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光学仪器及设备
滨松背照式sCMOS相机ORCA fusionBT
滨松硅光电二极管阵列S4111-35Q
滨松硅光电二极管S1337-33BQ
硅光电二极管S1337-66BQ
滨松微型光电倍增管光子计数探头H12406
滨松光电倍增管R10699
滨松长寿命150W氙灯L11033
滨松氘灯L9518
滨松硅光电二极管S12742-220
滨松硅光电二极管S12742-275
光谱检测分析仪
滨松FTIR光谱仪引擎C15511-01
滨松光学模块C13398-01
滨松光电倍增管R13456
滨松InGaAs线阵图像传感器G13913-128FB
滨松InGaAs线阵图像传感器G13913-256FG
滨松InGaAs线阵图像传感器G14237-512WA
滨松背照式CCD面阵图像传感器S12071
滨松MEMS-FPI近红外光谱探测器C14272
滨松微型光谱仪SMD系列C14384MA-01
滨松C13053MA微型光谱仪
气体检测仪
滨松铟砷锑光伏探测器P11120-201
滨松光电管R6800U-01
滨松光电倍增管R11715-01
滨松光电倍增管R9182-01
滨松铟镓砷PIN光电二极管G12183-010K
滨松砷化铟光伏探测器P10090-11
滨松砷化铟光伏探测器P10090-01
滨松带前置放大器的红外探测器模块C12494-210S
滨松P13894-011NA铟砷锑光伏探测器
滨松P13894-211MA铟砷锑光伏探测器
测量/计量仪器
滨松C11209-110 MPPC(硅光电倍增)模块
C7700-01高动态范围条纹相机
C6138飞秒条纹相机FESCA-200
C11293-02近红外条纹相机
通用型条纹相机
滨松条纹相机
紫外光功率计
光子计数模块
荧光寿命/瞬态吸收分析系统
C11295多点纳米膜厚测量仪
质谱检测分析仪
滨松辅助离子化基板DIUTHAME A13331-3-1
滨松辅助离子化基板DIUTHAME A13331-18-2
滨松辅助离子化基板DIUTHAME A14111-3-1
滨松MCP微通道板F14844
滨松MCP微通道板F14845-11
滨松高压电源模块C14051-15
滨松电子倍增器R4146-10
滨松微通道板MCP F9890-12
滨松电子倍增器R13733
滨松微通道板MCP F13446-11
临床检验仪器设备
C11787系列免疫色谱读取仪
免疫色谱读取仪-荧光型C10066-50
数字切片扫描设备NanoZoomer-XR
数字切片扫描装置(NanoZoomer2.0 HT)
荧光定位仪(PDE)
数字切片扫描装置2.0 RS
数字切片扫描装置NDP C9600-01
水质分析
BHP9510型手持式ATP快速检测仪
BHP9515型便携式生物毒性测试仪
BHP9514型饮用水安全快速检测仪
BHP9515型便携式(发光细菌)生物毒性测试仪
BHP9511水质毒性快速检测仪
BHP9514饮用水安全快速检测仪(发光细菌毒性检测)
半导体行业专用仪器
隐形切割装置
μAMOS红外共焦激光失效分析仪
热点检测微光显微镜THEMOS系列
实时分析微光显微镜TriPHEMOS
倒置微光显微镜iPHEMOS系列
微光显微镜PHEMOS系列
成像系统
双色分光附件
BHP6603型固定角双探头SPECT
BHP6602小型γ相机
BHP6601型SPECT
X射线仪器
碘化铯屏
C4575-03 X射线条纹相机
X射线平板探测器
微焦点X射线源
无损检测/无损探伤仪器
无损检测用X射线平板探测器
X射线探测器
其他
L10060 LD加热光源
农业和食品专用仪器
ATP荧光快速检测仪
制样/消解设备
数字切片扫描仪NanoZoomer-SQ
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产品系列
产品描述
滨松多孔氧化铝制作的辅助离子化基板DIUTHAME(Desorption Ionization Using Through Hole Alumina MEmbrane),可大幅缩减质谱成像分析时待测样品进行离子化所需的前期处理的时间。
只要将本产品放置在待测样品上,就能完成质量分析的前期处理,与目前主要的离子化方法之一基质辅助激光解析电离(Matrix-Assisted Laser Desorption/Ionization、下面简称MALDI)方法相比,它将前期处理时间缩短到十分之一。因此可以用在市场上已有的MALDI-TOF-MS设备,主要面向目前正在使用MALDI-TOF-MS设备的制药、工业领域的国内外企业以及大学研究人员。
A13331-18-2通道的有效面积为Φ18mm。(大面积成像专用)
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产品特点
● 无基质噪声
● 可缩短预处理时间,并实现高重复性测量
● 扩大质谱成像范围的印迹法
DIUTHAME与传统MALDI的区别
应用举例
Frozen chicken | MS imaging of a Frozen chicken using blotting method [1.0 MB/PDF] | A13331-18-2B | |
Chocolate | MS imaging of a chocolate [0.8 MB/PDF] | A13331-5019-1 | |
fresh strawberry | MS imaging of a fresh sttrawberry using blotting method [0.7 MB/PDF] | Prototype | |
Mouse brain | DIUTHAME MS imaging of a mouse brain [0.8 MB/PDF] | A13331-18-2, A13331-5019-1 | |
Flower petal | MS imaging of flower petal using blotting method [1.0 MB/PDF] | A13331-18-2B | |
Industrial material | MS imaging of an industrial material using blotting method [0.4 MB/PDF] | A13331-18-2B | |
Polymer material | DIUTHAME-MSI of a polymer material by mist extraction method using a humidifier [0.4 MB/PDF] | A13331-18-2 | |
Black rice | DIUTHAME MS imaging of black rice [0.5 MB/PDF] | A13331-18-2 | |
Mouse brain using vapor extraction method | DIUTHAME MS imaging for a mouse brain using vapor extraction method [0.7 MB/PDF] | A13331-18-2 | |
Skin | Skin analysis by MS imaging using blotting method [0.8 MB/PDF] | A13331-18-2B | |
Slime mold | DIUTHAME-MSI for chemorepellent of slime mold using blotting method [0.9 MB/PDF] | A13331-18-2 |
外形尺寸(单位:mm)
相关论文
Yasuhide Naito, Masahiro Kotani, Takayuki Ohmura | Feasibility of Acetylcholinesterase Reaction Assay Monitoring in DIUTHAME-MS | 2020 American Society for Mass Spectrometry. Published by the American Chemical Society. All rights reserved. | |
Thierry N. J. Fouquet, Hélène Pizzala, Marion Rollet, Delphine Crozet, Pierre Giusti, and Laurence Charles | Mass Spectrometry-Based Analytical Strategy for Comprehensive Molecular Characterization of Biodegradable Poly(lactic-co-glycolic Acid) Copolymers | 2020 American Society for Mass Spectrometry. Published by the American Chemical Society. All rights reserved. | |
Keiko Kuwata, Kayoko Itou, Masahiro Kotani, Takayuki Ohmura, Yasuhide Naito | DIUTHAME enables matrix‐free mass spectrometry imaging of frozen tissue sections | Rapid Communications in Mass Spectrometry Volume34, Issue9, 15 March 2020 | |
Hiroaki Sato, Sayaka Nakamura, Thierry Fouquet, Takayuki Ohmura, Masahiro Kotani, Yasuhide Naito | Molecular characterization of polyethylene oxide based oligomers by surface‐assisted laser desorption/ionization mass spectrometry using a through‐hole alumina membrane as active substrate | Rapid Communications in Mass Spectrometry Volume34, Issue5, 15 March 2020 | |
Hiroaki Sato, Sayaka Nakamura, Thierry N. J. Fouquet, Takayuki Ohmura, Masahiro Kotani, Yasuhide Naito | Simple Pretreatment for the Analysis of Additives and Polymers by Surface-Assisted Laser Desorption/Ionization Mass Spectrometry Using a Through-Hole Alumina Membrane as a Functional Substrate | 2019 American Society for Mass Spectrometry. Published by the American Chemical Society. All rights reserved. | |
Hirofumi Enomoto, Masahiro Kotani, Takayuki Ohmura | Novel Blotting Method for Mass Spectrometry Imaging of Metabolites in Strawberry Fruit by Desorption/Ionization Using Through Hole Alumina Membrane | Special Issue "Advancement of Mass Spectrometry Imaging for Food Science" | |
Yasuhide Naito, Masahiro Kotani, Takayuki Ohmura | A novel laser desorption/ionization method using through hole porous alumina membranes | Rapid Communications in Mass Spectrometry | |
Yasuhide Naito, Masahiro Kotani, Miu Takimoto, Takayuki Ohmura | Establishing better laboratory protocols for desorption ionization using through hole alumina membrane (DIUTHAME)[1.8 MB/PDF] | ASMS 2019 | |
Hasan Md. Mahmudul, Yasuhide Naito, Mamun Md. Al, Ariful Islam, A s m Waliullah, Takashi K Ito, Mitsutoshi Setou, Masahiro Kotani, Takayuki Ohmura, Shumpei Sato | The combination of DIUTHAME-IMS/FT-ICR conserves high mass accuracy and resolution over the DIUTHAME-IMS/TOFMS in the laser desorption/ionization imaging mass spectrometry[0.8 MB/PDF] | ASMS 2019 | |
Masahiro Kotani, Miu Takimoto, Takayuki Ohmura, Akira Tashiro, Hirofumi Enomoto, Yasuhide Naito | Development of blotting method using DIUTHAME for imaging MS[3.0 MB/PDF] | ASMS 2019 | |
Tsuyoshi Hirao, Yasuhide Naito | Combining DIUTHAME and Stigmatic-Type Mass Microscope toward Cellular Scale Imaging Mass Spectrometry[0.8 MB/PDF] | ASMS 2019 |