-
程傑
(中國科學院大學研究員)
鎖定
- 中文名
- 程傑
- 民 族
- 漢族
- 畢業院校
- 中科院生態環境研究中心
- 學位/學歷
- 博士/研究生
- 職 業
- 科研人員
- 研究方向
- 工業污染減排
程傑研究領域
主要研究領域為環境材料和工業污染物催化控制的應用基礎研究,在揮發性有機物VOCs污染控制材料、轉化反應機理、減排控制技術等方面進行了比較系統的研究與開發工作,取得了系列創新性研究成果,形成了多項污染控制材料與控制技術並進行規模化工業應用。
[1]
程傑科研項目
(1) 國家自然科學基金面上項目, 含氯揮發性有機化合物催化氧化過程研究,2017-2020
(2) 北京市科委課題,低氮燃燒與揮發性有機物高效淨化技術,2018-2021
(3) 大氣重污染成因與治理攻關項目課題,VOCs重點行業排放特徵及減排監管技術體系研究,2017-2019
(4) 國家自然科學基金面上項目,分子篩材料上含氮有機物催化氧化研究,2015-2018
程傑代表性論著
(1) 論文成果
[1] Distribution and formation mechanisms of polychlorinated organic byproducts upon the catalytic oxidation of
1,2-dichlorobenzene with palladium-loaded catalysts. Journal of Hazardous Materials 2020, 393, 122412.
[2] Yolk-shell-like mesoporous CoCrOx with superior activity andchlorine resistance in dichloromethane
destructionn. Applied Catalysis B-Environmental 2020, 264, 118493.
[3] Selective catalytic oxidation of n-butylamine over Cu-zeolite catalysts. Catalysis Today 2020, 339, 192–199.
[4] Recent advances in the catalytic oxidation of volatile organic compounds: A review based on pollutant sorts
and sources. Chemical Reviews 2019, 119, 4471-4568.
[5] Hydrotalcite-derived CuxMg3−xAlO oxides for catalytic degradation of n‑butylamine with low concentration
NO and pollutant destruction mechanism, Industrial & Engineering Chemistry Research 2019, 58, 9362−9371.
[6] Highly efficient removal of organic pollutants by ultrahigh-surface-area-ethynylbenzene-based conjugated
microporous polymers via adsorption–photocatalysis synergy, Catalysis Science & Technology 2018, 8,5024-5033.
[7] Synthesis, characterization and evaluations of the Ag/ZSM-5 for ethyleneoxidation at room temperature:
Investigating the effect of water and deactivation. Chemical Engineering Journal 2018, 347, 808-818.
[8] Efficient capture of CO2 over ordered micro-mesoporous hybridcarbon nanosphere. Applied Surface Science
2018, 439, 113–121.
[9] Fluorine-enhanced Pt/ZSM-5 catalysts for low-temperature oxidation of ethylene. Catalysis Science &
Technology 2018, 8 (7), 1988-1996.
[10] Understanding the active sites of Ag/Zeolites and deactivation mechanism of ethylene catalytic oxidation at
room temperature. ACS Catalysis 2018, 8(2), 1248-1258.
(2) 專利成果
[1] 一種處理揮發性氯代芳烴污染物的方法及催化劑,201811120312.0
[2] 一種處理含氮揮發性有機污染物的催化劑及方法,201811184190.1
- 參考資料
-
- 1. 個人主頁 .中國科學院大學教師個人主頁[引用日期2020-06-03]