QCM922A 【水晶振動子測定システム】

概要

水晶振動子測定システム QCM922Aは、実績あるQCA922の後継機で微少な重量変化を共振周波数、粘弾性変化を共振抵抗として同時に測定が可能で、アドミタンスの周波数特性の測定にも対応したQCM (Quartz Crystal Microbalance)装置です。従来の9MHz水晶振動子に加え、30MHzまでの高感度測定、10msでの高速測定が可能です。

【アプリケーション例】

  • タンパク質などの生体高分子間相互作用の測定
  • 高分子の形成や分解のリアルタイムモニター
  • EQCMによるリチウムイオン二次電池の評価
  • 湿度や匂い物質などの気相分析
  • 界面活性剤による洗浄性の定量評価
  • メッキなどによる製膜の膜厚測定
  • アドミタンスの周波数特性の測定による構造変化の解析 など

特長

  • 5~30MHzの共振周波数を10ms間隔、0.01Hz分解能で測定
  • 他励発振式の測定で共振周波数と共振抵抗を同時に測定
  • アドミタンスの周波数特性の測定機能を標準搭載
  • スタンドアロンやポテンショスタット接続のEQCM測定に対応
  • アナログ出力に加え、EQCM測定用にアナログ入力にも対応
  • マルチプレクサーによる4チャンネル測定が可能(オプション)

仕様

QCM922A-000【本体】

  • 測定項目: 共振周波数・共振抵抗同時、またはアドミタンスの周波数特性
  • 共振周波数: 測定分解能:0.01Hz、測定範囲:5MHz~30MHz
  • 共振抵抗: 測定分解能:0.01Ω、測定範囲:1Ω~10kΩ
  • アドミタンスの周波数特性: [コンダクタンス、サセプタンス] 周波数範囲:4MHz~30MHz
  • ΔFアナログ出力: フルスケール:±10V (14ビット)、測定範囲:±100Hz~±500kHz
  • ΔRアナログ出力: フルスケール:±10V (14ビット)、測定範囲:±10Ω~±16kΩ
  • アナログ入力: チャンネル数:2ch、フルスケール:±3/6/12V (14ビット)
  • ゲートタイム [周波数分解能]: 10ms/20ms/100ms/1s/10s [0.01Hz]
  • ディスプレイ: 20文字x4行 有機ELディスプレイ、各種測定値リアルタイム表示
  • インターフェイス: [PC通信用] USB 2.0、[マルチプレクサー用] DSUB 9ピンコネクタ
  • 電源電圧: AC 100~240V、50/60Hz
  • 消費電力: 最大 25VA
  • 外形寸法: 162(W) x 161(D) x 95(H)mm(突起物を除く)
  • 重量: 約1.3kg
  • 使用環境温度範囲: 5℃~40℃(但し、結露なきこと)

※ QCM922A本体(QCM922A-000)には、QA-CLセル用アダプターケーブル(QCM922A-100)が同梱されています。
※ QCM922A用マルチプレクサー QCM922A-910 (最大4チャンネル)にも対応しています。

論文リスト

【2021年】

Myong, Kyong Kyu, et al. “Direct and quantitative study of ceria–SiO2 interaction depending on Ce3+ concentration for chemical mechanical planarization (CMP) cleaning.” Materials Science in Semiconductor Processing 122 (2021): 105500.
[Keywords: Ceria, Silica, AdsorptionInteractive force, Activation energy]

Tesakova, M. V., and V. I. Parfenyuk. “Electrochemical Synthesis of Conducting Polyporphyrin Films based on 5,10,15,20-Tetrakis(4-hydroxyphenyl)porphyrin.” Surface Engineering and Applied Electrochemistry 57.1 (2021): 67-74.
[Keywords: electropolymerization, 5,10,15,20-tetrakis(4-hydroxyphenyl)porphyrin, polyporphyrins, p-type conductivity, electrochemical oxidation]

Ueda, Tomoya, Daiki Murakami, and Masaru Tanaka. “Effect of interfacial structure based on grafting density of poly(2-methoxyethyl acrylate) on blood compatibility.” Colloids and Surfaces B: Biointerfaces 199 (2021): 111517.
[Keywords: Blood-compatible polymer, Grafting density, Interfacial structure, In-plane phase separation]

Son, Jieun, et al. “GC-like Graphene-Coated Quartz Crystal Microbalance Sensor with Microcolumns.” ACS Applied Materials & Interfaces 13.3 (2021): 4703-4710.
[Keywords: quartz crystal microbalance, gas chromatography, chemical sensor, single-gas sensor, microcolumn]

Yuza, Nitaro, Nobuyuki Serizawa, and Yasushi Katayama. “Electropolishing of Tin in an Amide-Type Ionic Liquid.” Journal of The Electrochemical Society 168.3 (2021): 036509.

Takeno, H., Y. Aoki, and K. Kimura. “Effects of addition of Silica Nanospheres on Mechanical Properties of Clay/Sodium Polyacrylate Hydrogels.” Materials Today Communications (2021): 102710.
[Keywords: Nanocomposite hydrogels, Mechanical toughness, Small-angle X-ray scattering]

Keisar, Or, Yair Ein-Eli, and Yair Cohen. “Exploring the mechanical stability of manganese oxide as an electrocatalyst via in-situ surface stress and electrochemical quartz crystal microbalance studies.” Journal of Power Sources 506 (2021): 230137.
[Keywords: EQCM, Surface stress, ORR, Manganese-oxide, Electro-catalysis]

Shim, Deuk-Yong, Sang-Mok Chang, and Jong Min Kim. “Development of fast resettable gravimetric aromatic gas sensors using quartz crystal microbalance.” Sensors and Actuators B: Chemical 329 (2021): 129143.
[Keywords: Layer by layer, Aromatic gas sensors, Quartz crystal microbalance, Surface molecular imprint, Molecular imprint]

Lim, Ji Yoon, and Soo Suk Lee. “Quartz crystal microbalance cardiac Troponin I immunosensors employing signal amplification with TiO2 nanoparticle photocatalyst.” Talanta 228 (2021): 122233.
[Keywords: Quartz crystal microbalance (QCM) sensor, Immunoassay, Cardiac troponin I(cTnI), Titanium oxide(TiO2), nanoparticle, Photocatalyst]

Iizuka, Leo, and Masatoshi Kondo. “Mass Transfer of Ni in Liquid Li Detected by Quartz Crystal Microbalance.” Plasma and Fusion Research 16 (2021): 2405026-2405026.
[Keywords: quartz crystal microbalance, liquid metal, mass transfer, corrosion, diffusion coefficient]

Wang, Huan, et al. “A conducting additive-free high potential quinone-based conducting redox polymer as lithium ion battery cathode.” Electrochimica Acta 391 (2021): 138901.

Kugai, Junichiro, et al. “Electrochemical quartz crystal microbalance studies on specific adsorption of nanoparticle stabilizers on platinum surface.” Journal of Electroanalytical Chemistry (2021): 115596.
[Keywords: Nanoparticle, Stabilizer, Specific adsorption, Quartz crystal microbalance, Density Functional Theory]

Li, Qipeng, et al. “Bioinspired double self-adhesion coating based on dopamine, coating resin and phosphorylcholine for surface lubrication and antifouling functionalization.” Designed monomers and polymers 24.1 (2021): 106-112.
[Keywords: Bioinspired coating, lubrication, bacterial antiadhesion, double adhesion protection, hydration layer]

Wang, Wen, et al. “Nanofiber-based transparent film with controllable optical transparency adjustment function for versatile bionic applications.” Nano Research (2021): 1-9.
[Keywords: transparent film, controllable regulation, refractive index, stimuli-responsive, reversible transition]

Botella, R., et al. “Influence of hydration/dehydration on adsorbed molecules: Case of phthalate on goethite.” Colloids and Surfaces A: Physicochemical and Engineering Aspects (2021): 126872.
[Keywords: Phthalate, Goethite, Infrared, DFT calculations, Hydration, Dehydration ,Adsorption ,Desorption]

Jang, Won Joon, et al. “Effect of an Iodine Film on Charge-Transfer Resistance during the Electro-Oxidation of Iodide in Redox Flow Batteries.” ACS Applied Materials & Interfaces 13.5 (2021): 6385-6393.
[Keywords: I2-film, charge-transfer resistance, zinc-polyiodide flow batteries, overpotential, film structures]

山岡賢司, 藤井義久, and 鳥飼直也. “水晶振動子マイクロバランスを用いたメチルセルロース水溶液の局所的ゲル化挙動計測.” 日本金属学会誌 (2021): JD202007.
[Keywords: quartz crystal microbalance, interface, viscoelasticity, gel, methylcellulose]

Huang, Ji, et al. “Pt-Catalyzed D-Glucose Oxidation Reactions for Glucose Fuel Cells.” Journal of The Electrochemical Society (2021).

Asai, Naoto, et al. “Detailed analysis of liposome adsorption and its rupture on the liquid-solid interface monitored by LSPR and QCM-D integrated sensor.” Sensing and Bio-Sensing Research (2021): 100415.
[Keywords: Liposome, QCM-D, LSPR, Conformation changes]

Yamaoka, Kenji, Yoshihisa Fujii, and Naoya Torikai. “Evaluation of Local Gelation Behavior of Aqueous Methylcellulose Solution Using Quartz Crystal Microbalance.” MATERIALS TRANSACTIONS (2021): MT-M2020392.
[Keywords: quartz crystal microbalance, interface, viscoelasticity, physical gel, methylcellulose]

Ueda, Tomoya, Daiki Murakami, and Masaru Tanaka. “Effect of amount of hydrated water and mobility of hydrated poly (2-methoxyethyl acrylate) on denaturation of adsorbed fibrinogen.” Journal of Polymer Science.

Choi, Hyun Sun, et al. “Magnetically Guidable Proteinaceous Adhesive Microbots for Targeted Locoregional Therapeutics Delivery in a Highly Dynamic Environment of Esophagus.” Advanced Functional Materials (2021): 2104602.

Iannaci, Alessandro, et al. “Controlling the Carbon-Bio Interface via Glycan Functional Adlayers for Applications in Microbial Fuel Cell Bioanodes.” Molecules 26.16 (2021): 4755.

【2020年】

Seto, Hirokazu, et al. “Visual sensing of proteins using gold nanoparticles coated with polyphenolic glycoside.” Advanced Powder Technology 31.9 (2020): 4129-4133.
[Keywords: Alpha-Glucosylrutin, Glyco-functionalized materials, Gold nanoparticles, Polyphenol glycoside, Visual sensing]

Shim, Deuk-Yong, et al. “Fabrication of periodic nano-porous surface structure for highly sensitive gravimetric quartz crystal applications.” Analytica chimica acta 1107 (2020): 30-39.
[Keywords: Large surface area, Quartz crystal, Molecular slip-effect, High sensitivity, Polystyrene beads]

Hong, Biao, et al. “EQCM study on the electrochemical redox behavior of gallium in alkaline solution.” Hydrometallurgy 194 (2020): 105344.
[Keywords: Ga, EQCM, Redox behavior, Electrodeposition]

Lee, Sang-Wook, et al. “Reducing individual difference and temperature dependency of QCM humidity sensors based on graphene oxides through normalization of frequency shifts.” Sensors and Actuators B: Chemical 313 (2020): 128043.
[Keywords: humidity sensor, quartz crystal microbalance, graphene oxide, temperature dependency, normalization, economical calibration]

Seto, Hirokazu, et al. “Formation of glyco-functionalized interfaces for protein binding using polyphenolic glycoside.” Carbohydrate research 492 (2020): 108002.
[Keywords: Glyco-functionalized interface, Polyphenolic glycoside, alpha-Glucosyl rutin, Protein binding]

Mech, K., et al. “On the influence of magnetic field on electrodeposition of Ni-TiO2 composites from a citrate baths.” Materials Chemistry and Physics 255 (2020): 123550.
[Keywords: Electrodeposition, MHD effect, Ni-TiO2 composites]

Kuzmin, Sergey M., Svetlana A. Chulovskaya, and Vladimir I. Parfenyuk. “Highly conductive polyporphyrin films obtained by superoxide-assisted electropolymerization of para-aminophenyl porphyrin.” Materials Chemistry and Physics 241 (2020): 122394.
[Keywords: tetrakis(para-aminophenyl)porphyrin, Superoxide-assisted electrochemical deposition, Poly-porphyrin films, Electrical conductivity, Metal-free electrocatalyst]

Tsuruoka, Nozomu, et al. “Mediated electrochemical oxidation of glucose via poly (methylene green) grafted on the carbon surface catalyzed by flavin adenine dinucleotide-dependent glucose dehydrogenase.” Colloids and Surfaces B: Biointerfaces 192 (2020): 111065.
[Keywords: Phenothiazine, Electropolymerization, FAD glucose dehydrogenase, Bioelectrocatalysis]

Lim, Ji Yoon, and Soo Suk Lee. “Sensitive detection of microRNA using QCM biosensors: sandwich hybridization and signal amplification by TiO2 nanoparticles.” Analytical Methods 12.42 (2020): 5103-5109.

Hirata, Kazuhisa, Takeo Kawase, and Yasutaka Sumida. “Passivation Behavior of Aluminum in a Carbonate-Free Electrolyte Based on Lithium Bis (fluorosulfonyl) imide and Sulfolane.” Journal of the Electrochemical Society 167.14 (2020): 140534.

Zakharchenko, Tatiana K., et al. “Homogeneous nucleation of Li2O2 under Li-O2 battery discharge.” Nanoscale 12.7 (2020): 4591-4601.

Kuzmin, Sergey M., Svetlana A. Chulovskaya, and Vladimir I. Parfenyuk. “Effect of substituent structure on formation and properties of poly-hydroxyphenyl porphyrin films obtained by superoxide-assisted method.” Electrochimica Acta (2020): 136064.
[Keywords: Superoxide-assisted electrochemical deposition, Hydroxyphenyl porphyrin, Poly-porphyrin films, Conductivity, Electrochromic effect]

Joo, Kye Il, et al. “Harnessing the bioresponsive adhesion of immuno-bioglue for enhanced local immune checkpoint blockade therapy.” Biomaterials (2020): 120380.
[Keywords: Immune checkpoint blockade, Mussel adhesive protein, Localized immunotherapy, Combination cancer immunotherapy, Anti-PD-L1]

Mech, K., M. Bisztyga-Szklarz, and K. Szacitowski. “Brief Insights into Cu2O Electrodeposition: Detailed Progressive Voltammetric and Electrogravimetric Analysis of a Copper Lactate System.” Journal of The Electrochemical Society 167.4 (2020): 042504.

Lemaire, Pierre, et al. “Making Advanced Electrogravimetry as an Affordable Analytical Tool for Battery Interface Characterization.” Analytical Chemistry 92.20 (2020): 13803-13812.

Akerlund, Lisa, et al. “A crosslinked conducting polymer with well-defined proton trap function for reversible proton cycling in aprotic environments.” Journal of Materials Chemistry A (2020).

Flinois, T., et al. “Assisted lipid deposition by reductive electrochemical aryldiazonium grafting and insertion of the antiport NhaA protein in this stable biomimetic membrane.” Colloids and Surfaces B: Biointerfaces 190 (2020): 110924.
[Keywords: Lipid deposit, Antiport protein NhaA, 4-Decylaniline, Cyclic voltammetry ,Quartz crystal microbalance, Electrografting]

Tahar, A. Ben, et al. “High catalytic performance of laccase wired to naphthylated multiwall carbon nanotubes.” Biosensors and Bioelectronics 151 (2020): 111961.
[Keywords: Laccase orientation, Direct electron transfer, Adsorption’s kinetic]

Sonoda, Toshiki, et al. “Side-Chain Spacing Control of Derivatives of Poly (2-methoxyethyl acrylate): Impact on Hydration States and Antithrombogenicity.” Macromolecules 53.19 (2020): 8570-8580.

中田悠人, et al. “水晶振動子 (QCM) を用いた表面力測定に関する基礎研究 (表面力と共振周波数シフトの基本特性).” 中国四国支部総会・講演会 講演論文集 2020.58. 一般社団法人 日本機械学会, 2020.
[Keyword: Surface force, Adhesive force, Quartz Crystal Microbalance (QCM), Resonant frequency, Contact mechanics]

【2019年】

Mech, Krzysztof. “A novel magnetoelectrochemical method of synthesis of photoactive Ni-TiO2 coatings from glycinate electrolytes.” Materials & Design 182 (2019): 108055.
[Keywords: Ni-TiO2 composites, MHD effect, Electrodeposition, Magnetic field]

Keisar, Or, et al. “Measuring the water content in freshly-deposited fingermarks.” Forensic science international 294 (2019): 204-210.
[Keywords: Fingermarks, Water content, Relative mass loss, QCM, TPD-MS]

Tesakova, Mariya V., Sergey M. Kuzmin, and Vladimir I. Parfenyuk. “An electrochemical quartz crystal microbalance study of 5, 10, 15, 20-tetrakis (4-hydroxyphenyl) porphyrin electropolymerization process.” Journal of Porphyrins and Phthalocyanines 23.11n12 (2019): 1495-1504.
[Keywords: polyporphyrin films, electropolymerization, 5,10,15,20-tetrakis(4-hydroxyphenyl)-porphyrin, electrochemical quartz crystal microbalance method, type conductivity]

Jindai, Keisuke, et al. “Investigation of nanostructure-based bactericidal effect derived from a cicada wing by using QCM-D.” Materials Today: Proceedings 7 (2019): 492-496.
[Keywords: QCM-D, nanostructure, cicada wing]

Sonoki, Hidetoshi, Masaki Matsui, and Nobuyuki Imanishi. “Effect of Anion Species in Early Stage of SEI Formation Process.” Journal of The Electrochemical Society 166.15 (2019): A3593.

Mech, Krzysztof. “Electrodeposition of Composite Ni-TiO2 Coatings from Aqueous Acetate Baths.” Metallurgical and Materials Transactions A 50.9 (2019): 4275-4287.

Wang, Youbin, et al. “In-situ observation of the growth behavior of ZnAl layered double hydroxide film using EQCM.” Materials & Design 180 (2019): 107952.
[Keywords: ZnAl-LDHs, EQCM, Growth behavior, Corrosion]

Diyatmika, Wahyu, et al. “Fibrinogen and albumin adsorption profiles on Ni-free Zr-based thin film metallic glass.” Thin Solid Films 688 (2019): 137382.
[Keywords: Thin-film metallic glass, Protein adsorption, Fibrinogen, Albumin]

Kwak, Jiwon, and Soo Suk Lee. “Highly sensitive piezoelectric immunosensors employing signal amplification with gold nanoparticles.” Nanotechnology 30.44 (2019): 445502.

Kim, Semin, et al. “Electrochemical co-deposition of polydopamine/hyaluronic acid for anti-biofouling bioelectrodes.” Frontiers in chemistry 7 (2019): 262.
[Keywords: polydopamine, hyaluronic acid, electrochemical, bioelectrodes, anti-fouling]

Takeno, H., and A. Nakamura. “Effects of molecular mass of polymer on mechanical properties of clay/poly(ethylene oxide) blend hydrogels, and comparison between them and clay/sodium polyacrylate blend hydrogels.” Colloid and Polymer Science 297.4 (2019): 641-649.
[Keywords: Mechanical performance, Composite hydrogel, Clay, Poly (ethylene oxide), Small-angle X-ray scattering]

Park, Hyeoun Ji, and Soo Suk Lee. “Strategic Approaches for Highly Selective and Sensitive Detection of Hg2+ Ion Using Mass Sensitive Sensors.” Analytical Sciences (2019): 19P070.

Park, Hyeoun Ji, and Soo Suk Lee. “QCM sensing of miR-21 by formation of microRNA-DNA hybrid duplexes and intercalation on surface-functionalized pyrene.” Analyst 144.23 (2019): 6936-6943.

Tesakova, M. V., A. V. Balmasov, and V. I. Parfenyuk. “Physical and Chemical Properties of Polyporphyrin Films Based on the Mn Complexes of Amino-Substituted Tetraphenylporphyrin.” Inorganic Materials: Applied Research 10.5 (2019): 1164-1170.
[Keywords: polyporphyrin films, electropolymerization, semiconductor properties]

Chen, Wei, et al. “Detection of hexanal in humid circumstances using hydrophobic molecularly imprinted polymers composite.” Sensors and Actuators B: Chemical 291 (2019): 141-147.
[Keywords: QCM, Hexanal, MIPs, Hydrophobic silica nanoparticles, Agricultural products]

Ito, Takeshi, et al. “Dual Biosensor Coupling with Localized Surface Plasmon Resonance and QCM-D Using Nano-honeycomb Structure.” Materials Today: Proceedings 7 (2019): 470-475.
[Keywords: LSPR, QCM-D, AAO]

Lemaire, Pierre, et al. “Elucidating the origin of the electrochemical capacity in proton-based battery HxIrO4 via advanced electrogravimetry.” ACS Applied Materials & Interfaces (2019).
[Keywords: aqueous battery, electrode-electrolyte interface, EQCM, protonic phase HxIrO4, proton insertion]

Lin, Yu-Ting, et al. “Photo-assisted recovery in ammonia sensor based on organic vertical diode.” Organic Electronics 67 (2019): 272-278.
[Keywords: Ammonia, Fast recovery, Light-assisted recovery, Light emitting diode, Organic gas sensor]

Kwak, Jiwon, and Soo Suk Lee. “Sensitivity and reproducibility improvements in a human plasma immunoassay with removal of clotting factors.” Analytical biochemistry 585 (2019): 113410.
[Keywords: Immunoassay, Fibrinogen interference, Protamine sulfate, Enzyme-linked immunosorbent assay, Quartz crystal microbalance sensor]

Akerlund, Lisa, et al. “In situ Investigations of a Proton Trap Material: A PEDOT-Based Copolymer with Hydroquinone and Pyridine Side Groups Having Robust Cyclability in Organic Electrolytes and Ionic Liquids.” ACS Applied Energy Materials 2.6 (2019): 4486-4495.
[Keywords: conducting redox polymer, organic electronics, renewable energy storage, proton trap, quinone, in situ]

Hidema, Ruri, Seika Hayashi, and Hiroshi Suzuki. “Drag force of polyethyleneglycol in flow measured by a scanning probe microscope.” Physical Review Fluids 4.7 (2019): 074201.

Asai, Naoto, et al. “Nano-Honeycomb Electrode-Based QCM Sensor and Its Application for PPI Detection.” IEEE Sensors Journal 19.11 (2019): 4025-4030.
[Keywords: Biosensor, quartz crystal microbalance (QCM), protein-protein interaction, real time detecting]

Palin, Emma JR. An in-situ Study of Buried Metal Interfaces Using Electrochemical and Neutron Scattering Techniques. Diss. University of Leicester, 2019.

Ito, Fuyuki, Mai Saigusa, and Naoki Kanayama. “Evaporative Crystallization of Dibenzoylmethanato Boron Difluoride Probed by Time-resolved Quartz Crystal Microbalance Responses with Fluorescence Changes.” Chemistry Letters 48.10 (2019): 1199-1202.
[Keywords: Quartz crystal microbalance, Evaporative crystallization, Precursor of nucleate]

【2018年】

Asai, Naoto, et al. “Fabrication of highly sensitive QCM sensor using AAO nanoholes and its application in biosensing.” Sensors and Actuators B: Chemical 276 (2018): 534-539.
[Keywords: Quartz crystal microbalance, Nanostructure, Biosensor, Antigen?antibody interaction]

Hillman, A. Robert, et al. “Real-time in situ dynamic sub-surface imaging of multi-component electrodeposited films using event mode neutron reflectivity.” Faraday discussions 210 (2018): 429-449.

Kuzmin, Sergey M., Svetlana A. Chulovskaya, and Vladimir I. Parfenyuk. “Superoxide-assisted electrochemical deposition of Mn-aminophenyl porphyrins: Process characteristics and properties of the films.” Electrochimica Acta 292 (2018): 256-267.
[Keywords: Superoxide-assisted electrochemical deposition, Mechanism, Poly-porphyrin films, Mn-aminophenyl porphyrins, Catalytic activity]

Tesakova, Mariya V., Oskar I. Koifman, and Vladimir I. Parfenyuk. “Electropolymerization of poly-5, 10, 15, 20-tetrakis (p-aminophenyl) porphyrin in different deposition modes and solvents.” Journal of Porphyrins and Phthalocyanines 22.08 (2018): 632-639.
[Keywords: polyporphyrin films, electropolymerization, cyclic voltammetry, quartz crystal microbalance method]

Tesakova, Mariya V., Mitar Lutovac, and Vladimir I. Parfenyuk. “Electrodeposition of catalytically active polyporphyrin films of metal complexes of amino-substituted tetraphenylporphyrins.” Journal of Porphyrins and Phthalocyanines 22.12 (2018): 1047-1053.
[Keywords: electropolymerization, polyporphyrin films, quartz crystal microbalance method, oxygen electroreduction]

Park, Hyeoun Ji, and Soo Suk Lee. “A quartz crystal microbalance-based biosensor for enzymatic detection of hemoglobin A1c in whole blood.” Sensors and Actuators B: Chemical 258 (2018): 836-840.
[Keywords: Hemoglobin A1c (HbA1c), Enzymatic assay< Quartz crystal microbalance (QCM), Resonance frequency, Gold nanoparticle (AuNP), Signal amplification]

Kim, Semin, et al. "Versatile biomimetic conductive polypyrrole films doped with hyaluronic acid of different molecular weights." Acta biomaterialia 80 (2018): 258-268.
[Keywords: Conductive polymer, Hyaluronic acid, Molecular weight, Cellular interactions, Bioelectrodes]

Fortuin, Adrian C., et al. “Towards practical applications of EQCN experiments to study Pt anchor sites on carbon surfaces.” Electrocatalysis 9.2 (2018): 271-278.
[Keywords: EQCN, Graphite, Cyclic voltammetry, XPS, XRD, Carbon electrochemistry]

Park, Eun Uk, et al. “Correlation between the sensitivity and the hysteresis of humidity sensors based on graphene oxides.” Sensors and Actuators B: Chemical 258 (2018): 255-262.
[Keywords: Humidity sensor, Graphene oxide, Sensitivity, Hysteresis, Relative humidity, Sorption/desorption]

Battu, Shateesh, et al. “Metal Coordination Polymer Framework Governed by Heat of Hydration for Noninvasive Differentiation of Alkali Metal Series.” Analytical chemistry 90.21 (2018): 12917-12922.

Serizawa, Nobuyuki, et al. “Deposition and dissolution of copper on a quartz crystal resonator in contact with a separator.” Electrochemistry 86.5 (2018): 250-253.
[Keywords: Electrochemical Quartz Crystal Microbalance, In-situ Measurement, Separator, Metal Deposition]

Mateos, Mickael, et al. “Comprehensive study of poly (2, 3, 5, 6-tetrafluoroaniline): from electrosynthesis to heterojunctions and ammonia sensing.” ACS applied materials & interfaces 10.23 (2018): 19974-19986.
[Keywords: electrodeposition, conducting polymer, fluorinated material, XPS, electrochemical quartz crystal microbalance, heterojunction, ammonia sensor]

Velasco-Velez, Juan-Jesus, et al. “The electro-deposition/dissolution of CuSO4 aqueous electrolyte investigated by in situ soft X-ray absorption spectroscopy.” The Journal of Physical Chemistry B 122.2 (2018): 780-787.

Jeon, Beung-Hoon, et al. “Fabrication of silver nanoparticles in titanium dioxide/poly (vinyl alcohol) alternate thin films: A nonenzymatic hydrogen peroxide sensor application.” Electrochimica Acta 292 (2018): 749-758.
[Keywords: Silver nanoparticles, TiO2/PVA alternate film, Surface sol-gel process, Nonenzymatic hydrogen peroxide sensor, Electrochemical sensor]

Lyu, Yuan-Ping, et al. “Promising activities of hollow core-shell Pt-Ag nanoparticles with discontinuous shells as activators for catalyzing electroless copper deposition.” Journal of Electroanalytical Chemistry 812 (2018): 96-100.
[Keywords: Specific activity, Mass activity, EQCM, Kinetics]

Yamakita, Eri, and Satoru Nakashima. “Water Retention of Calcium-Containing Pectin Studied by Quartz Crystal Microbalance and Infrared Spectroscopy with a Humidity Control System.” Journal of agricultural and food chemistry 66.35 (2018): 9344-9352.
[Keywords: water molecules, hydrogen bonding, bound water, pectin, calcium ion, infrared spectroscopy, relative humidity, quartz crystal microbalance]

Friedman, Ariel, et al. “Efficient bio-inspired oxygen reduction electrocatalysis with electropolymerized cobalt corroles.” Acs Catalysis 8.6 (2018): 5024-5031.
[Keywords: fuel cells, corrole, ORR, electrocatalysis, non-precious-metal catalyst]

Khaire, Siddhi, et al. “An Interface-Controlled Redox Switch for Wastewater Remediation.” ChemElectroChem 5.2 (2018): 362-366.
[Keywords: bipolar junction transistors, chemically reversible switch, bi-stable interfacial chemistry, redox-active polymeric electrode, wastewater treatment]

Gaikwad, Pramod, et al. “A Redox-Active Electrochemical Decoder.” Advanced Materials Technologies 3.4 (2018): 1700337.
[Keywords: communication systems, conducting polymers, electrochemical decoders, memory devices, potentiometric devices]

Jeong, Yeonsu, et al. “Sprayable adhesive nanotherapeutics: mussel-protein-based nanoparticles for highly efficient locoregional cancer therapy.” ACS nano 12.9 (2018): 8909-8919.
[eywords: mussel adhesive proteins, adhesive nanoparticles, surgical spray, locoregional drug delivery, adjuvant cancer therapy]

Fortuin, Adrian Charles. Towards identifying platinum anchor sites on carbon via a model electrochemical system. Diss. University of Cape Town, 2018.

【2017年】

Kuzmin, Sergey M., et al. “Poly-porphyrin electrocatalytic films obtained via new superoxide-assisted electrochemical deposition method.” Electrochemistry Communications 83 (2017): 28-32.
[Keywords: Poly-porphyrin film, Superoxide-assisted electrochemical deposition, Electro catalyst]

Sterby, Mia, et al. “Characterization of PEDOT-quinone conducting redox polymers for water based secondary batteries.” Electrochimica Acta 235 (2017): 356-364.
[Keywords: Conducting Redox Polymer, Quinone, Organic Batteries, Proton Batteries, Redox Matching]

Taniguchi, Yoshimitsu, et al. “New type of pseudo-capacitor using redox reaction of electrolyte in single-walled carbon nanotubes.” Journal of Nanoscience and Nanotechnology 17.3 (2017): 1901-1907.
[Keywords: Capacitor, Iodine, Quartz-Crystal Microbalance, Raman Spectroscopy, Single-Walled Carbon Nanotubes]

Toyota, Yusuke, Masami Okamoto, and Shuichi Arakawa. “New opportunities for drug delivery carrier of natural allophane nanoparticles on human lung cancer A549 cells.” Applied Clay Science 143 (2017): 422-429.
[Keywords: Allophane nanoparticles, Cisplatin, Complexation, A549 cells, Apoptosis]

Gustafsson, Simon, Levon Manukyan, and Albert Mihranyan. “Protein–nanocellulose interactions in paper filters for advanced separation applications.” Langmuir 33.19 (2017): 4729-4736.

Jang, Lindy K., et al. “Facile and controllable electrochemical fabrication of cell-adhesive polypyrrole electrodes using pyrrole-RGD peptides.” Biofabrication 9.4 (2017): 045007.

Gaikwad, Pramod, et al. “Redox active binary logic gate circuit for homeland security.” Analytical chemistry 89.15 (2017): 7893-7899.

Asai, Naoto, et al. “Sensitized mass change detection using Au nanoporous electrode for biosensing.” Japanese Journal of Applied Physics 56.6S1 (2017): 06GG04.

Shiomi, Shohei, et al. “Size Distribution Control of Copper Nanoparticle: Effect of Precursor Morphology.” IEEE Transactions on Nanotechnology 16.4 (2017): 588-594.
[Keywords: Copper, materials science and technology nanofabrication, nanoparticles]

Toyota, Yusuke, et al. “Cytotoxicity of natural allophane nanoparticles on human lung cancer A549 cells.” Applied Clay Science 135 (2017): 485-492.
[Keywords: Allophane nanoparticles, Cytotoxicity, A549 cells, Quartz crystal microbalance, Cell adhesion]

Asai, Naoto, et al. “Highly sensitive quartz crystal microbalance based biosensor using Au dendrite structure.” Japanese Journal of Applied Physics 57.2S2 (2017): 02CD01.

Dou, Qingyun, et al. “Silica-grafted ionic liquids for revealing the respective charging behaviors of cations and anions in supercapacitors.” Nature communications 8.1 (2017): 1-9.

田中良平, et al. “水晶振動子マイクロバランスを用いたポリアミド系複合逆浸透膜の活性層内電荷密度の測定.” 日本海水学会誌 71.2 (2017): 97-102.
[キーワード: 逆浸透膜, ポリアミド, カルボキシ基, アミン基, 水晶振動子マイクロバランス]

Hanaue, Mayu, and Naofumi Miwa. “Structural and rheological properties conferring fertilization competence to Xenopus egg-coating envelope.” Scientific reports 7.1 (2017): 1-8.

Aralekallu, Shambhulinga, et al. “Tuning the Interfacial Chemistry of Redox‐Active Polymer for Bifunctional Probing.” ChemElectroChem 4.3 (2017): 692-700.
[Keywords: anion recognition, conjugate base chemistry, cation sensor, redox-active polymers, redox energy modulation]

【2016年】

Sin, Helen Lee Yun, et al. “Quartz Crystal Microbalance Study of Adenosine as Inhibitor for Fe Corrosion in HCl Solution.” Electrochemistry 84.12 (2016): 959-962.
[Keywords: Quartz Crystal Microbalance, Adenosine, Corrosion Inhibitor, Iron]

Liu, Zihao, et al. “Modification of titanium substrates with chimeric peptides comprising antimicrobial and titanium-binding motifs connected by linkers to inhibit biofilm formation.” ACS applied materials & interfaces 8.8 (2016): 5124-5136.

Shiomi, S., et al. “Size distribution control of copper nanoparticles by optimization of precursor morphology.” 2016 IEEE 16th International Conference on Nanotechnology (IEEE-NANO). IEEE, 2016.
[Keywords: Nanoparticles, Copper, Morphology, Surface morphology, Ions, Surface treatment, Electrodes]

Kim, Semin, et al. “Electrochemical deposition of conductive and adhesive polypyrrole-dopamine films.” Scientific reports 6.1 (2016): 1-8.

Muramatsu, Hiroshi, et al. “Basic characteristics of quartz crystal sensor with interdigitated electrodes.” Analytical Chemistry Research 7 (2016): 23-30.
[Keywords: Quartz crystal, Interdigitated electrodes, Resonance frequency, Resonance resistance, Viscosity, Electric conductivity]

Muramatsu, Hiroshi, et al. “Analytical Chemistry Research.” (2016).

Palma-Cando, Alex, Eduard Preis, and Ullrich Scherf. “Silicon-or carbon-cored multifunctional carbazolyl monomers for the electrochemical generation of microporous polymer films.” Macromolecules 49.21 (2016): 8041-8047.