畢業(yè)于中國(guó)石油大學(xué)(北京)化學(xué)工程專(zhuān)業(yè)��,獲學(xué)士學(xué)位���,就職于中國(guó)石油大學(xué)(北京)重質(zhì)油國(guó)家重點(diǎn)實(shí)驗(yàn)室���。工作期間獲得了中國(guó)石油大學(xué)(北京)的化學(xué)工程碩士學(xué)位和中國(guó)地質(zhì)大學(xué)(北京)的能源地質(zhì)工程博士學(xué)位。
研究方向涉及石油化學(xué)���、煤化學(xué)���、質(zhì)譜分析、石油及環(huán)境地球化學(xué)等�����。
重質(zhì)油國(guó)家重點(diǎn)實(shí)驗(yàn)室實(shí)驗(yàn)室副主任,實(shí)驗(yàn)室分析測(cè)試中心主任����。
辦公地點(diǎn):化工樓A座618
電話(huà):010-89733738
碩士生:化學(xué)工程與技術(shù)一級(jí)學(xué)科招生,本科專(zhuān)業(yè)背景不限����,碩博連讀優(yōu)先。
博士生:有機(jī)化學(xué)���、質(zhì)譜分析、石油化學(xué)����、環(huán)境科學(xué)、石油地球化學(xué)等專(zhuān)業(yè)背景�。
博士后:精密儀器制造、有機(jī)合成�、大氣及水化學(xué)、有機(jī)地球化學(xué)���。
技術(shù)人員:計(jì)算機(jī)程序設(shè)計(jì)�、機(jī)械制造��、分析化學(xué)。
實(shí)驗(yàn)室具有世界先進(jìn)的硬件條件和經(jīng)驗(yàn)豐富的技術(shù)隊(duì)伍���,歡迎將科學(xué)研究作為個(gè)人終生事業(yè)的年輕人加入本實(shí)驗(yàn)室���,在和諧歡樂(lè)的集體中創(chuàng)建個(gè)人的科研人生。
《儀器分析與實(shí)驗(yàn)》
《科技論文寫(xiě)作》
從分子水平認(rèn)識(shí)化石燃料����、環(huán)境腐殖質(zhì)等復(fù)雜體系的分子組成,及其在自然環(huán)境和化工過(guò)程中的遷移�、轉(zhuǎn)化規(guī)律。關(guān)鍵技術(shù)問(wèn)題是復(fù)雜體系分子組成分析方法的開(kāi)發(fā)與應(yīng)用�,科學(xué)實(shí)質(zhì)是碳、硫�、氧、氮等元素在自然界及人為活動(dòng)中的循環(huán)規(guī)律��。
(1)石油組成與轉(zhuǎn)化化學(xué)
從分子水平認(rèn)識(shí)石油�,尤其是重質(zhì)油的分子組成,包括石油中的烴類(lèi)和非烴類(lèi)化合物��。研究石油分子在分離過(guò)程的走向及化學(xué)加工過(guò)程中的轉(zhuǎn)化規(guī)律���。相關(guān)研究需要先進(jìn)分析技術(shù)作為支撐�����。
(2)煤化學(xué)
煤及煤的液化產(chǎn)物分子組成�����,開(kāi)發(fā)低階煤抽提物及中低溫煤焦油的分析方法���,系統(tǒng)研究這一復(fù)雜體系的分子組成及各種類(lèi)型化合物在加氫處理過(guò)程中的轉(zhuǎn)化規(guī)律�����。
(3)基于分子管理的石油加工技術(shù)
石油化工是一個(gè)相對(duì)成熟的技術(shù)領(lǐng)域�,但是微小的優(yōu)化空間卻存在巨大的商業(yè)價(jià)值�����,從分子水平開(kāi)發(fā)石油及石油產(chǎn)品的性質(zhì)預(yù)測(cè)及轉(zhuǎn)化模型���,可以實(shí)現(xiàn)煉化過(guò)程的“分子管理”,是煉化優(yōu)化的終極目標(biāo)�。相關(guān)工作主要集中在分子管理技術(shù)的基礎(chǔ)理論和方法學(xué)研究。
(4)色譜/質(zhì)譜分析技術(shù)
色譜是實(shí)現(xiàn)混合物分離的最高效分離技術(shù),質(zhì)譜可以提供最重要的分子組成信息�����,有效運(yùn)用色譜和質(zhì)譜技術(shù)是研究復(fù)雜有機(jī)混合物分子組成的基礎(chǔ)����。研究?jī)?nèi)容主要涉及復(fù)雜基質(zhì)中微量化合物的分離方法,難電離化合物質(zhì)譜軟電離技術(shù)�,基于質(zhì)譜技術(shù)的復(fù)雜混合物定量分析方法等。
(5)石油地球化學(xué)
石油是自然界中碳循環(huán)的一個(gè)重要部分���,每一個(gè)石油分子都經(jīng)歷過(guò)一個(gè)漫長(zhǎng)而復(fù)雜的化學(xué)轉(zhuǎn)化過(guò)程���,復(fù)雜的石油分子組成背后隱藏著豐富的石油成因及成藏信息,包括生物前驅(qū)物����、沉積環(huán)境、成巖作用�、熱演化程度及演化歷史、運(yùn)移����、水洗作用��、生物降解等�。發(fā)現(xiàn)和研究生物標(biāo)志物組成是石油地球化學(xué)研究的重要內(nèi)容�,揭示有機(jī)質(zhì)在漫長(zhǎng)地質(zhì)歷史中的演化過(guò)程,為石油工業(yè)的勘探和開(kāi)發(fā)提供理論指導(dǎo)���。
(6)環(huán)境地球化學(xué)
將石油化學(xué)研究中形成的分析方法應(yīng)用于環(huán)境樣品的分子組成分析����,從地球化學(xué)角度認(rèn)識(shí)環(huán)境有機(jī)質(zhì)的分子組成��、來(lái)源��、遷移及轉(zhuǎn)化規(guī)律�����。重點(diǎn)研究(類(lèi))腐殖質(zhì)類(lèi)復(fù)雜混合物的分子組成��,研究對(duì)象包括大氣氣溶膠���、水中可溶有機(jī)質(zhì)(DOM)及土壤腐殖質(zhì)等。DOM的來(lái)源包括工業(yè)廢水�、城市污水、環(huán)境水體、海水���、冰川融水等���。
研究方向及相互關(guān)系示意圖
(1)儀器分析平臺(tái)建設(shè)
針對(duì)小分子復(fù)雜有機(jī)體系分子組成分析,建成一個(gè)儀器分析平臺(tái)�,主要包括3個(gè)子平臺(tái):1)氣相色譜儀:12臺(tái),包括多種選擇性檢測(cè)器�,如SCD, NCD, PFPD, AED(2臺(tái)),能夠滿(mǎn)足多種元素的選擇性檢測(cè)需要�����,特別適用于化石燃料中微量硫�����、氮�、氧及金屬雜原子化合物的分子組成分析。2)氣相色譜-質(zhì)譜聯(lián)用儀:6臺(tái)�����,包括單四極桿�����、三重四極桿、飛行時(shí)間質(zhì)譜檢測(cè)器��;場(chǎng)致電離(FI)和電子轟擊(EI)電離源���。3)高分辨質(zhì)譜:3臺(tái)����,包括傅立葉變換離子回旋共振質(zhì)譜儀(FT-ICR MS)����、電場(chǎng)軌道阱質(zhì)譜儀(Orbitrap)、離子淌度-飛行時(shí)間高分辨質(zhì)譜儀(tims TOF MS)�����,3臺(tái)高分辨質(zhì)譜均能與液相色譜聯(lián)用�����,其功能具有很好的互補(bǔ)性����,是目前分析化石燃料和環(huán)境腐殖質(zhì)類(lèi)樣品分子組成最理想的儀器平臺(tái)。
(2)石油分子組成分析方法及應(yīng)用
圍繞石油組分在質(zhì)譜分析中的電離難題����,開(kāi)發(fā)了一系列基于電噴霧電離技術(shù)的石油組分分析方法,如飽和烴的氧化衍生化�����、含硫化合物的甲基衍生化����、加成衍生化及選擇性氧化等方法。實(shí)現(xiàn)了對(duì)石油中不同類(lèi)型化合物的選擇性分析��,以及復(fù)雜基質(zhì)中微量化合物的高靈敏檢測(cè)�����。一些應(yīng)用型分析方法包括:環(huán)境溢油樣品的快速分析�����、潤(rùn)滑油中微量多環(huán)芳烴的定量分析��、石油中性氮化物分離與分析方法等�����。相關(guān)方法廣泛應(yīng)用于原油、餾分油及加工產(chǎn)物的分子組成分析����。
(3)石油化學(xué)新認(rèn)識(shí)
從分子層次闡明了石油膠質(zhì)、瀝青質(zhì)的化學(xué)組成��,提出重質(zhì)油的“小分子”概念�。揭示了重質(zhì)油分子組成的多樣性,餾分油化學(xué)組成分類(lèi)方法不適于重質(zhì)油分子的分類(lèi)研究��。鑒定出多種新型石油生物標(biāo)志化合物�����,對(duì)石油中鎳��、釩元素的存在形態(tài)取得了新認(rèn)識(shí)�����。從分子層次揭示了不同類(lèi)型雜原子化合物在熱轉(zhuǎn)化和加氫等典型石油加工過(guò)程中的轉(zhuǎn)化規(guī)律�。
(4)環(huán)境化學(xué)分析方法及新認(rèn)識(shí)
以石油樣品組成分析的經(jīng)驗(yàn)積累為基礎(chǔ),依托高分辨質(zhì)譜技術(shù),開(kāi)發(fā)出適用于環(huán)境腐殖質(zhì)類(lèi)化合物的分子組成的分析方法���,主要包括樣品富集與脫雜質(zhì)的前處理技術(shù)����,高分辨質(zhì)譜分析與數(shù)據(jù)處理方法���。研究了北京地區(qū)典型霧霾天氣氣溶膠有機(jī)質(zhì)的組成特征,鑒定出大量高縮合度多環(huán)芳烴及有機(jī)硫酸酯類(lèi)化合物���,發(fā)現(xiàn)化石燃料排放與霧霾相關(guān)性的重要證據(jù)����。鑒定出新型自來(lái)水消毒副產(chǎn)物���;深入認(rèn)識(shí)了煤及石油化工廢水中有機(jī)質(zhì)分子組成及在水處理工藝中的轉(zhuǎn)化規(guī)律���。
(5)煤焦油分子組成研究
建立了一系列煤及其液化產(chǎn)物的分離、分析方法�����,系統(tǒng)研究了煤焦油分子組成,從分子層面揭示了焦油瀝青中大量氧元素的存在形態(tài)����;深入研究了煤抽提物及液化產(chǎn)物分子組成,以及不同類(lèi)型化合物在加氫精制過(guò)程中的轉(zhuǎn)化規(guī)律����。
w 石油分子地球化學(xué)實(shí)驗(yàn)新技術(shù)、新方法
w 石油組成分析的分離技術(shù)與質(zhì)譜方法學(xué)
w 石油組分的質(zhì)譜分析電離方法
w 重質(zhì)油分子組成定量分析方法及應(yīng)用
w 基于分子管理的煉化優(yōu)化技術(shù)
w 重質(zhì)油中雜原子化合物轉(zhuǎn)化規(guī)律
w 石油分子組成及轉(zhuǎn)化模型
w 工業(yè)污水中有機(jī)質(zhì)分子組成及其在凈化處理過(guò)程中的轉(zhuǎn)化規(guī)律
w 氣溶膠有機(jī)化合物組成分析及污染源識(shí)別
1. 一種分離石油組分中含硫化合物的方法. ZL2011410038248.7
2. 一種分離與分析石油組分中非堿性氮化合物的方法. ZL201510151572.4
3. 一種分離石油中硫醇化合物分子組成的方法. 201510630019.9 (申請(qǐng)?zhí)枺?/span>
4. 一種芳香族化合物分子組成的分析方法及其應(yīng)用. 201510888203.3 (申請(qǐng)?zhí)枺?/span>
5. 一種多環(huán)芳烴含量的分析方法及其應(yīng)用. 201510887902.6 (申請(qǐng)?zhí)枺?/span>
1. Chunming Xu, and Quan Shi, eds.Structure and Modeling of Complex Petroleum Mixtures. (Structure and Bonding Vol. 168). Springer, 2016.
2. Quan Shi, Jiawei Wang, Xibin Zhou, Chunming Xu, Suoqi Zhao, and Keng H. Chung. "Ruthenium Ion-Catalyzed Oxidation for Petroleum Molecule Structural Features: A Review." InStructure and Modeling of Complex Petroleum Mixtures, pp. 71-91. Springer, 2015.
3. Zhentao Chen, Linzhou Zhang, Suoqi Zhao, Quan Shi, and Chunming Xu. "Molecular Structure and Association Behavior of Petroleum Asphaltene." In Structure and Modeling of Complex Petroleum Mixtures, pp. 1-38. Springer, 2015.
4. Xu Zhao, Chunming Xu, and Quan Shi. "Porphyrins in Heavy Petroleums: A Review." InStructure and Modeling of Complex Petroleum Mixtures, pp. 39-70. Springer, 2015.
5. Zhen Hou, Linzhou Zhang, Scott R. Horton, Quan Shi, Suoqi Zhao, Chunming Xu, and Michael T. Klein. "Molecular-Level Composition and Reaction Modeling for Heavy Petroleum Complex System." InStructure and Modeling of Complex Petroleum Mixtures, pp. 93-119. Springer, 2015.
Peer-Reviewed Papers:
2016年
1. Wang, M., Zhao, S., Liu, X., and Shi, Q.*, Molecular Characterization of Thiols in Fossil Fuels by Michael Addition Reaction Derivatization and Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Analytical Chemistry, 2016. DOI: 10.1021/acs.analchem.6b02997.
2. Lu, J., Zhang, Y., and Shi, Q.*, Ionizing Aromatic Compounds in Petroleum by Electrospray with HCOONH4 as Ionization Promoter. Analytical Chemistry, 2016. 88(7): 3471-3475.
3. Ren, L., Han, Y., Zhang, Y., Zhang, Y., Meng, X., and Shi, Q.*, Spray Injection Direct Analysis in Real Time (DART) Ionization for Petroleum Analysis. Energy & Fuels, 2016. 30(6): 4486-4493.
4. Zhou, X., Zhao, S., and Shi, Q.*, Quantitative Molecular Characterization of Petroleum Asphaltenes Derived Ruthenium Ion Catalyzed Oxidation Product by ESI FT-ICR MS. Energy & Fuels, 2016. 30(5): 3758-3767.
5. Ma, S., Ma, C., Qian, K., Zhou, Y., and Shi, Q.*, Characterization of Phenolic Compounds in Coal Tar by Gas Chromatography/Negative‐Ion Atmospheric Pressure Chemical Ionization Mass Spectrometry. Rapid Communications in Mass Spectrometry, 2016.30(15): 1806-1810.
6. Wang, X., Wang, J., Zhang, Y., Shi, Q., Zhang, H., Zhang, Y., and Yang, M.*, Characterization of Unknown Iodinated Disinfection Byproducts During Chlorination/Chloramination Using Ultrahigh Resolution Mass Spectrometry. Science of The Total Environment, 2016. 554–555: 83-88.
7. Feng, S., Zhang, L., Wang, S.*, Nadykto, A. B., Xu, Y., Shi, Q., Jiang, B., and Qian, W., Characterization of Dissolved Organic Nitrogen in Wet Deposition from Lake Erhai Basin by Using Ultrahigh Resolution FT-ICR Mass Spectrometry. Chemosphere, 2016. 156: 438-445.
8. Jiang, B., Kuang, B., Liang, Y.*, Zhang, J., Huang, H., Xu, C., Yu, J. Z.*, and Shi, Q.*, Molecular Composition of Urban Organic Aerosols on Clear and Hazy Days in Beijing: A Comparative Study Using FT-ICR MS. Environmental Chemistry, 2016. http://dx.doi.org/10.1071/EN15230.
2015年
2. Li, Y., Fang, Z., He, C., Zhang, Y., Xu, C., Chung, K. H., and Shi, Q.*, Molecular Characterization and Transformation of Dissolved Organic Matter in Refinery Wastewater from Water Treatment Processes: Characterization by Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2015. 29(11): 6956-6963.
3. Wang, M., Zhu, G., Ren, L., Liu, X., Zhao, S., and Shi, Q.*, Separation and Characterization of Sulfur Compounds in Ultra-Deep Formation Crude Oils from Tarim Basin. Energy & Fuels, 2015. 29(8): 4842-4849.
4. Liu, H., Mu, J., Wang, Z., Ji, S., Shi, Q., Guo, A., Chen, K., and Lu, J., Characterization of Vanadyl and Nickel Porphyrins Enriched from Heavy Residues by Positive-Ion Electrospray Ionization FT-ICR Mass Spectrometry. Energy & Fuels, 2015. 29(8): 4803-4813.
5. Li, Y., Xu, C., Chung, K. H., and Shi, Q.*, Molecular Characterization of Dissolved Organic Matter and Its Subfractions in Refinery Process Water by Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2015. 29(5): 2923-2930.
6. Liu, T., Lu, J., Zhao, X., Zhou, Y.*, Wei, Q., Xu, C., Zhang, Y., Ding, S., Zhang, T., Tao, X., Ju, L., and Shi, Q., Distribution of Vanadium Compounds in Petroleum Vacuum Residuum and Their Transformations in Hydrodemetallization. Energy & Fuels, 2015. 29(4): 2089-2096.
7. Wang, M., Zhao, S., Chung, K. H., Xu, C., and Shi, Q.*, Approach for Selective Separation of Thiophenic and Sulfidic Sulfur Compounds from Petroleum by Methylation/Demethylation. Analytical Chemistry, 2015.87(2): 1083-1088.
8. Ni, H., Hsu, C. S., Lee, P., Wright, J., Chen, R., Xu, C., and Shi, Q.*, Supercritical Carbon Dioxide Extraction of Petroleum on Kieselguhr. Fuel, 2015.141: 74-81.
9. Han, Y., Ren, L., Xu, K., Yang, F., Li, Y., Cheng, T., Kang, X., Xu, C., and Shi, Q.*, Supercritical Fluid Extraction with Carbon Nanotubes as a Solid Collection Trap for the Analysis of Polycyclic Aromatic Hydrocarbons and Their Derivatives. Journal of Chromatography A, 2015.1395: 1-6.
2014年
1. 史權(quán)*, 張亞和, 徐春明, 趙鎖奇, 石油組分高分辨質(zhì)譜分析進(jìn)展與展望. 中國(guó)科學(xué):化學(xué), 2014. 44(5): 694-700.
2. Lu, H., Shi, Q.*, Ma, Q. L., Shi, Y., Liu, J. Z., Sheng, G. Y., and Peng, P. A., Molecular Characterization of Sulfur Compounds in Some Specieal Sulfur-Rich Chinese Crude Oils by FT-ICR MS. Science China Earth Sciences, 2014.57(6): 1158-1167.
3. Zhao, X., Shi, Q., Gray, M. R., and Xu, C.*, New Vanadium Compounds in Venezuela Heavy Crude Oil Detected by Positive-Ion Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Scientific Reports, 2014.4.
4. Zhang, Y., Zhang, L., Xu, Z., Zhang, N., Chung, K. H., Zhao, S., Xu, C., and Shi, Q.*, Molecular Characterization of Vacuum Resid and Its Fractions by Fourier Transform Ion Cyclotron Resonance Mass Spectrometry with Various Ionization Techniques. Energy and Fuels, 2014.28(12): 7448-7456.
5. Zhang, L., Zhao, S., Xu, Z., Chung, K. H., Zhao, C., Zhang, N., Xu, C., and Shi, Q.*, Molecular Weight and Aggregation of Heavy Petroleum Fractions Measured by Vapor Pressure Osmometry and a Hindered Stepwise Aggregation Model. Energy and Fuels, 2014.28(10): 6179-6187.
6. Zhou, X., Zhang, Y., Zhao, S., Chung, K. H., Xu, C., and Shi, Q.*, Characterization of Saturated Hydrocarbons in Vacuum Petroleum Residua: Redox Derivatization Followed by Negative-Ion Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy and Fuels, 2014.28(1): 417-422.
7. Zhang, L., Hou, Z., Horton, S. R., Klein, M. T.*, Shi, Q., Zhao, S., and Xu, C., Molecular Representation of Petroleum Vacuum Resid. Energy and Fuels, 2014.28(3): 1736-1749.
8. Bi, Y., Wang, G., Shi, Q., Xu, C., and Gao, J., Compositional Changes During Hydrodeoxygenation of Biomass Pyrolysis Oil. Energy and Fuels, 2014.28(4): 2571-2580.
9. Zhang, L., Zhang, Y., Zhao, S., Chung, K. H., Xu, C., and Shi, Q.*, Effect of Apodization on FT-ICR Mass Spectrometry Analysis of Petroleum. International Journal of Mass Spectrometry, 2014.373: 27-33.
10.Zhang, H., Zhang, Y., Shi, Q., Zheng, H., and Yang, M.*, Characterization of Unknown Brominated Disinfection Byproducts During Chlorination Using Ultrahigh Resolution Mass Spectrometry. Environmental Science and Technology, 2014.48(6): 3112-3119.
11.Jiang, B., Liang, Y.*, Xu, C., Zhang, J., Hu, M., and Shi, Q.*, Polycyclic Aromatic Hydrocarbons (Pahs) in Ambient Aerosols from Beijing: Characterization of Low Volatile Pahs by Positive-Ion Atmospheric Pressure Photoionization (APPI) Coupled with Fourier Transform Ion Cyclotron Resonance. Environmental Science and Technology, 2014.48(9): 4716-4723.
2013年
1. 徐春明, 劉洋, 趙鎖奇, 史權(quán), 石油瀝青質(zhì)中雜原子化合物的高分辨質(zhì)譜分析.中國(guó)石油大學(xué)學(xué)報(bào)(自然科學(xué)版), 2013(05): p. 190-195.
2. Zhou, X., Zhang, Y., Zhao, S., Hsu, C. S., and Shi, Q.*, Observation of Co2 and Solvent Adduct Ions During Negative Mode Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometric Analysis of Monohydric Alcohols. Rapid Communications in Mass Spectrometry, 2013. 27(23): p. 2581-2587.
3. Zhao, X., Liu, Y., Xu, C., Yan, Y., Zhang, Y., Zhang, Q., Zhao, S., Chung, K., Gray, M. R., and Shi, Q.*, Separation and Characterization of Vanadyl Porphyrins in Venezuela Orinoco Heavy Crude Oil. Energy & Fuels, 2013. 27(6): p. 2874-2882.
4. Zhang, T., Zhang, L., Zhou, Y.*, Wei, Q., Chung, K. H., Zhao, S., Xu, C., and Shi, Q.*, Transformation of Nitrogen Compounds in Deasphalted Oil Hydrotreating: Characterized by Electrospray Ionization Fourier Transform-Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2013. 27(6): p. 2952-2959.
5. Shi, Q.*, Pan, N., Long, H., Cui, D., Guo, X., Long, Y., Chung, K. H., Zhao, S., Xu, C., and Hsu, C. S.*, Characterization of Middle-Temperature Gasification Coal Tar. Part 3: Molecular Composition of Acidic Compounds. Energy & Fuels, 2013. 27(1): p. 108-117.
6. Lu, H., Shi, Q.*, Lu, J., Sheng, G., Peng, P. A., and Hsu, C. S.*, Petroleum Sulfur Biomarkers Analyzed by Comprehensive Two-Dimensional Gas Chromatography Sulfur-Specific Detection and Mass Spectrometry. Energy & Fuels, 2013. 27(12): p. 7245-7251.
7. Ni, H., Hsu, C. S.*, Ma, C., Shi, Q.*, and Xu, C., Separation and Characterization of Olefin/Paraffin in Coal Tar and Petroleum Coker Oil. Energy & Fuels, 2013. 27(9): p. 5069-5075.
8. Zhang, L., Shi, Q.*, Zhao, C., Zhang, N., Chung, K. H., Xu, C., and Zhao, S.*, Hindered Stepwise Aggregation Model for Molecular Weight Determination of Heavy Petroleum Fractions by Vapor Pressure Osmometry (VPO). Energy & Fuels, 2013. 27(3): p. 1331-1336.
9. Pan, Y., Liao, Y.*, Shi, Q., and Hsu, C. S., Acidic and Neutral Polar Nso Compounds in Heavily Biodegraded Oils Characterized by Negative-Ion ESI FT-ICR MS. Energy & Fuels, 2013. 27(6): p. 2960-2973.
10.Stevens, D., Shi, Q., and Hsu, C. S.*, Novel Analytical Technique for Petroleum Biomarker Analysis. Energy & Fuels, 2013. 27(1): p. 167-171.
11.Tong, J., Liu, J., Han, X.*, Shi, Q., and Jiang, X., Influence of Heating Rate on Basic Nitrogen-Containing Species Content in Dachengzi Shale Oil Studied by Positive-Ion Electrospray Ionization FT-ICR Mass Spectrometry. Oil Shale, 2013. 30(1): p. 76-89.
12.Wang, L., He, C., Zhang, Y., Zhao, S.*, Chung, K. H., Xu, C., Hsu, C. S., and Shi, Q.*, Characterization of Acidic Compounds in Heavy Petroleum Resid by Fractionation and Negative-Ion Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry Analysis. Energy & Fuels, 2013. 27(8): p. 4555-4563.
13.Wang, S., Yang, C., Xu, C., Zhao, S., and Shi, Q.*, Separation and Characterization of Petroleum Asphaltene Fractions by ESI FT-ICR MS and UV-Vis Spectrometer. Science China Chemistry, 2013. 56(7): p. 856-862.
14.Yang, B., Xu, C., Zhao, S., Hsu, C., Chung, K., and Shi, Q.*, Thermal Transformation of Acid Compounds in High Tan Crude Oil. Science China Chemistry, 2013. 56(7): p. 848-855.
15.Zhang, L., Zhang, Y., Zhao, S., Xu, C., Chung, K., and Shi, Q.*, Characterization of Heavy Petroleum Fraction by Positive-Ion Electrospray Ionization FT-ICR Mass Spectrometry and Collision Induced Dissociation: Bond Dissociation Behavior and Aromatic Ring Architecture of Basic Nitrogen Compounds. Science China Chemistry, 2013. 56(7): p. 874-882.
16.Hsu, C*. and Shi, Q., Prospects for Petroleum Mass Spectrometry and Chromatography. Science China Chemistry, 2013. 56(7): p. 833-839.
17.Wang, L., He, C., Liu, Y., Zhao, S., Zhang, Y., Xu, C., Chung, K., and Shi, Q.*, Effects of Experimental Conditions on the Molecular Composition of Maltenes and Asphaltenes Derived from Oilsands Bitumen: Characterized by Negative-Ion ESI FT-ICR MS. Science China Chemistry, 2013. 56(7): p. 863-873.
18.Zhang, L., Li, S., Han, L., Sun, X., Xu, Z., Shi, Q., Xu, C., and Zhao, S.*, Coking Reactivity of Laboratory-Scale Unit for Two Heavy Petroleum and Their Supercritical Fluid Extraction Subfractions. Industrial & Engineering Chemistry Research, 2013. 52(16): p. 5593-5600.
2012年
1. Zhou, X., Shi, Q., Zhang, Y., Zhao, S.*, Zhang, R., Chung, K. H., and Xu, C.*, Analysis of Saturated Hydrocarbons by Redox Reaction with Negative-Ion Electrospray Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Analytical Chemistry, 2012. 84(7): p. 3192-3199.
3. Zhang, L., Xu, Z., Shi, Q.*, Sun, X., Zhang, N., Zhang, Y., Chung, K. H., Xu, C., and Zhao, S., Molecular Characterization of Polar Heteroatom Species in Venezuela Orinoco Petroleum Vacuum Residue and Its Supercritical Fluid Extraction Subfractions. Energy & Fuels, 2012. 26(9): p. 5795-5803.
4. Zhang, H., Zhang, Y., Shi, Q., Ren, S., Yu, J., Ji, F., Luo, W., and Yang, M.*, Characterization of Low Molecular Weight Dissolved Natural Organic Matter Along the Treatment Trait of a Waterworks Using Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Water Research, 2012. 46(16): p. 5197-5204.
5. Zhang, H., Zhang, Y., Shi, Q., Hu, J., Chu, M., Yu, J., and Yang, M.*, Study on Transformation of Natural Organic Matter in Source Water During Chlorination and Its Chlorinated Products Using Ultrahigh Resolution Mass Spectrometry. Environmental Science & Technology, 2012. 46(8): p. 4396-4402.
6. Long, H., Shi, Q.*, Pan, N., Zhang, Y., Cui, D., Chung, K. H., Zhao, S., and Xu, C.*, Characterization of Middle-Temperature Gasification Coal Tar. Part 2: Neutral Fraction by Extrography Followed by Gas Chromatography–Mass Spectrometry and Electrospray Ionization Coupled with Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2012. 26(6): p. 3424-3431.
7. Pan, N., Cui, D., Li, R., Shi, Q.*, Chung, K. H., Long, H., Li, Y., Zhang, Y., Zhao, S., and Xu, C.*, Characterization of Middle-Temperature Gasification Coal Tar. Part 1: Bulk Properties and Molecular Compositions of Distillates and Basic Fractions. Energy & Fuels, 2012. 26(9): p. 5719-5728.
8. Liu, Y., Shi, Q.*, Zhang, Y., He, Y., Chung, K. H., Zhao, S., and Xu, C.*, Characterization of Red Pine Pyrolysis Bio-Oil by Gas Chromatography–Mass Spectrometry and Negative-Ion Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2012. 26(7): p. 4532-4539.
9. Liao, Y.*, Shi, Q., Hsu, C. S., Pan, Y., and Zhang, Y., Distribution of Acids and Nitrogen-Containing Compounds in Biodegraded Oils of the Liaohe Basin by Negative Ion ESI FT-ICR Ms. Organic Geochemistry, 2012. 47(0): p. 51-65.
10.Li, S.*, Shi, Q., Pang, X., Zhang, B., and Zhang, H., Origin of the Unusually High Dibenzothiophene Oils in Tazhong-4 Oilfield of Tarim Basin and Its Implication in Deep Petroleum Exploration. Organic Geochemistry, 2012. 48(0): p. 56-80.
2011年
1. Zhu, X., Shi, Q.*, Zhang, Y., Pan, N., Xu, C.*, Chung, K. H., and Zhao, S., Characterization of Nitrogen Compounds in Coker Heavy Gas Oil and Its Subfractions by Liquid Chromatographic Separation Followed by Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2011. 25(1): p. 281-287.
2. Zhang, Y., Zhao, H., Shi, Q.*, Chung, K. H., Zhao, S., and Xu, C.*, Molecular Investigation of Crude Oil Sludge from an Electric Dehydrator. Energy & Fuels, 2011. 25(7): p. 3116-3124.
3. Zhang, Y., Shi, Q.*, Li, A., Chung, K. H., Zhao, S., and Xu, C.*, Partitioning of Crude Oil Acidic Compounds into Subfractions by Extrography and Identification of Isoprenoidyl Phenols and Tocopherols. Energy & Fuels, 2011. 25(11): p. 5083-5089.
4. Liu, P., Shi, Q.*, Pan, N., Zhang, Y., Chung, K. H., Zhao, S., and Xu, C.*, Distribution of Sulfides and Thiophenic Compounds in Vgo Subfractions: Characterized by Positive-Ion Electrospray Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2011. 25(7): p. 3014-3020.
5. Liu, D.*, Fu, Y., Deng, W., Shi, Q.*, Ma, K., Hou, T., and Wu, C., FT-ICR Ms Analysis of Nitrogen-Containing Compounds in the Products of Liaohe Atmospheric Residue Hydrocracking. Energy & Fuels, 2011. 26(1): p. 624-628.
6. Li, Z.-k., Wang, G.*, Shi, Q., Xu, C.-m., and Gao, J.-s., Retardation Effect of Basic Nitrogen Compounds on Hydrocarbons Catalytic Cracking in Coker Gas Oil and Their Structural Identification. Industrial & Engineering Chemistry Research, 2011. 50(7): p. 4123-4132.
7. Li, Z.-k., Gao, J.-s., Wang, G.*, Shi, Q., and Xu, C.-m., Influence of Nonbasic Nitrogen Compounds and Condensed Aromatics on Coker Gas Oil Catalytic Cracking and Their Characterization. Industrial & Engineering Chemistry Research, 2011. 50(15): p. 9415-9424.
2010年
1. Zhang, Y., Xu, C.*, Shi, Q.*, Zhao, S., Chung, K. H., and Hou, D., Tracking Neutral Nitrogen Compounds in Subfractions of Crude Oil Obtained by Liquid Chromatography Separation Using Negative-Ion Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2010. 24(12): p. 6321-6326.
2. 潘娜, 史權(quán)*, 徐春明, 劉鵬, 張亞和, 何俊輝, and 趙鎖奇, 直餾柴油中硫化物甲基锍鹽合成及電噴霧-高分辨質(zhì)譜分析.色譜, 2010. 38(3): p. 413-416.
3. Liu, P., Xu, C.*, Shi, Q.*, Pan, N., Zhang, Y., Zhao, S., and Chung, K. H., Characterization of Sulfide Compounds in Petroleum: Selective Oxidation Followed by Positive-Ion Electrospray Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Analytical Chemistry, 2010. 82(15): p. 6601-6606.
4. Liu, P., Shi, Q.*, Chung, K. H., Zhang, Y., Pan, N., Zhao, S., and Xu, C.*, Molecular Characterization of Sulfur Compounds in Venezuela Crude Oil and Its Sara Fractions by Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2010. 24(9): p. 5089-5096.
5. Li, M.*, Cheng, D., Pan, X., Dou, L., Hou, D., Shi, Q., Wen, Z., Tang, Y., Achal, S., Milovic, M., and Tremblay, L., Characterization of Petroleum Acids Using Combined Ft-Ir, FT-ICR–Ms and Gc–Ms: Implications for the Origin of High Acidity Oils in the Muglad Basin, Sudan. Organic Geochemistry, 2010. 41(9): p. 959-965.
6. Shi, Q., Hou, D., Chung, K. H., Xu, C.*, Zhao, S., and Zhang, Y., Characterization of Heteroatom Compounds in a Crude Oil and Its Saturates, Aromatics, Resins, and Asphaltenes (Sara) and Non-Basic Nitrogen Fractions Analyzed by Negative-Ion Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2010. 24(4): p. 2545-2553.
7. Shi, Q.*, Zhao, S.*, Xu, Z., Chung, K. H., Zhang, Y., and Xu, C., Distribution of Acids and Neutral Nitrogen Compounds in a Chinese Crude Oil and Its Fractions: Characterized by Negative-Ion Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2010. 24(7): p. 4005-4011.
8. Shi, Q.*, Pan, N., Liu, P., Chung, K. H., Zhao, S., Zhang, Y., and Xu, C.*, Characterization of Sulfur Compounds in Oilsands Bitumen by Methylation Followed by Positive-Ion Electrospray Ionization and Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2010. 24(5): p. 3014-3019.
9. Shi, Q.*, Xu, C., Zhao, S., Chung, K. H., Zhang, Y., and Gao, W., Characterization of Basic Nitrogen Species in Coker Gas Oils by Positive-Ion Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Energy & Fuels, 2010. 24(1): p. 563-569.
10.Shi, Q.*, Yan, Y., Wu, X., Li, S.*, Chung, K. H., Zhao, S., and Xu, C., Identification of Dihydroxy Aromatic Compounds in a Low-Temperature Pyrolysis Coal Tar by Gas Chromatography-Mass Spectrometry (Gc-Ms) and Fourier Transform Ion Cyclotron Resonance Mass Spectrometry (FT-ICR MS). Energy & Fuels, 2010. 24(10): p. 5533-5538.
2009年
2008年
1. Shi, Q.*, Wang, T., Zhong, N., Zhang, Z., and Zhang, Y., Identification of Acephenanthrylene and Aceanthrylene in Aerosol and Its Environmental Implication. Chinese Science Bulletin, 2008. 53(6): p. 890-894.
