tem可测磁性包含制样,sem可测磁性包含喷金制样,afm平行测三个位置,xrd不限制元素,tg-dsc最高温到1600度。
【扫描信息测试信息】红外光谱属于分子振动-转动光谱,是分子吸收红外光时,振动能级和转动能级发生跃迁而产生的分子吸收光谱。其光谱仪通过记录红外光的透射率与其波长或波数的关系曲线,得到红外光谱图,再对其图谱进行解析便可获取分子结构的信息。红外光谱具有特征性强、适用范围广、分析速度快、样品用量少、不破坏样品和易实现在线分析等特点,可广泛应用于化合物的定性鉴定和结构分析,也可用于定量分析等。
如果您有需要,可以关注
欧波同材料分析研究中心。每个部门各司其职,仪器技术部负责测试前样品制样处理,旨在制样方法研究,为用户提供更高效准确的制样方法。应用技术部负责日常测试工作,对测试方案及结果进行研究,优化测量参数,提供更高质量的测量结果。软件技术部负责将大量测试数据积累统计,编写软件,为显微测试结果数值化开创新思路。产品部负责聘请各行业应用技术人才,对测量结果准确性进行监管,欢迎
来电或留言咨询。
官网立即咨询
野史草民推荐于2017-11-25·超过18用户采纳过TA的回答知道小有建树答主![](https://himg.bdimg.com/sys/portrait/item/wise.1.7c41134a.6CwtiP-j33X6FjfGJVMPcw.jpg?time=2891&tieba_portrait_time=2891)
回答量:
采纳率:
0%帮助的人:
35.6万我也去答题访问个人页关注![]()
测什么百度一下吧,应该都有详细的测试原理及项目。
区别应该是 SEM和TEM和AFM,越来越高级,放大倍数越来越高。XRD和
红外光谱这两个是没什么关系的,xrd是测试晶体结构的,可以测试晶体结构的,对于可以看出你的材料是什么。红外是靠红外吸收峰的位置与强度反映了分子结构上的特点,可以用来鉴别未知液态水的红外光谱物的结构组成或确定其化学基团;而吸收谱带的吸收强度与化学基团的含量有关,可用于进行定量分析和纯度鉴定。l红外主要用于有机化合物的结构鉴定在有机化学、生物化学、药物学、
环境科学等许多领域。
![](data:image/jpeg;base64,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)
已赞过已踩过<你对这个回答的评价是?
收起![](data:image/png;base64,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)
中材新材料研究院(广州)有限公司2019-12-17广告1、SEM搜索引擎营销:英文Search Engine Marketing ,我们通常简称为“SEM”。就是根据用户使用搜索引擎的方式利用用户检索信息的机会尽可能将营销信息传递给目标用户。简单来说,搜索引擎营销就是基于搜索引擎平台的网络营销...点击进入详情页本回答由中材新材料研究院(广州)有限公司提供
欧波同集团2023-06-08·材料分析数字化解决方案服务商
欧波同集团向TA提问关注![]()
tem可测磁性包含制样,sem可测磁性包含喷金制样,afm平行测三个位置,xrd不限制元素,tg-dsc最高温到1600度。
【扫描信息测试信息】红外光谱属于分子振动-转动光谱,是分子吸收红外光时,振动能级和转动能级发生跃迁而产生的分子吸收光谱。其光谱仪通过记录红外光的透射率与其波长或波数的关系曲线,得到红外光谱图,再对其图谱进行解析便可获取分子结构的信息。红外光谱具有特征性强、适用范围广、分析速度快、样品用量少、不破坏样品和易实现在线分析等特点,可广泛应用于化合物的定性鉴定和结构分析,也可用于定量分析等。
如果您有需要,可以关注
欧波同材料分析研究中心。每个部门各司其职,仪器技术部负责测试前样品制样处理,旨在制样方法研究,为用户提供更高效准确的制样方法。应用技术部负责日常测试工作,对测试方案及结果进行研究,优化测量参数,提供更高质量的测量结果。软件技术部负责将大量测试数据积累统计,编写软件,为显微测试结果数值化开创新思路。产品部负责聘请各行业应用技术人才,对测量结果准确性进行监管,欢迎
来电或留言咨询。