シ ス テム・オ プ ション 電気化学

ハミングバード・サイエンティフィックは、TEM内部で行われる液中電気化学実験に対応するホルダーを市販した始めての企業です。その後、ホルダー機能の改良を続け、さまざまな材質の電気化学チップに接続可能なバイアス・コンタクトを内蔵することで、より高度な電気化学研究を可能にしています。特に、電池材料に関する重要な研究に使用されています。分析用電気化学チップは、標準的な電気化学液体セルの基本的な機能を備えていますが、電気接点を実験空間の外に出すことも可能です。このオプションには、低ノイズ・ポ テンショスタットと全 シ ー ルド・ケーブル が 含まれ 、最 高 の 分 析 能 力 を発揮します。

Wiring configurations

  • 標準構成:この構成では、システムの接続は個別にシールドされていません。一方で、ハミングバードのヒーターコントロール・ボックスのほか、さまざまなセンサー情報や測定器を接続することができます。また、様々なポテンショスタットや電源との互換性を考慮したシステム構築が可能です。
  • 低 電 流・低ノイズ:非常に小さな電流値や電圧値に対しては、個別にシールドされた低ノイズ配線システムを提供しています。このシステムでは、シールドされた同軸ケーブルがホルダーシャフトを通り、ホルダー内の特殊なマイクロ同軸コネクターを介して接続されます。このシステムは、さまざまなポテンショスタットや電源に適合するシステム構成が可能です。特に、小規模のその場液中電気化学測定に適しています。

ポテンショスタットBiologic SP-200

電気化学実験のためのラボ・グレードの測定ツールとして、Biologic社製SP-200ポテンショスタットを提供させていただいております。ハミングバードサイエンティフィックの電気化学チップとBiologic社のSP-200ポテンショスタットを組み合わせることにより、腐食実験、電気化学、電気分解、太陽光発電の研究に使用することができます。

 

Featured Research

 

Observation of redox product in lithium-oxygen battery

Lithium-oxygen batteries have exceptional higher energy densities. However, the byproduct lithium peroxide, cannot be easily decomposed during the charging cycle. Now, the work led by researchers from Johns Hopkins University have used Hummingbird Scientific’s liquid electrochemistry TEM holder to demonstrate that the decomposition of lithium peroxide can be improved by adding redox mediators as charge-transfer agents. Their findings are published in the recent issue of Advanced Materials. The fundamental understanding of the lithium-oxygen electrochemistry presented in this work may enable the development of better batteries

Formation of lithium peroxide during discharge. Image copyright © 2017 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim
Formation of lithium peroxide during discharge. Image copyright © 2017 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim

 

Reference: Mingwei Chen et al. Direct Observations of the Formation and Redox-Mediator-Assisted Decomposition of Li2O2 in a Liquid-Cell Li–O2 Microbattery by Scanning Transmission Electron Microscopy. Advanced Materials (2017). Abstract

Electrochemistry Selected Publications

Nikhilendra Singh, Timothy S. Arthur, Oscar Tutusaus, Jing Li, Kim Kisslinger, Huolin L. Xin, Eric A. Stach, Xudong Fan, and Rana Mohtadi. “Achieving High Cycling Rates via In-situ Generation of Active Nanocomposite Metal Anodes.” ACS Applied Energy Materials (2018) Abstract
Mei Sun, Xing Li, Zhiqiang Tang, Xianlong Wei and Qing Chen. “Constant-Rate Dissolution of InAs Nanowires in Radiolytic Water Observed by In situ Liquid Cell TEM.” Nanoscale (2018) Abstract
Chen Houa, Jiuhui Hanb, Pan Liua, Chuchu Yangb, Gang Huangb, Takeshi Fujitab, Akihiko Hiratab, and Mingwei Chen. “Operando observations of RuO2 catalyzed Li2O2 formation and decomposition in a Li-O2 micro-battery,” Nano Energy (2018) Abstract
Pan Liu, Jiuhui Han, Xianwei Guo, Yoshikazu Ito, Chuchu Yang, Shoucong Ning, Takeshi Fujita, Akihiko Hirata and Mingwei Chen. “Operando characterization of cathodic reactions in a liquid-state lithium-oxygen micro-battery by scanning transmission electron microscopy,” Scientific Reports (2018) Abstract
Edward R. White, Jared J. Lodico & B. C. Regan. “Intercalation events visualized in single microcrystals of graphite,” Nature Communications (2017) Abstract
Chuchu Yang, Jiuhui Han, Pan Liu, Chen Hou, Gang Huang, Takeshi Fujita, Akihiko Hirata, and Mingwei Chen. “Direct Observations of the Formation and Redox-Mediator-Assisted Decomposition of Li2O2 in a Liquid-Cell Li–O2 Microbattery by Scanning Transmission Electron Microscopy,” Advanced Materials (2017) Abstract
Timothy S. Arthur, Per-Anders Glans, Nikhilendra Singh, Oscar Tutusaus, Kaiqi Nie, Yi-Sheng Liu, Fuminori Mizuno, Jinghua Guo, Daan Hein Alsem, Norman J. Salmon, and Rana Mohtadi. “Interfacial insight from operando sXAS/TEM for magnesium metal deposition with borohydride electrolytes,” Chemistry of Materials (2017) Abstract
J. R. Vance  and  S. J. Dillon. “Thermally driven bubble evolution at a heater wire in water characterized by high-speed transmission electron microscopy,”  Chemical Communications (2017) Abstract
J. P.  Patterson, L. R. Parent, J. Cantlona, H. Eickhoffa, G. Bareda, J. E. Evansa and N.C. Gianneschia. “Picoliter Drop-On-Demand Dispensing for Multiplex Liquid Cell Transmission Electron Microscopy,” Microscopy & Microanalysis (2016) Abstract
Omid Sadeghi, Clément Falaise, Pedro I. Molina, Ryan Hufschmid, Charles F. Campana, Bruce C. Noll, Nigel D. Browning, and May Nyman. “Chemical Stabilization and Electrochemical Destabilization of the Iron Keggin Ion in Water,” Inorganic Chemistry (2016) Abstract
R. R. Unocic, L. Baggetto, G. M. Veith, J. A. Aguiar, K. A. Unocic, R. L. Sacci, N. J. Dudneyb and K. L. Morea. “Probing battery chemistry with liquid cell electron energy loss spectroscopy,” Chem. Communication (2015) Abstract
R.R. Unocic. “In-situ Liquid S/TEM: Practical Aspects, Challenges, and Opportunities,” Microscopy and Microanalysis (2015)  Abstract
W. Zhang, D.H. Alsem, F. Wang, N. Salmon. “In-Situ Liquid Cell TEM Studies of Electrochemical Reaction in Lithium-Ion Batteries,” Microscopy & Microanalysis (2015)   Abstract
C. Wang. “In situ transmission electron microscopy and spectroscopy studies of rechargeable batteries under dynamic operating conditions: A retrospective and perspective view.” Journal of Materials Research (2015) Abstract
P. Abellan, B. L. Mehdi, L.R. Parent, M. Gu, C. Park, W. Xu, Y. Zhang, I. Arslan, J.G. Zhang, C.M. Wang, J.E. Evans, and N.D. Browning ”
Probing the Degradation Mechanisms in Electrolyte Solutions for Li-Ion Batteries by in Situ Transmission Electron Microscopy” Nano Letter (2014)
Abstract
S.W. Chee, D.J. Duquette, F.M. Ross, and R. Hull. “Metastable Structures in Al Thin Films Before the Onset of Corrosion Pitting as Observed using Liquid Cell Transmission Electron Microscopy,” Micoscopy & Microanalysis (2014) Abstract
R.R. Unocic, X.G. Sun, R.L. Sacci, L.A. Adamczyk, D.H. Alsem, S. Dai, N.J. Dudney, and K.L. More. “Direct Visualization of Solid Electrolyte Interphase Formation in Lithium-Ion Batteries with In Situ Electrochemical Transmission Electron Microscopy,” Microscopy & Microanalysis (2014) Abstract
R.L. Sacci, N. Dudney, K. More, L.R. Parent, I. Arslan, N.D. Browning, and R.R. Unocic. “Direct Visualization of Initial SEI Morphology and Growth Kinetics During Lithium Deposition by In-Situ Electrochemical Transmission Electron Microscopy,” Chem. Communication (2014) Abstract
J.M. Miller, D.H. Alsem, N. Salmon, N.E. Johnson and J.E. Hutchison. “Functionalized Surfaces to Improve Imaging Conditions in Liquid Cell Transmission Electron Microscopy. ” Microscopy & Microanalysi (2014) Abstract
M. Gu, L.R. Parent, B.L. Mehdi, R.R. Unocic, M.T. McDowell, R.L. Sacci, W. Xu, J.G. Connell, P. Xu, P. Abellan, X. Chen,Y. Zhang, D.E. Perea, J.E. Evans, L.J. Lauhon, J.G. Zhang, J. Liu, N.D. Browning, Y. Cui, I. Arslan, and C.M. Wang. “Demonstration of an Electrochemical Liquid Cell for Operando Transmission Electron Microscopy Observation of the Lithiation/Delithiation Behavior of Si Nanowire Battery Anodes.” Nano Letter (2013) Abstract
Y.Z. Liu, X.M. Lin, Y.G. Sun, T. Rajh. “In-Situ Visualization of Self-Assembly of Charged Gold Nanoparticles.” J. Am. Chem. Soc. 135:10 (2013) pp. 3764–3767 Abstract
G. Zhu, Y. Jiang, W. Huang, H. Zhang, F. Lin, and C. Jin. “Atomic Resolution Liquid-Cell Transmission Electron Microscopy Investigations of the Dynamics of Nanoparticles in Ultrathin Liquids,” Chem. Commun. 49 (2013) pp. 10944‒10946 Abstract
M.H. Nielsen, J.R.I. Lee, Q. Hu, T. Y.-J. Han, and J.J. De Yoreo, “Structural evolution, formation pathways and energetic controls during template-directed nucleation of CaCO3,” Faraday Discuss. 159 (2012) pp. 105–121 Abstract
D. Li, M.H. Nielsen, J.R.I. Lee, C. Frandsen, J.F. Banfield, and J.J. De Yoreo. “Direction-Specific Interactions Control Crystal Growth by Oriented Attachment,” Science 336:6084 (2012) pp. 1014–1018 Abstract
E.R. White, M. Mecklenburg, B. Shevitski, S.B. Singer, and B.C. Regan, “Charged nanoparticle dynamics in water induced by scanning transmission electron microscopy,” Langmuir 28:8 (2012) pp. 3695–3698 Abstract
E.R. White, S.B. Singer, V. Augustyn, W.A. Hubbard, M. Mecklenburg, B. Dunn, and B.C. Regan,“In-Situ Transmission Electron Microscopy of Lead Dendrites and Lead Ions in Aqueous Solution” ACS Nano 6:7 (2012) pp. 6038–6317 Abstract
K.L. Jungjohann, J.E. Evans, J.A Aguiar , I. Arslan, N.D. Browning. “Atomic-scale imaging and spectroscopy for in-situ liquid scanning transmission electron microscopy.” Microscopy & Microanalysis 18:03 (2012) pp. 621–627  Abstract
L.R. Parent, D.B. Robinson, T.J. Woehl, W.D. Ristenpart, J.E. Evans, N.D. Browning, I. Arslan “Direct in-situ observation of nanoparticle synthesis in a liquid crystal surfactant template,” ACS Nano 6:4 (2012) pp. 3589–3596  Abstract
T.J. Woehl , J. E. Evans, I. Arslan, W.D. Ristenpart , N.D. Browning “Direct in-situ determination of the mechanisms controlling nanoparticle nucleation and growth,” ACS Nano 6:10 (2012) pp. 8599–8610  Abstract
J.E. Evans, K.L. Jungjohann, P.C.K. Wong, P.L. Chiua, G.H. Dutrowa, I. Arslan, N.D. Browning. “Visualizing macromolecular complexes with in-situ liquid scanning transmission electron microscopy” Micron 43:11 (2012) pp. 1085–1090  Abstract
R.R. Unocic, L. Baggetto, K.A. Unocic, G.M. Veith, N.J. Dudney, and K.L. More. “Coupling EELS/EFTEM Imaging with Environmental Fluid Cell Microscopy.” Microscopy and Microanalysis 18 (Suppl 2), (2012) 1104-1105 Abstract
K.L. Jungjohann, J.E. Evans, J.A Aguiar , I. Arslan, N.D. Browning. “Atomic-scale imaging and spectroscopy for in-situ liquid scanning transmission electron microscopy.” Microscopy & Microanalysis 18:03 (2012) pp. 621–627. Abstract
K.L. Jungjohann, J.E. Evans, I. Arslan, N.D. Browning. “Electron Energy Loss Spectroscopy for Aqueous in-Situ Scanning Transmission Electron Microscopy.” Microscopy & Microanaysis 17:S2 (2011) pp. 778–779. Abstract
J.E. Evans, K.L. Jungjohann, N.D. Browning and I. Arslan. “Controlled Growth of Nanoparticles from Solution with In-Situ Liquid Transmission Electron Microscopy,” Nano Lett. 11:7 (2011) pp. 2809–2813  Abstract
N. de Jonge, D.B. Peckys, G.J. Kremers, D.W. Piston. “Electron microscopy of whole cells in liquid with nanometer resolution,” PNAS 106:7 (2009) pp. 2159–2164  Abstract
J.E. Evans, N.D. Browning, “Enabling Direct Nanoscale Observations of Biological Reactions with Dynamic TEM,” Microscopy 62:1 (2013) pp. 147–156  Abstract
E.R. White, M. Mecklenburg, B. Shevitski, S.B. Singer, and B.C. Regan, “Charged nanoparticle dynamics in water induced by scanning transmission electron microscopy,” Langmuir 28:8 (2012) pp. 3695–3698  Abstract
R.R. Unocic, L.A. Adamczyk, N.J. Dudney, D.H. Alsem, N.J. Salmon, and K.L. More. “In-Situ Electron Microscopy of Electrical Energy Storage Materials,” ECS Fall Meeting 2010 Abstract
C.M. Wang, W. Xu, J. Liu, D.W. Choi, B. Arey, L.V. Saraf, J.G. Zhang, Z.G. Yang, S. Thevuthasan, D.R. Baer, and N. Salmon. “In-situ transmission electron microscopy and spectroscopy studies of interfaces in Li ion batteries: Challenges and opportunities,” J. Mater. Res. 25:8 (2010) pp. 1541–1547 Abstract

 

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