南京林業(yè)大學林產(chǎn)化學加工工程專業(yè)考研調(diào)劑信息

發(fā)布時間:2018-04-27 編輯:考研派小莉 推薦訪問:林產(chǎn)化學加工工程
南京林業(yè)大學林產(chǎn)化學加工工程專業(yè)考研調(diào)劑信息

南京林業(yè)大學林產(chǎn)化學加工工程專業(yè)考研調(diào)劑信息內(nèi)容如下,更多考研資訊請關注我們網(wǎng)站的更新!敬請收藏本站,或下載我們的考研派APP和考研派微信公眾號(里面有非常多的免費考研資源可以領取,有各種考研問題,也可直接加我們網(wǎng)站上的研究生學姐微信,全程免費答疑,助各位考研一臂之力,爭取早日考上理想中的研究生院校。)

南京林業(yè)大學林產(chǎn)化學加工工程專業(yè)考研調(diào)劑信息 正文

招生人數(shù):2
招生簡介:
南京林業(yè)大學,江蘇省生物質(zhì)能源綠色化工重點實驗室,林產(chǎn)化工專業(yè)(國家級重點學科,雙一流建設學科),潘暉老師課題組,招收調(diào)劑碩士研究生。目前課題組項目經(jīng)費充足,并且有國家重點學科、江蘇省重點學科、雙一流學科支持,碩士期間有出國深造機會,歡迎有科研理想的同學加入。
有意向者請將您的簡歷發(fā)送到潘老師郵箱,或直接電話或QQ咨詢。
聯(lián)系方式:潘  暉(Hpan@njfu.edu.cn;025-85427233);
張同學(376558764@qq.com;13913872147);
一、招生要求。
1. 有科研成果者優(yōu)先。
2. 過英語六級者優(yōu)先。
3. 具有化學化工、高分子或材料等相關背景者優(yōu)先。
4. 需數(shù)二。
6. 其他要求詳情見:http://gsnfu.njfu.edu.cn/sstjxx/89573.jhtml
二、課題組主要研究方向:木質(zhì)纖維生物質(zhì)資源的綜合利用
1. 高效低能耗的木質(zhì)纖維生物質(zhì)煉制(biorefinery)技術的研究
2. 生物基功能性材料的開發(fā)
3. 微波技術在生物質(zhì)熱轉(zhuǎn)化中的基礎及應用研究。
三、潘暉教授簡介。
潘暉,女,教授,博士生導師。1993年及2002年于東北林業(yè)大學分別獲得工學學士、碩士學位。2003年赴美國留學,2007年在美國路易斯安那州立大學獲得博士學位。2007年至2013年為美國路易斯安那州立大學農(nóng)業(yè)中心助理教授。2013年8月至今為南京林業(yè)大學教授,并獲聘江蘇省特聘教授。
四、主持或參與的課題。
1. 美國農(nóng)業(yè)部Hitch Fund:Detoxification of Spent CCA-Treated Wood by Liquefaction and Reuse of Recovered Heavy Metals as Industrial Raw Materials [基于木材液化的CCA防腐材廢料的無害化處理和回收重金屬用于工業(yè)原料],2008-2013,項目負責人;
2. 美國國家自然科學基金及路易斯安那Board of Regents,Pfund: Characterization of CCA metals in liquefied spent CCA-treated wood sludge by sequential extraction [利用連續(xù)抽提法對防腐木材廢料液化殘渣中銅鉻砷重金屬表征的研究], 2008-2009,項目負責人;
3. 美國國家自然科學基金及路易斯安那Board of Regents,Pfund: Preliminary investigation of use of wood liquefaction as a novel pretreatment for cellulosic ethanol and a key component in a lignocellulosic biomass refinery [木材液化用于生產(chǎn)纖維素乙醇的預處理及作為木質(zhì)纖維生物精煉關鍵技術的初步研究], 2010-2011,項目負責人。
4. 林業(yè)公益性行業(yè)科研專項重大項目:木質(zhì)纖維選擇性微波液化產(chǎn)業(yè)集成與示范。2015-2018,項目負責人。
5. 國家自然科學基金面上項目:木質(zhì)纖維微波輔助溶劑液化過程機理研究。2018-2021,項目負責人。
五、課題組近三年科研成果。
1. Zhou, M., Eberhardt, T. L., Cai, B., Hse, C. Y., & Pan, H. (2017). Dynamic dielectric properties of a wood liquefaction system using polyethylene glycol and glycerol.
2. Zhu, M., Han, J., Wang, F., Shao, W., Xiong, R., & Zhang, Q., et al. (2017). Electrospun nanofibers membranes for effective air filtration. Macromolecular Materials & Engineering, 1600353.
3. Yang, T., Cai, B., Chang, X., Pan, H., & Huang, Y. (2017). Highly efficient and recyclable metal salt catalyst for the production of biodiesel: toward greener process. Chemistryselect, 2(13), 3775-3782.
4. Yang, T., Zhou, Y. H., Zhu, S. Z., Pan, H., & Huang, Y. B. (2017). Insight into aluminium sulfate catalyzed xylan conversion to furfural in γ‐valerolactone/water biphasic solvent under microwave condition. ChemSusChem.
5. Xin, P. P., Huang, Y. B., Hse, C. Y., Cheng, H. N., Huang, C., & Pan, H. (2017). Modification of cellulose with succinic anhydride in tbaa/dmso mixed solvent under catalyst-free conditions. Materials, 10(5), 526.
6. Huang, Y. B., Yang, T., Zhou, M. C., Pan, H., & Fu, Y. (2016). Microwave-assisted alcoholysis of furfural alcohol into alkyl levulinates catalyzed by metal salts. Green Chemistry, 18(6), 1516-1523.
7. Xie, J., Hse, C., Shupe, T. F., Pan, H., & Hu, T. (2016). Extraction and characterization of holocellulose fibers by microwave‐assisted selective liquefaction of bamboo. Journal of Applied Polymer Science, 133(18), n/a-n/a.
8. Chang, X., Liu, A. F., Cai, B., Luo, J. Y., Pan, H., & Huang, Y. B. (2016). Catalytic transfer hydrogenation of furfural to 2‐methylfuran and 2‐methyltetrahydrofuran over bimetallic copper–palladium catalysts. Chemsuschem, 9(23).
9. Huang, Y. B., Yang, T., Cai, B., Chang, X., & Pan, H. (2016). Highly efficient metal salt catalyst for the esterification of biomass derived levulinic acid under microwave irradiation. Rsc Advances, 6(3), 2106-2111.
10. Huang, Y. B., Xin, P. P., Li, J. X., Shao, Y. Y., Huang, C. B., & Pan, H. (2016). Room-temperature dissolution and mechanistic investigation of cellulose in a tetra-butylammonium acetate/dimethyl sulfoxide system. Acs Sustainable Chemistry & Engineering, 4(4).
11. Cai, B., Zhou, X. C., Miao, Y. C., Luo, J. Y., Pan, H., & Huang, Y. B. (2016). Enhanced catalytic transfer hydrogenation of ethyl levulinate to γ-valerolactone over an robust cu-ni bimetallic catalyst. Acs Sustainable Chemistry & Engineering, 5(2).
12. Yao, M. Y., Huang, Y. B., Niu, X., & Pan, H. (2016). Highly efficient silica-supported peroxycarboxylic acid for the epoxidation of unsaturated fatty acid methyl esters and vegetable oils. Acs Sustainable Chemistry & Engineering, 4(7).
13. Mengchao Zhou, Thomas L. Eberhardt, Pingping Xin, Chung-Yun Hse, and Hui Pan. (2016) Liquefaction of Torrefied Wood using Microwave Irradiation Energy Fuels, 30 (7), 5862–5869
14. Cai, B., Zhou, X. C., Miao, Y. C., Luo, J. Y., Pan, H., & Huang, Y. B. (2016). Enhanced catalytic transfer hydrogenation of ethyl levulinate to γ-valerolactone over an robust cu-ni bimetallic catalyst. Acs Sustainable Chemistry & Engineering, 5(2).
15. Yao, M. Y., Huang, Y. B., Niu, X., & Pan, H. (2016). Highly efficient silica-supported peroxycarboxylic acid for the epoxidation of unsaturated fatty acid methyl esters and vegetable oils. Acs Sustainable Chemistry & Engineering, 4(7).
16. Mengchao Zhou, Thomas L. Eberhardt, Pingping Xin, Chung-Yun Hse, and Hui Pan. (2016) Liquefaction of Torrefied Wood using Microwave Irradiation Energy Fuels, 30 (7), 5862–5869
17. Xie, J., Zhai, X., Hse, C. Y., Shupe, T. F., & Pan, H. (2015). Polyols from microwave liquefied bagasse and its application to rigid polyurethane foam. Materials, 8(12), 8496-8509.
18. Huang, Y. B., Yao, M. Y., Xin, P. P., Zhou, M. C., Yang, T., & Pan, H. (2015). Influence of alkenyl structures on the epoxidation of unsaturated fatty acid methyl esters and vegetable oils. Rsc Advances, 5(91), 74783-74789.
19. Lee, S., Pan, H., Hse, C. Y., Gunasekaran, A. R., & Shupe, T. F. (2014). Characteristics of regenerated nanocellulosic fibers from cellulose dissolution in aqueous solutions for wood fiber/polypropylene composites. Journal of Thermoplastic Composite Materials, 27(4), 558-570.
20. Xie, J., Hse, C. Y., Shupe, T. F., Qi, J., & Pan, H. (2014). Liquefaction behaviors of bamboo residues in a glycerol‐based solvent using microwave energy. Journal of Applied Polymer Science, 131(9).
21. Lihong Hu, Hui Pan, Yonghong Zhou, ChungYun Hse, Chengguo Liu, & Baofang Zhang, et al. (2014). Chemical groups and structural characterization of lignin via thiol-mediated demethylation. Journal of Wood Chemistry & Technology, 34(2), 122-134.
六、課題組研究生國外訪學去過的單位(https://www.fs.fed.us/)
七、課題組活動。
搞科研需要張弛有度,我們課題組每月一次的戶外活動。
八、待遇
調(diào)劑被我校錄取的全日制碩士研究生,第一學年將獲得學業(yè)獎學金4000元和國家助學金6000元;其它學年學業(yè)獎學金通過評定發(fā)放,獎學金分別為12000元(20%)、8000元(50%)和6000(30%),國家助學金6000元保持不變。
另外,課題組除了助研補貼之外還有績效獎(500-1500)、和科研獎勵(300-8000)。
南京農(nóng)業(yè)大學

添加南京農(nóng)業(yè)大學學姐微信,或微信搜索公眾號“考研派小站”,關注[考研派小站]微信公眾號,在考研派小站微信號輸入[南京農(nóng)業(yè)大學考研分數(shù)線、南京農(nóng)業(yè)大學報錄比、南京農(nóng)業(yè)大學考研群、南京農(nóng)業(yè)大學學姐微信、南京農(nóng)業(yè)大學考研真題、南京農(nóng)業(yè)大學專業(yè)目錄、南京農(nóng)業(yè)大學排名、南京農(nóng)業(yè)大學保研、南京農(nóng)業(yè)大學公眾號、南京農(nóng)業(yè)大學研究生招生)]即可在手機上查看相對應南京農(nóng)業(yè)大學考研信息或資源。

南京農(nóng)業(yè)大學考研公眾號 考研派小站公眾號

本文來源:http://www.lyhuahuisp.com/nanjingnongyedaxue/jingyan_101952.html

推薦閱讀