自美國麥克儀器公司AutoChem系列研究級高性能全自動程序升溫化學吸附儀問世以來,憑借其過硬的技術優勢引領化學吸附技術發展方向,解決用戶化學吸附測試中的難題,并逐漸成為化學吸附分析的領導者。麥克儀器公司始終追隨客戶的需求,不斷升級改進自己的技術, AutoChem 系列儀器已經經過了幾代的升級演變。自AutoChem II 2920發布至今,它已經成為全球各個著名大學以及研究結構的首選儀器。其中不乏中國知名學府和研究院,華東理工、華南理工、天津大學、復旦大學、廈門大學、北京科技大學、北京工業大學、北京化工研究院、中石化石油化工科學研究院、中科院大連化物所、中海油天津化工研究院、蘭州石油化工研究院、上海石油化工研究院等等都是AutoChem II2920的用戶。
AutoChem II 2920具有如下技術特征:
4個內部溫度控制區可獨立加熱,最高達250 ℃(TCD)。這樣可以防止氣體在流動過程中凝結與吸附。
小體積的內部管路保證了高分辨率與快速探測器響應,并在計算氣體體積時減少錯誤。
高度敏感的線性熱傳導檢測器(TCD )確保校準體積在整個峰范圍內保持恒定,從而峰面積與反應氣體體積成正比關系
四個高精度的質量流量控制器提供非常準確、可程序控制的氣體流量控制,保證了穩定的基線和氣體體積的準確測定。
鍍金TCD具有超強抗氨腐蝕性和抗氧化性,從而盡可能降低檢測器損耗。
開合式加熱爐能加熱石英樣品反應器到1100℃ 。可設定任意數量的升溫速率和內置方法,方便定制的實驗。 KwikCool功能冷卻爐可使爐內溫度迅速下降到環境溫度,減少分析時間,提高測試量。
分別用于制備、載氣和LOOP氣的十二路進氣口允許連接更多的氣體,進行更為復雜的實驗。例如TPR / TPO循環。
質譜儀端口和集成軟件允許同時在熱導檢測器和質譜儀上進行檢測。
蒸汽發生器允許蒸汽吸附反應,例如吡啶、苯和水。
CryoCooler冷浴槽可以在-110℃低溫條件下開始進行反應,滿足貴金屬催化反應研究。
同時AutoChem II 2920也可以根據客戶實際需要進行各種定制。
AutoChem II 2920被引用的文章列表(注:由于篇幅的限制,只列出一小部分供參考)
| 文章標題 | 作者 | 刊物 |
| Supported bimetallic AuRh/γ-Al2O3 nanocatalyst for the selective catalytic reduction of NO by propylene | Licheng Liu, Xiao Guan, Zhimei Li, Xuehong Zi, Hongxing Dai, Hong He | Applied Catalysis B: Environmental,90(1-2), Pages 1-9, 2009 |
| Catalytic combustion of styrene over copper based catalyst: Inhibitory effect of water vapor | Hongyan Pan, Mingyao Xu, Zhong Li | Chemosphere,76(5),721-726,2009 |
| Thermally Stable CeO2–ZrO2–La2O3 Ternary Oxides Prepared by Deposition–Precipitation as Support of Rh Catalyst for Catalytic Reduction of NO by CO | Fulan Zhong, Yihong Xiao, Ximing Weng, Kemei Wei, Guohui Cai, Yong Zheng and Qi Zheng, | Catalysis Letters,133(1-2), 125-133, 2009 |
| Manganese-promoted cobalt oxide as efficient and stable non-noble metal catalyst for preferential oxidation of CO in H2 stream | Qinghong Zhang, Xianhong Liu, Wenqing Fan, Ye Wang | Applied Catalysis B: Environmental, 102(1-2),207-214,2011 |
| Research on assembly of nano-Pd colloid and fabrication of supported Pd catalysts from the metal colloid | Licheng Liu, Ting Wei, Xuehong Zi, Hong He Hongxing Dai | Catalysis Today, 153(3-4),162-169,2010 |
| Co/Pillared Clay Bifunctional Catalyst for Controlling the Product Distribution of Fischer?Tropsch Synthesis | Qing-Qing Hao, Guang-Wei Wang,hao-Tie Liu, Jian Lu, and Zhong-Wen Liu | Ind. Eng. Chem. Res., 49 (19), 9004–9011, 2010 |
| Towards understanding the microstructures and hydrocracking performance of sulfided Ni–W catalysts: Effect of metal loading | Guoqi Cui, Jifeng Wang, Hongfei Fan, Xiaoyan Sun, Yan Jiang, Shaojun Wang, Dan Liua, Jianzhou Gui | Fuel Processing Technology,92(12), 2320-2327,2011 |
| Influence of Noble Metals on the Direct Oxidation of Ethylene to Acetic Acid over NM/WO3-ZrO2 (NM = Ru, Rh, and Pd) Catalysts | Lixia WANG, Shuliang XU, Wenling CHU,Weishen YANG | Chinese Journal of Catalysis, 30(12), 1281-1286,2009 |
| Improvement of CO2 adsorption on ZIF-8 crystals modified by enhancing basicity of surface | Zhijuan Zhang, Shikai Xian, Hongxia Xi, Haihui Wang, Zhong Li | Chemical Engineering Science, 66(20), 4878-4888,2011 |
| Highly efficient Pd/Al2O3-Ce0.6Zr0.4O2 catalyst pretreated by H2 for low-temperature methanol oxidation | Yongjin Luo, Yihong Xiao, Guohui Cai, Yong Zheng and Kemei Wei | Catal. Sci. Technol., 1, 1362-1366,2011 |
| Palladium-Based Catalyst without Interlayer Film Prepared by Electroless Plating for Catalytic Combustion of Toluene | Yong Feng Li, Yu Li, Yan Ting Huang, Lin Yu, Qian Yu, Rong Jian Mai | Advanced Materials Research, 957,197-198, 2011 |
| Hydrodealkylation of C9+ Heavy Aromatics to BTX over Zeolite-Supported Nickel Oxide and Molybdenum Oxide Catalysts | Qunbing Shen, Xuedong Zhu, Jiaojiao Dong and Zibin Zhu | Catalysis Letters , 129(1-2), 170-180, 2009 |
| Morphology effects of nanocrystalline CeO2 on the preferential CO oxidation in H2-rich gas over Au/CeO2 catalyst | Guangquan Yia, Zhongning Xub, Guocong Guob, Ken-ichi Tanakac, Youzhu Yuan | Chemical Physics Letters,479(1-3), 128-132,2009 |
| Palladium supported on hierarchically macro–mesoporous titania for styrene hydrogenation | Tian-Ying Zeng, Zhi-Ming Zhou , Jun Zhu, Zhen-Min Cheng, Pei-Qing Yuan, Wei-Kang Yuan | Catalysis Today,147(S41-S45), 2009 |
| Dehydrogenation of ethylbenzene to styrene with CO2 over iron oxide-based catalysts | Min Jia, Guili Chena, Junhu Wangb, Xinkui Wanga, Tao Zhang | Catalysis Today,158( 3-4), 464-469, 2010 |
| Diffusion-enhanced hierarchically macro-mesoporous catalyst for selective hydrogenation of pyrolysis gasoline | Zhiming Zhou, Tianying Zeng, Zhenmin Cheng, Weikang Yuan | AIChE Journal,57( 8), 2198–2206, 2011 |
| Conversion of cellobiose into sorbitol in neutral water medium over carbon nanotube-supported ruthenium catalysts | Weiping Deng, Mi Liu, Xuesong Tan, Qinghong Zhang ,, Ye Wang | Journal of Catalysis,271(1), 22-32 2010 |
| Effects of acidity and microstructure on the catalytic behavior of cesium salts of 12-tungstophosphoric acid for oxidative dehydrogenation of propane | Jizhe Zhang, Miao Sun, Chuanjing Cao, Qinghong Zhang , Ye Wang, Huilin Wan | Applied Catalysis A, 380(1-2),87-94,2010 |
| Dimethyl Ether Catalytic Combustion over Manganese Oxides with Different Structures | Lin Yu, Gui Qiang Diao, Fei Ye, Ming Sun, Yue Liu, Qian Yu | Advanced Materials Research, 1482, 146-147,2010 |
更多產品詳情,請咨詢
400-630-2202
或登錄我們的網站
www.micromeritics.com.cn www.micromeritics.com
納米有多小?如果將1納米和1米比較,就好像是高爾夫球和地球作比。1納米相當于4倍原子大小,比單個病毒的尺寸還要小得多。廈門創新創業園企業福流生物自主研發的納米流式檢測儀,就好比打開了一扇通往納米世界的......
電化學傳感一直是化學/生物傳感領域的前沿技術,并在分析化學領域發揮著重要作用。電極作為電化學傳感器的基本組成元件,很大程度上影響著傳感器的性能。根據傳感界面物理形狀,電極可分為以下三類:經典圓盤電極(......
液相色譜檢測器的作用是將柱流出物中樣品組成和含量的變化轉化為可供檢測的信號,常用檢測器有紫外吸收、熒光、示差折光、化學發光等。1紫外吸收檢測器紫外吸收(UV)檢測器是目前HPLC應用最廣泛的檢測器。其......
1、先把氫氣關了,讓火熄滅,開著空氣,可加快水份的揮發。2、然后將檢測器溫度升到260度,利用記溫將水份蒸發干。......
1,基線會很詭異一直走不平。尤其在走空白時會出現多個峰。2,柱壓相對以往無變化。3,主峰色譜純度下降。4,保留時間變化不可確定。......
并不是通常是250度,而是你經常使用的溫度。要看行業,檢測目標而定,可以180-400度不等。......
ACQUITYQDa質譜檢測器通過可靠的質譜檢測分析確認痕量成分,提升每次分析的質量和效率。ACQUITYQDa直觀易用,堪比光學檢測器,并且能夠穩定處理所有分析。它可以與您的色譜分析完美兼容,且經過......
1,紫外吸收(UV)檢測器紫外吸收檢測器簡稱紫外檢測器,是基于溶質分子吸收紫外光的原理設計的檢測器,其工作原理是Lambert-Beer定律,即當一束單色光透過流動池時,若流動相不吸收光,則吸收度A與......
現在原子吸收分光光度計的檢測器主要是以普通的不同規格的PMT檢測器為主,也有的以CCD為檢測器的。做為原子吸收的檢測器應在190-900nm范圍內有光譜響應,這個可以用As193.7nm和Cs852.......
高效液相色譜儀的常用檢測器有哪幾種,有什么區別PDA檢測器:即紫外檢測器,點時間可檢測單一點處吸收值。DAD檢測器:二極管陣列檢測器,可理解為無數個PDA檢測器串聯。即點時間可檢測某一波段吸收值,比P......
