using SWCNT-PVA nanocomposite via manipulation of junction resistance

    2023年   Saman Azhari

     概要を見る

    The tunability of aphysical reservoir computing device is a challenge and difficult to rectify.This is mainly due to the complexity of the charge transfer mechanism innanostructures used to make a microdevice. The randomness of the nanomaterialnetwork is suggested to improve the physical reservoir computing performance,but such randomness makes it even more challenging to identify the source ofperformance improvement or decline.  Duringthis year, we aimed to fabricate a tunable 3D reservoir computing device usingSWCNT-PVA nanocomposite via manipulation of junction resistance. We were able tofabricate a 3D porous network of SWCNT-PVA nanocomposite successfully. However,an issue arose during the measurement of reservoir computing performance due tothe low mechanical stability of the nanocomposite. The nanocomposite was softand deformable and unable to recover its original state, making it challengingto perform a stable and reliable reservoir computing performance assessment. Inaddition, the high-water susceptibility of PVA made it difficult to performfurther analysis on the nanocomposite. Although I do believe there are otherapplications for SWCNT-PVA porous nanocomposite in the current state, it is notsuitable as a physical reservoir computing device. The current issue couldpossibly be rectified by introducing additives to improve the mechanicalstability of the nanocomposite. So far, the reservoir computing performance of SWCNT-PVAnanocomposite results have been inconclusive, but I am in the process ofimproving the structural stability. My research on physicalreservoir computing did not stop due to the challenges I faced. While workingon SWCNT-PVA, as a result of my collaboration with Professor Hirofumi Tanaka ofthe Kyushu Institute of Technology, we were able to publish an article in ACS AppliedElectronic Materials with the title “High Performance of an In-MaterialReservoir Computing Device Achieved by Complex Dynamics in a NanoparticleRandom Network Memristor.”

  • Development of electromagnetic reservoir computing system via wireless power transmission technology for voice classification and word prediction tasks

    2022年   Takeo Miyake, Hirofumi Tanaka, Gabor Mehes, Yuki Usami

     概要を見る

    In the development of an electromagnetic (EM) reservoircomputing system for classification tasks, inputting data and measuringinterferences in the EM field pose a challenge. We have developed a system thatconverts high-frequency AC signals to DC to overcome the high-frequencysampling difficulties. The system uses a piezoresistive material to inducechanges in the EM field between the transmitter and receiver, which are thenobserved as a DC voltage drop in the transmitter. These changes serve as ameans of measurement for inputting data into the EM reservoir. Our research has successfully addressed the challenges ofinputting data and measuring interferences in the EM field for a reservoircomputing system. The next step is to increase the number of output nodes toenhance the accuracy of the tasks performed by the system. The results of ourwork, titled "Integration of wireless power transfer technology withhierarchical multi-walled carbon nanotubes-Polydimethylsiloxanepiezo-responsive pressure sensor for remote force measurement", arecurrently under review by IEEE Sensor. In conclusion, our findings demonstrate the potential of usingthe EM field as a reservoir computing system to perform time-dependent andclassification tasks. The system has numerous potential applications and couldhave significant implications in various fields.