廈門大學生命科學學院教授,廈門大學學生交響樂團藝術總監、團長及常任指揮。1984年畢業於重慶育才中學,1988年在廈門大學化學系獲得分析化學學士學位,1993年在廈門大學海洋系獲得海洋化學碩士學位,1996年在廈門大學環境科學研究中心獲得理學博士學位。1998年為廈門大學生命科學學院副教授,2010年為教授。2012年創建了廈門大學學生交響樂團並於2013年7月首演。
基本介紹
- 中文名:彭興躍
- 外文名:Larry Peng
- 別名:Larry
- 國籍:中國
- 民族:漢
- 出生地:重慶
- 出生日期:1966年11月30日
- 職業:教授
- 畢業院校:廈門大學
- 信仰:科學
- 主要成就:創建了廈門大學學生交響樂團
發表了一系列晶片實驗室技術
彭興躍教授簡歷,主要研究領域,發表作品(Publications),
彭興躍教授簡歷
1978-1984,重慶育才中學
1984-1988,廈門大學化學系分析化學專業,學士
1990-1993,廈門大學海洋系海洋化學專業,碩士
1993-1996,廈門大學環境科學研究中心,博士
1998,訪問香港城市大學(Research Fellow)
1998-2010,廈門大學生物系,副教授
2003-2004,訪問加拿大西蒙弗雷澤大學(Visiting Professor)
2010至今,廈門大學生物系,教授
主要研究領域
分離基本單元進行實驗研究是科學探索的基本方法;細胞對於生命科學正如原子對於化學;原子是完全重複的單元,細胞卻是完全不重複的單元;細胞的生命過程決定於其內部過程及其微環境;生命科學的需要單細胞實驗的技術;單細胞實驗只能在單細胞晶片中完成。我們的研究重點是發展細胞晶片的技術,將細胞在晶片中進行微環境可控的培養及實驗,最終為生命科學的研究提供新的研究平台。
Biological cells are normally arranged into high levels of organized structures, such as tissues and organs. Biological cells can also be singled out for in-depth studies of structures and functions. Sometimes cells, even of the same type, but in a batch, might be different in functions and responses, and so there is a need to examine the single cell. The study of single cells provides new information which might be obscured by the averaging effect of numerous cells in a batch. In order to keep track of a single cell during experiments, we first need to culture the single cell. We explored the development of a platform on a microchip for single-cell cultures, on which experiments can be subsequently applied on the cell. In interactive communication, “Human-Machine Conversation” means the interaction between human and machine, which in turn requires interface components, such as monitor screen and keyboard. Research in the life sciences may need a similar approach, which we call “Human- Cell Conversation”. The single cell microchip is a platform actually designed for this kind of experiment.
Biological cells are normally arranged into high levels of organized structures, such as tissues and organs. Biological cells can also be singled out for in-depth studies of structures and functions. Sometimes cells, even of the same type, but in a batch, might be different in functions and responses, and so there is a need to examine the single cell. The study of single cells provides new information which might be obscured by the averaging effect of numerous cells in a batch. In order to keep track of a single cell during experiments, we first need to culture the single cell. We explored the development of a platform on a microchip for single-cell cultures, on which experiments can be subsequently applied on the cell. In interactive communication, “Human-Machine Conversation” means the interaction between human and machine, which in turn requires interface components, such as monitor screen and keyboard. Research in the life sciences may need a similar approach, which we call “Human- Cell Conversation”. The single cell microchip is a platform actually designed for this kind of experiment.
發表作品(Publications)
1. Xing Yue (Larry) Peng,A micro surface tension pump (MISPU) in a glass microchip.Lab Chip, 2011, 11, 132–138
2. Xing Yue (Larry) Peng, et al. A micro surface tension alveolus (MISTA) in a glass microchip. Lab Chip, 2009, 9, 3251–3254
3. Xing Yue (Larry) Peng *, Ling Qiao Li and Hua Sheng Hong. A vast-range speed control microchip for retention of all cell types. Lab Chip, 2009, 9, 3012–3015
4. Xing Yue (Larry) Peng. Li P. C.H., Yu H.Z., Parameswaran M. (A) , Chou W.L.(J)., Spiral microchannels on a CD for DNA hybridizations, Sens. Actuators B: Chem. 2007,128, 64–69
5. Xing Yue (Larry) Peng and Paul C. H. Li Extraction of pure cellular fluorescence by cell scanning in a single-cell microchip. Lab Chip, 2005,5,1298-1302
6. Xing Yue (Larry) Peng and Paul C. H. Li A Three-Dimensional Flow Control Concept for Single-Cell Experiments on a Microchip. 1. Cell Selection, Cell Retention, Cell Culture, Cell Balancing, and Cell Scanning. Anal. Chem. 2004, 76(18), 5273-5281
7. Xing Yue (Larry) Peng and Paul C. H. Li. A Three-Dimensional Flow Control Concept for Single-Cell Experiments on a Microchip. 2. Fluorescein Diacetate Metabolism and Calcium Mobilization in a Single Yeast Cell As Stimulated by Glucose and pH Changes.Anal. Chem. 2004, 76(18), 5282-5292.
8. 彭興躍,洪再展2004,溶解氧測定探頭式與經典滴定法的互校及無氧水零點校正法,海洋科學,Vol 28 No.8, 23-27
9. 彭興躍(科普翻譯),拯救藍鰭鮪魚,環球科學(Scientific American中文版),2008年第4期38-45。ISSN 1673--5153。譯自Richard Ellis, The Bluefin in Peril, Scientific American, March 2008, 33-39. ISSN 0036-8733
10. 彭興躍,2006, 研究生創新能力的培養需要加強儀器課程的教學,高等理科教育,2006, No.2, (總第66期),119~123
11. 何學佳,彭興躍,2003套用流式細胞儀研究鉛對海洋微藻生長的影響,海洋環境科學,Vol.22,No.1,1-5
12. 彭興躍 何學佳 邵寒娟,2002流式細胞儀壓力進樣流速的即時標定及誤差分析,海洋科學,VOL.26/NO.12,5-8
13. 彭興躍 洪海征 黃 明何學佳2002廈門港海水光合色素特徵,台灣海峽,V21(1)78-85 Peng Xingyue et al. (2002).
14. 彭興躍,陳鋼 2000 單個體浮遊動物脂肪酸的氣相色譜分析, 台灣海峽, Vol.19 No.4,454-459
15. 劉占飛,彭興躍,徐立,洪華生. 台灣海峽1997年夏季和1998年冬季兩航次顆粒有機碳研究,台灣海峽, Vol.19 No.1 95-101 2000
16. 王大志,彭興躍,李少菁,程兆第,金德祥,1999 海水小球藻脂肪酸組成研究,海洋科學,1999,Vol23 No4,68-70
17. 李東輝,彭興躍,葉東,許金鉤.螢光各向異性法研究酸度對四磺基酞菁與牛血清白蛋白相互作用的影響,高等學校化學學報,Vol.20 No.8 1218-1220 1998
18. 彭興躍等,台灣海峽懸浮顆粒中的甲藻指示物. 廈門大學學報 Vol.37,No.4, 563-568 1998年7月
19. 彭興躍等,毫克級微藻樣品中脂肪酸的分離及測定,台灣海峽 Vol.22, No.3, 289-293 1998年9月
20. 彭興躍等,14C標記現場測定海洋初級生產力培養方法比較研究 台灣海峽 Vol.16, No.1, 67-74 1997年3月
21. 彭興躍等, 廈門西海域表層沉積物中甾醇的模糊聚類分析. 環境科學學報 Vol.17,No.4, 399-406 1997年10月
22. 陳鋼,李少菁,彭興躍, 台灣海峽橈足類的化學元素組成分析 中國海洋學文集 No.7,142-145 1997年11月 海洋出版社
23. 彭興躍等,台灣海峽真光層有機碳動力學研究-DOC大幅度的日變化 . 海洋學報 Vol.19,No.3, 57-65 1997年5月
24.李玉桂, 林慶梅, 彭興躍, 洪華生. 廈門港沉積物中甾醇的GC-MS鑑定,廈門大學學報 Vol.35,No.4, 563-568 1996年
