库司替森

挥发油库（Essential Oil Libraray） 内有挥发油的标准质谱图,谁用过.可以共享一下吗http://simg.instrument.com.cn/bbs/images/default/em09511.gif

我们实验室的CHI在Hardware test时在sensitivity error的项目中总是有问题,哪位知道怎么办?连接线在不接电极时是可以通过的.接上电极以后才会出问题.

Sensitivity factor are dependent various factors, the well-known parameters include the intrinsic properties of the elements (cross section of different orbits of different elements), illumination condition and analyzer transmission (instrument geometry and analyzer setting), and the sample (surface) itself.　　　　1) For non-spherical p- and d- orbital instrument geometry does matter, but their relative ratio does not change as much.　　　　2) Sensitivity factor is directly related to the peak intensity and area measurement, so whatever influence them also influence the sensitivity factors, such as the spectral resolution (instrument and resolution dependent broadening), as well as baseline.　　　　3) However, in the case of real surfaces, the biggest error on composition determination tends to come from the non-uniform depth distributions. Sensitivity factors yield quantitative information as such only for homogeneous, non-contaminated surfaces.　　　　So, while surface compositions (calculated by area and sensitivity factor) does show relative changes and trends and are of great practical value, but one should take extreme cautions when use them as absolute quantification without experimentally proven information on surface distributions. Techniques which can provide such information include RBS, SIMS, and also possiblly by comparing XPS baseline changes.　　　　A few references:　　　　D. Briggs and M. P. Seah, Practical Surface Analysis (John Wiley & Sons, Chichester), Chapter 5, 2nd Edition (1996)　　　　C. D. Wagner, Sensitivity factors for XPS Analysis of surface atoms, Journal of Electron Spectroscopy and Related Phenomena 328, 99-102 (1988)　　　　R. F. Reilman, A. Msezane and S. T. Manson, Relative intensities in photoelectron spectroscopy of atoms and molecules, Journal of Electron Spectroscopy and Related Phenomena 8, 389-394 (1976)　　　　S. Tougaard, Quantitative XPS: non-destructive analysis of surface nano-structure, Applied Surface Science 100-101, 1-10 (1996)　　　　 J. E. Castle, A. M. Salvi, Chemical state information from the near-peak region of the X-ray photoelectron background, Journal of Electron Spectroscopy and Related Phenomena 114-116, 1103-1113 (2001)　　　　J. R. Shallenberger, Determination of chemistry and Microstructure in SiOx (00.8) films by x-ray photoelectron spectroscopy, J. Vac. Sci. Technol. A14(3), 693-698 (1996)

Dear All :Have you ever met the sensitivity decay quickly in ICP-OES ?Take an example, the intensity of Mn decay from 1400k to 800k in two days. We just purchase a new equipment and it has not been stable yet.We found the intensity is usually decay soon than other ICP-OES. What parameter do we need to adjust ? How do we stablize it ?Thank you for your sharing[em09]

各位，我需要库尔特颗粒计数器 multisizer3的说明书，谁有电子版的，能不能发给我一份。谢谢！

[size=3][font='2Stone Sans'][font=宋体]在翻译信件的时候遇到这样一句话，[size=3][font='New York']Send a letter to the consumer that[/font][/size]Communicates responsiveness and sensitivity（无上下文）请教如何将其完好地翻译出来。谢谢[/font][/font][/size]

[font=&]【序号】：[/font][font=&]【作者】：Qiao HanWang，XinLiu，D.N.Wang[/font][font=&]【题名】：U[font=微软雅黑][color=#444444]ltra-sensitive gas pressure sensor based on vernier effect with controllable amplification factor[/color][/font][/font][font=&]【期刊】：[font=微软雅黑][color=#444444]optical fiber technology [/color][/font][/font][font=&]【年、卷、期、起止页码】：[font=微软雅黑][color=#444444]volume 61, january 2021, 102404[/color][/font][/font][font=&]【全文链接】：[font=微软雅黑][color=#444444]https://www.sciencedirect.com/science/article/abs/pii/S1068520020303941[/color][/font][/font]

岛津荧光检测器，gain和sensitive有何作用？是增益和灵敏度意思吗？具体怎么理解？gain有x1x4x16三种，sensitive有低中高，这两个具体怎么用，响应值低了，调整会变高，但这两者之间有什么关系？

[*][作者]：[font=-apple-system, BlinkMacSystemFont, &][size=12px][color=#333333]Robert M Bunch[/color][/size][/font][*][题名]：[b][b][url=https://iopscience.iop.org/book/mono/978-0-7503-2252-2]Optical Systems Design Detection Essentials[/url][/b][/b] [list][/list][*][b]【期刊】：IOP[/b][*][b]【链接】：[url=https://iopscience.iop.org/book/mono/978-0-7503-2252-2]Optical Systems Design Detection Essentials - Book - IOPscience[/url][/b]

【序号】：1【作者】：【题名】：Sensomics-Assisted Characterization of Key Flowery Aroma Compounds in Lu’an Guapian Green Tea Infusion (Camellia sinensis)【DOI】：10.1021/acs.jafc.3c00486【年、卷、期、起止页码】：【全文链接】：

[font=&]【题名】：Lab-on-Paper Strip Chemical Sensor: Reversible Visible Sensor for Detection of Acids Using Naphthalenediimide Derivative[/font][font=&]【全文链接】：https://ieeexplore.ieee.org/document/9779142[/font]

2013年04月26日 来源： 人民网 作者： 潘洁 4月25日，中小板上市公司湖南汉森制药因明星产品四磨汤被曝含一级致癌物，而其最大消费群体为婴幼儿，引发外界关注。为此，汉森制药昨日紧急停牌。而昨日，正在武汉进行的第69届全国药交会上，汉森制药“四磨汤”依旧火热招商中。据报道，为汉森制药贡献了2/3以上总收入的拳头产品四磨汤，其中一味成分是槟榔，而槟榔早被认定为一级致癌物，汉森制药却从未披露过，也未在说明中揭示致癌风险。 汉森制药董秘刘厚尧在接受媒体采访时表示，公司内部一直在开会讨论相关事项。《国际金融报》记者拿到的一份澄清声明显示，槟榔为《中国药典》收录药材，四磨汤口服液所使用槟榔是按《中国药典》炮制规范进行炮制。声明强调，四磨汤口服液是严格按照国家《药品生产质量管理规范》要求生产的，原材料符合国家规定。 槟榔易嚼出口腔癌 根据中国科学院2003年8月15日发布的报道《国际癌症研究中心：槟榔被认定为一级致癌物》中提到：据台湾媒体报道，IARC（国际癌症研究中心）在2003年8月7日特别刊物第85卷中，认定槟榔为“一级致癌物”。此结论令医学界长期以来怀疑嚼食槟榔与致癌之间的因果关系，得到了确认。 昨日，相关医学专家向《国际金融报》记者表示，过多食用槟榔，可能引发口腔黏膜下纤维性变（即OSF）等相关疾病。“OSF是一种口腔黏膜癌前状态，长期咀嚼槟榔是其主要病因。”记者了解到，国际上报道其癌变率高达7%至13%。1966年，世界卫生组织用英文发表了许多篇关于槟榔导致癌变的文章。在嚼食槟榔最多的印度，口腔癌约占据该国癌症发病率的一半，居世界首位。在中国台湾，槟榔里放置荖花和石灰，致癌率则更高。 该专家告诉记者，目前半数以上的口腔患者，都是因为吃了槟榔引发口腔黏膜下纤维化，也就是癌症前端状况。在治疗中，一些人甚至被切掉了部分舌头。 占六成收入 四磨汤是汉森制药独家专利产品。汉森制药网站介绍，四磨汤口服液源于明代古方《痘疹金镜录》中所载秘方“四磨饮”。该产品在治疗肠胃动力不足所致的便秘、腹胀腹痛、消化不良等方面疗效显著，是增强婴幼儿肠胃功能以及促进产后、腹部手术后肠功能恢复的首选药物，也是目前市场上惟一的复合型肠胃动力药。 作为拳头产品，四磨汤是汉森制药销售收入的主要部分。数据显示，四磨汤2007年至2012年的销售收入分别为1.10亿元、1.63亿元、2.01亿元、2.41亿元、2.77亿元、3.36亿元，占同期主营业务收入分别为65.81%、69.15%、71.17%、70.05%、69.2%、68.71%。从数据来看，四磨汤近年来占汉森制药收入的六成以上，且销售收入在逐年增加。此外，2010年5月25日，汉森制药登陆A股市场，募集资金6.8亿元，超募资金为5.02亿元。募集资金的主要用途为口服液及胶囊生产线技术改造工程项目，预计投资总额1.55亿元，项目规模包括2亿支四磨汤口服液、0.5亿粒银杏叶胶囊、0.5亿粒缩泉胶囊。去年10月，汉森制药对募投项目追加投资1.31亿元，该项目总投资额为2.86亿元。 “槟榔致癌，是否就意味着槟榔入药也致癌，目前还很难说。”某证券公司一位不愿具名的医药行业分析师对《国际金融报》记者如是表示。 按照汉森制药证券代表杨丽霞的说法，药品用的不是整个槟榔，而是槟榔里面的提取物质，公司提取槟榔里面能够促进肠胃蠕动的物质，添加到四磨汤的用药里面。“汉森制药的四磨汤会不会致癌，还须等相关机构出具权威检测报告。”该分析师表示，四磨汤是否会破坏口腔粘膜，提取了槟榔里的哪些成分入药，使用量是多少，上市公司并没有公布过。据了解，槟榔入药在中医领域一直都存在。在国家食品药品监督管理局网站上，药名中有槟榔二字的注册药品达115种，其中涉及的上市公司包括：北京同仁堂生产的木香槟榔丸、华润三九黄石药业公司的木香槟榔丸、哈药集团三精黑河药业的槟榔四消片，还有陕西利君现代中药生产的槟榔四消丸。

便携式酸度计HACH sensION1怎么使用啊 ，有没有操作说明，各位老师教教我，谢谢

[font=&]【题名】：Degradation process of Ag/AgCl chloride-sensing electrode in cement extract with low chloride concentration[/font][font=&]【全文链接】: https://www.sciencedirect.com/science/article/abs/pii/S0010938X22000257[/font]

哈希sension1便携式 pH 测量仪配套电极型号：51910-00，能测量脱硫浆液pH么？为什么和在线及其它品牌的便携式仪表测量数据比对，偏差很大？（使用前标定的斜率为56.5mV，正常），这款电极适用于什么类型的水质？谢谢答复。

【序号】：1【作者】：【题名】：Sensomics-assisted analysis unravels the formation of the Fungus Aroma of Fu Brick Tea 【DOI】： 10.1016/J.FOODCHEM.2024.140174【年、卷、期、起止页码】：【全文链接】：

[font=&]【题名】：A novel chloride selective potentiometric sensor based on graphitic carbon nitride/silver chloride (g-C3N4/AgCl) composite as the sensing element[/font][font=&]【全文链接】: https://www.sciencedirect.com/science/article/abs/pii/S003991402100816X[/font]

[font=&]【题名】： A novel chloride selective potentiometric sensor based on graphitic carbon nitride/silver chloride (g-C3N4/AgCl) composite as the sensing element[/font][font=&]【全文链接】: https://www.sciencedirect.com/science/article/abs/pii/S003991402100816X[/font]

【序号】：1【作者】：【题名】：Characterization of odor-active compounds in Dahongpao Wuyi Rock Tea (Camellia sinensis) by sensory-directed flavor analysis【DOI】：doi.org/10.1016/j.jfca.2023.105612【年、卷、期、起止页码】：【全文链接】：

【序号】：3【题名】：Sensitivity factors for XPS analysis of surface atoms【作者】：C. D. Wagner【期刊】：Journal of Electron Spectroscopy and Related Phenomena, Volume 32, Issue 2, Pages 99-102 (1983)【全文链接】：https://www.sciencedirect.com/science/article/abs/pii/0368204883850877?via%3Dihub

[b]【作者】: [url=https://link.springer.com/book/10.1007/978-1-4614-7482-1#author-1-0]Jin U. Kang[/url][/b][*][题名]：[b]Fiber Optic Sensing and Imaging[/b][*][b]【期刊】：wiley[/b][*][b]【链接】：[url=https://link.springer.com/book/10.1007/978-1-4614-7482-1]Fiber Optic Sensing and Imaging | SpringerLink[/url][/b]

[b][font=微软雅黑]【序号】：[/font][font=微软雅黑]1[/font][font=微软雅黑][/font][font=微软雅黑][font=微软雅黑]【作者】：[/font][font=微软雅黑]Yuting Lu a f 1, Haolei Han b f 1, Changling Jiang a f, Hongxia Liu a f, Ziqi Wang c, Yunfeng Chai a d e, Xiangchun Zhang a d e, Jing Qiu b, Hongping Chen a d e[/font][/font][font=微软雅黑][/font][font=微软雅黑][font=微软雅黑]【题名】：[/font][font=微软雅黑]Uptake, accumulation, translocation and transformation of seneciphylline (Sp) and seneciphylline-N-oxide (SpNO) by Camellia sinensis L[/font][/font][font=微软雅黑][/font][font=微软雅黑][font=微软雅黑]【期刊】：[/font][font=微软雅黑]Environment International[/font][/font][font=微软雅黑][/font][font=微软雅黑]【年、卷、期、起止页码】：[/font][font=微软雅黑]Volume 188, June 2024, 108765[/font][font=微软雅黑][/font][font=微软雅黑][font=微软雅黑]【全文链接】：[/font][font=微软雅黑]https://www.sciencedirect.com/science/article/pii/S0160412024003519[/font][/font][/b]

【序号】：1【作者】：【题名】：Sensomics-Assisted Identification of Key Odorants Responsible for Retort Odor in Shelf-Stored Green Tea Infusion: A Case Study of Biluochun【DOI】：[url=https://doi.org/10.2139/ssrn.4814578]10.2139/ssrn.4814578[/url]【年、卷、期、起止页码】：【全文链接】：https://papers.ssrn.com/sol3/papers.cfm?abstract_id=4814578

悬赏翻译这篇文章，因为我已经翻译了一遍，请大家对我的翻译给予批评指正。对有帮助的给予10分的奖励，对好帖子给予加精。Semiconducting metal oxides such as tin oxide (SnO2), titanium dioxide (TiO2) and zinc oxide (ZnO) are routinely used as active materials in solid state gas sensing devices. Since the sensing action is directly related to the surface area in contact with the gas, the incredibly high surface-to-volume ratios of nanowires means they are attractive candidates for nano-sensors.Despite significant advancements in nanowire growth techniques, electrical contacts to as-grown nanowire arrays through non-destructive methods have not yet been successfully realized. Researchers at the University of Maryland, US, and NIST, US, have developed a generic, in situ approach for electrically contacting nanowire arrays using conductive nanoparticles. The team grew vertically-aligned ZnO nanowire arrays on gold catalyst layers before depositing a contiguous film consisting of conductive gold nanoparticles exclusively on top of the nanowire array. The particle deposition was driven using a high electric field - the key aspect was that the enhanced electric field surrounding the nanowire tips attracted particles to the top of the nanowire array. By employing the catalyst and nanoparticle layers as bottom and top electrodes respectively, the researchers successfully designed and tested a gas sensor. The nano-sensor assembly was stable even at high temperatures (up to 350 °C) and highly sensitive to very low concentrations (10-50 ppm) of both reducing (methanol) and oxidizing (nitrous oxide) gases. The team believes its approach of creating a top contact to nanowire arrays as-grown is universally applicable and may be useful in the design of electrically driven nanowire lasers and LEDs.[url=http://www.instrument.com.cn/download/search.asp?sel=admin_name&keywords=quanbaogang]欢迎到我的资料库下载[/url]

森林是最高的植被。在成片的森林地区以及林冠层的下部都能形成一种特殊的气候。此外，森林对邻近地区的气候也有较大的影响。　　森林小气候的主要表现是林冠内外的辐射、温度、湿度、降水和风都有相当大的差异。　　森林对温度、湿度、蒸发、蒸腾及雨量可起调节作用：　　（1）温度：根据观察研究的结果说明，森林不能降低日平均温度，但能略微增加秋冬平均温度。森林能降低每日最高温度，而提高每日最低温度，在夏季较其它季节更为显著。　　（2）湿度：林木的生命不能离开蒸腾，这是植物生理的缘故。在林内的相对湿度要比林外高，树木越高，则树叶的蒸腾面积越大，它的相对湿度亦越高。　　（3）蒸发：降水到地面上，除去径流及深入土壤下层以外，有相当部分将被蒸发回天空。蒸发多少要由土壤的结构、气温与湿度的大小、风的速度来定。森林能减低地表风速，提高相对湿度，林地的枯枝败叶能阻碍土壤蒸发，因此光秃的土地比林地水分蒸发要大五倍，比雪的蒸发要大四倍。　　（4）雨量（地区性降水）：在条件相同地区，森林地区要比无林地区降水量大。一般要大20％至30％。森林地区比较多雾，树枝和树叶的点滴降水，每次约有1-2毫米，以一年来计算，水量也是可观的。

[b]【作者】：[url=https://www.wiley.com/en-us/search?filters[author]=Wolfgang%20G%C3%B6pel&pq=++]Wolfgang G?pel (Editor),[/url][font=&][color=#313131] [/color][/font][url=https://www.wiley.com/en-us/search?filters[author]=Elmar%20Wagner&pq=++]Elmar Wagner (Volume Editor),[/url][font=&][color=#313131] [/color][/font][url=https://www.wiley.com/en-us/search?filters[author]=Karl%20Spenner&pq=++]Karl Spenner (Volume Editor),[/url][font=&][color=#313131] [/color][/font][url=https://www.wiley.com/en-us/search?filters[author]=Joachim%20Hesse&pq=++]Joachim Hesse (Editor),[/url][font=&][color=#313131] [/color][/font][url=https://www.wiley.com/en-us/search?filters[author]=Rene%20D%C3%A4ndliker&pq=++]Rene D?ndliker (Volume Editor),[/url][font=&][color=#313131] [/color][/font][url=https://www.wiley.com/en-us/search?filters[author]=J.%20N.%20Zemel&pq=++]J. N. Zemel (Editor)[/url][font=&][color=#313131] [/color][/font][/b][*][题名]：[b]Sensors, A Comprehensive Survey, Volume 6, Optical Sensors[/b][*][b]【期刊】：wiley[/b][*][b]【链接】：[url=https://www.wiley.com/en-us/Sensors%2C+A+Comprehensive+Survey%2C+Volume+6%2C+Optical+Sensors-p-9783527620708]Sensors, A Comprehensive Survey, Volume 6, Optical Sensors | Wiley[/url][/b][*][b][/b]