| 1.
Advances in Clean Fuel Ethanol Production from Electro-, Photo- an..
[9262]
|
| 2.
Efficient photocatalytic oxidation of CH4 over Ag-modif..
[1887]
|
| 3.
Improving carbohydrate and starch accumulation in Chlorella sp AE1..
[1876]
|
| 4.
Direct conversion of CO2 into liquid fuels with high selectivity o..
[1538]
|
| 5.
Hierarchical micro/nanostructured silver hollow fiber boosts elect..
[1437]
|
| 6.
Efficient CO2 Electroreduction over Silver Hollow Fiber Electrode
[1427]
|
| 7.
Ag modified Cu hollow fiber for gas-phase CO2 electrocatalytic con..
[1406]
|
| 8.
Comparative transcriptomic analysis reveals phenol tolerance mecha..
[1286]
|
| 9.
Direct conversion of CO2 to long-chain hydrocarbon fuels over K-pr..
[1190]
|
| 10.
Facilely controlled synthesis of a core-shell structured MOF compo..
[1068]
|
| 11.
Highly efficient Cu-based catalysts via hydrotalcite-like precurso..
[1018]
|
| 12.
Direct Production of Lower Olefins from CO2 Conversion via Bifunct..
[1018]
|
| 13.
Exploring stress tolerance mechanism of evolved freshwater strain ..
[1002]
|
| 14.
A review of the catalytic hydrogenation of carbon dioxide into val..
[995]
|
| 15.
Frontiers of CO2 Capture and Utilization (CCU) towards Carbon Neut..
[991]
|
| 16.
Effect of alkali metals on the performance of CoCu/TiO2 catalysts ..
[986]
|
| 17.
Synthesis of all-silica DDR zeolite in an environment-friendly way
[982]
|
| 18.
Recent progress in the photocatalytic reduction of aqueous carbon ..
[980]
|
| 19.
Electrocatalytic oxidation of methane to ethanol via NiO/Ni interf..
[964]
|
| 20.
Facile one-pot synthesis of mesoporous carbon and N-doped carbon f..
[963]
|
| 21.
A review of research progress on heterogeneous catalysts for metha..
[960]
|
| 22.
Core-shell structured Cu@m-SiO2 and Cu/ZnO@m-SiO2 catalysts for me..
[939]
|
| 23.
Exploration of phenol tolerance mechanism through antioxidative re..
[930]
|
| 24.
Efficient methane electrocatalytic conversion over a Ni-based holl..
[923]
|
| 25.
Slurry methanol synthesis from CO2 hydrogenation over micro-spheri..
[920]
|
| 26.
Preparation and CO2 hydrogenation catalytic properties of alumina ..
[916]
|
| 27.
Ultrafast microwave synthesis of all-silica DDR zeolite
[914]
|
| 28.
Postsynthesis of mesoporous ZSM-5 zeolites with TPAOH-assisted des..
[909]
|
| 29.
Enhancing fermentation wastewater treatment by co-culture of micro..
[906]
|
| 30.
Oxygenates from the Electrochemical Reduction of Carbon Dioxide
[905]
|
| 31.
Enhanced Ethanol Production from CO2 Electroreduction at Micropore..
[901]
|
| 32.
Improving high carbon dioxide tolerance and carbon dioxide fixatio..
[899]
|
| 33.
Fluorinated Cu/Zn/A1/Zr hydrotalcites derived nanocatalysts for CO..
[888]
|
| 34.
Ultrafast synthesis of thin SAPO-34 zeolite membrane by oil-bath h..
[852]
|
| 35.
Promotion of CO2 Electrochemical Reduction via Cu Nanodendrites
[849]
|
| 36.
Metal-Free Nitrogen-Doped Mesoporous Carbon for Electroreduction o..
[848]
|
| 37.
Exclusive Formation of Formic Acid from CO2 Electroreduction by a ..
[840]
|
| 38.
Hollow MnOx-CeO2 mixed oxides as highly efficient catalysts in NO ..
[831]
|
| 39.
Life cycle assessment of typical methanol production routes: The e..
[817]
|
| 40.
Copper hollow fiber electrode for efficient CO2 electroreduction
[814]
|
| 41.
Potassium Tethered Carbons with Unparalleled Adsorption Capacity a..
[813]
|
| 42.
Catalytic performance of spray-dried Cu/ZnO/Al2O3/ZrO2 catalysts f..
[811]
|
| 43.
Induced C-C coupling in CO2 photocatalytic reduction via carbother..
[793]
|
| 44.
Nickel-copper oxide nanowires for highly sensitive sensing of gluc..
[783]
|
| 45.
Driving factors and predictions of CO2 emission in China's coal ch..
[769]
|
| 46.
Facile and Rapid Preparation of Ag@ZIF-8 for Carboxylation of Term..
[758]
|
| 47.
Bimodal Mesoporous Carbon-Coated MgO Nanoparticles for CO2 Capture..
[753]
|
| 48.
Enhanced CO2 electroreduction to formate over tin coordination pol..
[753]
|
| 49.
Effects of acid pretreatment on Fe-ZSM-5 and Fe-beta catalysts for..
[751]
|
| 50.
Evoked Methane Photocatalytic Conversion to C2 Oxygenates over Cer..
[740]
|
| 51.
Strain improvement of Chlorella sp for phenol biodegradation by ad..
[737]
|
| 52.
CO2 electrocatalytic and photoelectrocatalytic conversion for oxyg..
[733]
|
| 53.
Biased adsorption of ethane over ethylene on low-cost hyper-crossl..
[730]
|
| 54.
The influence of desilication on high-silica MFI and its catalytic..
[715]
|
| 55.
Carbon-based adsorbents for post-combustion capture: a review
[705]
|
| 56.
Solvent-free synthesis of SAPO-34 nanocrystals with reduced templa..
[704]
|
| 57.
Preparation of potassium intercalated carbons by in-situ activatio..
[702]
|
| 58.
Artificial bioconversion of carbon dioxide
[664]
|
| 59.
Fabrication of FeO3 sites in FeOX/ZnO for efficient and selective ..
[660]
|
| 60.
One-Pot Solvent-Free Strategy for the Facile and Fast Synthesis of..
[647]
|
| 61.
High-silica nanoflower hierarchical Fe-MFI with excellent catalyti..
[647]
|
| 62.
一种多孔配位聚合物及其绿色制备方法和应用
[631]
|
| 63.
Chloride Ion Adsorption Enables Ampere-Level CO2 Electroreduction ..
[629]
|
| 64.
Porosity at the interface of organic matter and mineral components..
[626]
|
| 65.
Melting-assisted solvent-free synthesis of SAPO-11 for improving t..
[623]
|
| 66.
Synthesis of HKUST-1#MCF compositing materials for CO2 adsorption
[610]
|
| 67.
Cu-Pd Bimetallic Gas Diffusion Electrodes for Electrochemical Redu..
[605]
|
| 68.
Gas-phase CO2 photoreduction via iron/ZSM-5 composites
[604]
|
| 69.
Facet-oriented Cu2O and oxygen vacancies synergistically promoting..
[589]
|
| 70.
Highly Selective Photoelectroreduction of Carbon Dioxide to Ethano..
[586]
|
| 71.
Facile and controllable synthesis of ordered mesoporous carbons wi..
[585]
|
| 72.
Life cycle assessment of bio-fermentation ethanol production and i..
[585]
|
| 73.
Investigating the Effect of the Initial Valence States of Copper o..
[582]
|
| 74.
Ni Nanoclusters Anchored on Ni-N-C Sites for CO2 Electroreduction ..
[578]
|
| 75.
Carbon reduction potential and cost evaluation of different mitiga..
[574]
|
| 76.
Ni Hollow Fiber Encapsulated Bi@Zeolite for Efficient CO2 Electror..
[572]
|
| 77.
Direct conversion of methane to methanol over Cu exchanged mordeni..
[571]
|
| 78.
Gas penetrating hollow fiber Bi with contractive bond enables indu..
[566]
|
| 79.
A highly active Pd clusters hosted by magnesium hydroxide nanoshee..
[565]
|
| 80.
Continuous CO2 abatement via integrated carbon capture and convers..
[557]
|
| 81.
Gas-phase CO2 electroreduction over Sn-Cu hollow fibers
[556]
|
| 82.
Fe(Ⅲ)Ox/ZnO催化剂的制备及其光催化CH4氧化性能
[556]
|
| 83.
Solar driven efficient direct conversion of methane to multicarbon..
[548]
|
| 84.
Induced CO(2)Electroreduction to Formic Acid on Metal-Organic Fram..
[544]
|
| 85.
Ampere-level CO2 reduction to multicarbon products over a copper g..
[528]
|
| 86.
Optimization of the pore structure and acidity of SAPO-11 for high..
[526]
|
| 87.
无溶剂熔融辅助法合成SAPO-11及其在长链烷烃加氢异构反应的应用
[525]
|
| 88.
反应条件对铜催化CO2电还原的影响(英文)
[520]
|
| 89.
Novel synthesis of olefin-linked covalent organic frameworks via a..
[519]
|
| 90.
镍基中空纤维催化剂实现甲烷高效电催化转化
[500]
|
| 91.
四川盆地龙马溪组页岩的 CH4和 CO2气体高压吸附特征及控制因素
[493]
|
| 92.
Selective oxidation of CH4 to valuable HCHO over a defective rTiO(..
[487]
|
| 93.
渝东和渝东南地区页岩的储层特征及孔隙结构
[479]
|
| 94.
Anodic glycerol oxidation to formate facilitating cathodic hydroge..
[479]
|
| 95.
Nitrogen-doped mesoporous carbon single crystal-based Ag nanoparti..
[466]
|
| 96.
酸预处理对于Fe-ZSM-5和Fe-beta分子筛催化消除N2O的影响(英文)
[459]
|
| 97.
Preparation, Structure-Performance Relationship, and Reaction Netw..
[455]
|
| 98.
碱金属助剂对CoCu/TiO2催化剂上二氧化碳加氢合成长链烃的影响(英文)
[442]
|
| 99.
ZIF-8 derived Ag/ZnO photocatalyst with enriched Ag-ZnO interface ..
[440]
|
| 100.
Controllable and rapid synthesis of nitrogen-doped ordered mesopor..
[427]
|
