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CSPM5500扫描探针显微镜
BY系列扫描探针显微镜(SPM)
CSPM8000工业大尺寸样品扫描探针显微镜
CSPM5500P精确定位扫描探针显微镜
CSPM5500B生物型扫描探针显微镜
OpenSys开放式扫描探针显微镜
NanoVisual教学型扫描隧道显微镜
原子力显微镜探针
扫描探针显微镜配件
环境检测及控制扫描探针显微镜
纳米加工
磁力显微镜/静电力显微镜(MFM/EFM)
导电原子力显微镜(C-AFM)
液相扫描探针显微镜
力调制模式成像技术
压电响应力显微镜
扫描开尔文探针显微镜
扫描探针声学显微镜
SPM Console 在线控制软件
Imager图像处理软件
CSPM OSS开放式软件
BudgetSensors原子力显微镜探针
NanoSensors原子力显微镜探针
NanoWorld原子力显微镜探针
MikroMasch原子力显微镜探针
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本原是国内研究级高端扫描探针显微镜的专业制造商,提供原子力显微镜AFM、扫描隧道显微镜STM、磁力显微镜MFM、静电力显微镜EFM、压电响应力显微镜PFM、扫描开尔文探针显微镜SKPM、扫描探针声学显微镜SPAM等产品,仪器畅销国内外,在北京、上海、广州、武汉、南京、厦门、深圳等地均有合作实验室。全球众多用户采用本原仪器开展了大量出色的研究工作,见证了本原产品的卓越品质,据不完全统计,其应用成果在学术刊物、包括国际顶级学术期刊累计公开发表了近5000篇科学论文,仪器检测结果得到国际学术界的完全认可。
☑ .高热稳定性氟化聚酰亚胺的合成及在热光开关中的应用.
影响因子(IF):
0.677
☑.Nanotribological properties of silicon surfaces nanopatterned by laser interference lithography.
影响因子(IF):
0.648
☑ .Effect of SiO2 nanoparticles on the wear resistance of starch films.
影响因子(IF):
0.626
☑ .Surface functionalization of nonwovens by aluminum sputter coating.
影响因子(IF):
0.626
☑ .氘化及氦离子注入对钪膜的表面形貌和相结构的影响.
影响因子(IF):
0.624
☑.金电极的激光组装制备研究.
影响因子(IF):
0.624
☑ .温度对微界面摩擦影响的研究.
影响因子(IF):
0.624
☑.有机单体3-phenyl-1-ureidonitrile薄膜的超高密度信息存储.
影响因子(IF):
0.624
☑.扫描隧道显微镜研究银胶的表面结构和凝聚行为.
影响因子(IF):
0.624
☑.Effects of ZnO layer on anisotropy magnetoresistance of Ni81Fe19 films.
影响因子(IF):
0.617
☑.Optimizations of inductively coupled plasma etching and design for sensing window of Mach–Zehnder interferometer sensor in polymer technology.
影响因子(IF):
0.617
☑.The structure and optical properties of lead-free transparent KNLTN-La0.01 ceramics prepared by conventional sintering technique.
影响因子(IF):
0.610
☑.Manganese dioxide-graphene nanocomposite film modified electrode as a sensitive voltammetric sensor of indomethacin detection.
影响因子(IF):
0.602
☑.Composite iterative learning controller design for gradually varying references with applications in an AFM system.
影响因子(IF):
0.601
☑.TiAl型金属间化合物解理断口的纳米尺度研究.
影响因子(IF):
0.584
☑.Au反点阵列孔径对Au/TiO2复合薄膜光催化性能的影响.
影响因子(IF):
0.584
☑ .磁控溅射Al-Mg-B薄膜成分优化.
影响因子(IF):
0.584
☑.微组装Teflon/Si3N4多层膜的结构和微摩擦磨损性能.
影响因子(IF):
0.584
☑.微组装Teflon/Si3N4多层膜的结构和微摩擦磨损性能.
影响因子(IF):
0.584
☑.Effect of substrate structures on the morphology and interfacial bonding properties of copper films sputtered on polyester fabrics.
影响因子(IF):
0.541
☑.Effects of plasma pre-treatment on surface properties of fabric sputtered with copper.
影响因子(IF):
0.541
☑ .Study of Surface Raman and Fluorescence Enhancement of RhB Molecules Adsorbed on Au Nanoparticles.
影响因子(IF):
0.511
☑ .Preparation and Characterization of Fe3+, La3+ Co-Doped Tio2 Nanofibers and Its Photocatalytic Activity.
影响因子(IF):
0.500
☑.Improvement of the Sanitary Property of Microfiber Synthetic Leather Base by PAMAM.
影响因子(IF):
0.500
☑ .Surface and Interface Analysis of Fibers Sputtered with Titanium Dioxide.
影响因子(IF):
0.500
☑.Hygienic Property of Microfiber Synthetic Leather Base Modified via a “Two-Step Method”.
影响因子(IF):
0.500
☑ .Surface formation of single silicon wafer polished with nano-sized Al2O3 powdersy.
影响因子(IF):
0.498
☑ .Chemical vapor deposition menchanism of copper films on silicon substrates.
影响因子(IF):
0.498
☑.Influence Of Annealing Temperature On The Characteristics Of Nanocrystalline SnO2 Thin Films Produced By Sol–Gel And Chemical Bath Deposition For Gas Sensor Applications.
影响因子(IF):
0.491
☑ .Preparation and characterizations of PTFE gradient nanostructure on silk fabric.
影响因子(IF):
0.491
☑.Studying Structural,Optical, Electrical,And Sensing Properties Of Nanocrystalline SnO2:Cu Films Prepared By Sol–Gel Method For Co Gas Sensor Application At Low Temperature.
影响因子(IF):
0.491
☑ .Nanostructured Antibacterial Silver Deposited On Polypropylene Nonwovens.
影响因子(IF):
0.491
☑ .Characterization of dynamicc wetting of plasma-treated PTFE film.
影响因子(IF):
0.491
☑ .Influence of the ultrasonic vibration on chemical bath deposition of zns thin films.
影响因子(IF):
0.491
☑.Facile Fabrication Of Gradient Surface Based On (Meth)Acrylate Copolymer Films.
影响因子(IF):
0.491
☑ .Chemical In Situ Polymerization of Polypyrrole Nanoparticles on the Hydrophilic/Hydrophobic Surface of SiO2 Substrates.
影响因子(IF):
0.489
☑ .Study on Surface Passivation Homogeneity of Gallium Antimonide using Photoluminescences.
影响因子(IF):
0.489
☑ .复合粒子涂膜表面疏水性能分形评价.
影响因子(IF):
0.489
☑.Thermomechanical study of polyethylene porous membrane by coating silicon dioxide nanoparticles.
影响因子(IF):
0.480
☑.Optimization of FAP in Nano Machining Process.
影响因子(IF):
0.457
☑.Nanomanipulation of Carbon Nanotubes with the Vector Scanning Mode of Atomic Force Microscope.
影响因子(IF):
0.457
☑.Preparation of ITO Thin Films by Injection Ultrasound Spray Pyrolysis and its Physical Properties.
影响因子(IF):
0.457
☑ .Improvement of Surface Passivation Homogeneity of Gallium Antimonide by Bromination.
影响因子(IF):
0.457
☑.Self-assembled and covalent capillary coating of diazoresin and D-Glucurone for protein analysis in capillary electrophoresis.
影响因子(IF):
0.457
☑.Effect of alkaline slurries on nano machining CaF2 crystal.
影响因子(IF):
0.457
☑.The Surface and Optical Properties of Passivated GaSb with Different Passivating Agents.
影响因子(IF):
0.457
☑ .Influence of SrTiO3 Buffer Layer on the Ferroelectric Properties of Bi2NiMnO6 Thin Film.
影响因子(IF):
0.457
☑.Physical properties of Al-doped ZnO and Ga-doped ZnO thin films prepared by direct current sputtering at room temperature.
影响因子(IF):
0.447
☑.AFM analysis of TiN,TiAlN,and TiAlSiN coatings prepared by cathodic arc ion plating.
影响因子(IF):
0.447
☑ .静电自组装制备CdTe量子点纳米薄膜.
影响因子(IF):
0.444
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AFM、原子力显微镜、原子力显微镜厂家、原子力显微镜技术及应用原理