材料分野&分析目的|Solutions & Applications
アプリケーション(分析目的)
- Applications for Reseach, Development and Process Analysis -
NEW AN138
Combined Optical and Atomic Force Microscopy
Correlation between fluorescence intensity and specific AFM force measurements on living Hela cells. A tip was functionalized with a toxin able to target any inositol-containing molecule. Fluorescent cells over-express GPI-anchored proteins and exhibit a high number of specific unbinding events (yellow retraction curve) whereas for most of the non-fluorescent cells, no event (red retraction curve), or a much lower number, can be detected.
NEW AN134
Survey, Screening, Dynamics: A No-Compromise Approach to High-Speed Atomic Force Microscopy
Celgard® oriented Polypropylene membrane (TappingMode, Broadband-A Probe) is a good indicator of AFM force control. Tracking error would cause lateral forces to separate and damage the smaller strands.
NEW AN133-RevA0
Introduction to Bruker's ScanAsyst and PeakForce Tapping AFM Technology
Experimental data of force curves for a cantilever operated in PeakForce Tapping. The lever is driven by a sinusoidal wave and the curves are displayed as force versus time and force versus distance.
1μm scan of Origami DNA in buffer solution using ScanAsyst.
※半導体に関する全てのアプリケーションノートはここをクリック
Pick AN127
Nanoscale Charge Transport in LED Materials Using Conducting AFM
Average I-V curves of the three polymer films
Pick AN079
Electrical Characterization with Scanning Probe Microscopes
Height or topography (left), Capacitance (SCM) dC/dV amplitude (middle), and Capacitance (SCM) dC/dV phase (right) images of a conventional Silicon DRAM cell.
※データストレージに関する全てのアプリケーションノートはここをクリック
Pick AN079
Electrical Characterization with Scanning Probe Microscopes
Topography (left) and tunneling current (right) images taken on a 1.2nm thin aluminum oxide (Al2O3) film at a sample bias voltage of 0.14V. 500nm scans, 5 pA current range. Data courtesy A. Olbrich, Infineon, Munich, Germany.
Pick AN027
EFM Surface Potential Imaging and Surface Electric Modification with the AFM
Topography (left) and FM-EFM (right) images of a ferroelectric film with electrical bits written onto it.
| AN079 |  2MB |
Electrical Characterization with Scanning Probe Microscopes |
| AN027 | 6.2MB |
EFM Surface Potential Imaging and Surface Electric Modification with the AFM |
Pick AN132
Simultaneous Electrical and Mechanical Property Mapping at the Nanoscale with PeakForce TUNA
PF-TUNA images of a Li[Ni1/3Mn1/3Co1/3]O2 composite cathode. Sample courtesy of Dr. Zheng and Battaglia, Lawrence Berkeley National Laboratory.
| AN132 | 6.7MB |
Simultaneous Electrical and Mechanical Property Mapping at the Nanoscale with PeakForce TUNA |
| AN-AFM02 | 190KB |
Investigation of solar cells |
※ポリマーに関する全てのアプリケーションノートはここをクリック
Pick AN133-RevA0
Introduction to Bruker's ScanAsyst and PeakForce Tapping AFM Technology
30μm scan of a Teflon membrane in PeakForce Tapping
Pick AN128
Quantitative Mechanical Property Mapping at the Nanoscale with PeakForce QNM
Poly(butyl acrylate) brush-like macromolecules(a) Height,(c) Adhesion
※バイオに関する全てのアプリケーションノートはここをクリック
Pick AN138
Combined Optical and Atomic Force Microscopy
Correlation between fluorescence intensity and specific AFM force measurements on living Hela cells. A tip was functionalized with a toxin able to target any inositol-containing molecule. Fluorescent cells over-express GPI-anchored proteins and exhibit a high number of specific unbinding events (yellow retraction curve) whereas for most of the non-fluorescent cells, no event (red retraction curve), or a much lower number, can be detected.
Pick AN131
BioScope Catalyst: Accessing All Biological Size Scales with High-Resolution AFM Imaging
A 250nm AFM Topography image of a single herpes simplex virus capsid. Sample courtesy of Wouter Roos and Gijs Wuite, Vrije Universiteit, Amsterdam, Netherlands.
In the MIRO canvas, the fluorescence image is used as a background to target AFM measurements.
※構造(凹凸像)に関する全てのアプリケーションノートはここをクリック
Pick AN138
Combined Optical and Atomic Force Microscopy
Correlation between fluorescence intensity and specific AFM force measurements on living Hela cells. A tip was functionalized with a toxin able to target any inositol-containing molecule. Fluorescent cells over-express GPI-anchored proteins and exhibit a high number of specific unbinding events (yellow retraction curve) whereas for most of the non-fluorescent cells, no event (red retraction curve), or a much lower number, can be detected.
Pick AN134
Survey, Screening, Dynamics: A No-Compromise Approach to High-Speed Atomic Force Microscopy
Celgard® oriented Polypropylene membrane (TappingMode, Broadband-A Probe) is a good indicator of AFM force control. Tracking error would cause lateral forces to separate and damage the smaller strands.
Pick AN131
BioScope Catalyst: Accessing All Biological Size Scales with High-Resolution AFM Imaging
AFM phase image of bacterial S-layers from E. coli. Sample courtesy of Hans Oberleithner, Institute for Physiology II, University of Muenster, Germany
※機械特性に関する全てのアプリケーションノートはここをクリック
Pick AN138
Combined Optical and Atomic Force Microscopy
Correlation between fluorescence intensity and specific AFM force measurements on living Hela cells. A tip was functionalized with a toxin able to target any inositol-containing molecule. Fluorescent cells over-express GPI-anchored proteins and exhibit a high number of specific unbinding events (yellow retraction curve) whereas for most of the non-fluorescent cells, no event (red retraction curve), or a much lower number, can be detected.
Pick AN128
Quantitative Mechanical Property Mapping at the Nanoscale with PeakForce QNM
Cooling of polymer blend of syndiotactic polypropylene and polyethylene oxide. g-i show the modulus.
※電気特性に関する全てのアプリケーションノートはここをクリック
Pick AN132
Simultaneous Electrical and Mechanical Property Mapping at the Nanoscale with PeakForce TUNA
PeakForce TUNA images of P3HT:PCBM solar cell with a PEDOT modified ITO/glass anode. Shown are (a) topography, scale 10nm;(b) Cycle-averaged Current, scale 5pA.
※相互作用に関する全てのアプリケーションノートはここをクリック
Pick AN138
Combined Optical and Atomic Force Microscopy
Correlation between fluorescence intensity and specific AFM force measurements on living Hela cells. A tip was functionalized with a toxin able to target any inositol-containing molecule. Fluorescent cells over-express GPI-anchored proteins and exhibit a high number of specific unbinding events (yellow retraction curve) whereas for most of the non-fluorescent cells, no event (red retraction curve), or a much lower number, can be detected.
Pick AN110
Drug Interactions Investigated Using Atomic Force Microscopy with
Functionalized Tips
Imaging and probing of D-Ala-D-Ala sites on living bacteria.
2012.4.3
Nano Theater(イメージデータ集)サイトがオープン
2011.10
CETRトライボロジー/メカニカル試験装置の販売を開始
2011.10.31
「SPM/AFM新技術セミナー2011」
11月10日、15日に開催!
2011.9.5
AFM/SPM用語集をアップしました。
2011.9.5
アプリケーションページのコンテンツをアップしました。
2011.7.19
ScanAsyst HR新発売
詳しくはこちら
2011.5.23
ブルカー・エイエックスエスナノ事業部・東京事業所
移転のお知らせ
[東京事業所へのアクセス]
2011.5.2
世界最速の高分解能原子間力顕微鏡 Dimension FastScan 新発売
2011.2
非接触3次元光干渉粗さ計 NPFLEX-LA 新発売
2011.2.18
nano tech 2011 第10回 国際ナノテクノロジー総合展・技術会議で「評価・計測部門におけるnano tech 大賞」を受賞!
2011.1
新機能 PeakForce TUNA 新発売(MultiMode8、Dimension
Iconにオプション搭載可能)
2011.1.12
ナノ表面分析システム
- Nano Surface Analysis -
サイトがオープンしました。
ナノ事業部へのお問い合わせ
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ブルカー・エイエックスエスは、ナノプローブテクノロジー第167委員会の企業会員です。
ナノプローブテクノロジー第167委員会とは日本学術振興会の設置する61の産学協力研究委員会の1つであり、走査型プローブ顕微鏡(SPM)の基礎・応用技術の組織的発展を目標に活動しています。
167委員会のHPはこちら
http://www.npt167.jp/
