Lin Ji
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View article: A POWER MODE TECHNIQUE FOR ESTIMATING POWER TRANSMISSION
A POWER MODE TECHNIQUE FOR ESTIMATING POWER TRANSMISSION Open
View article: Weighted Network Degree Screening Method for Low-Temperature Combustion Mechanism Reduction
Weighted Network Degree Screening Method for Low-Temperature Combustion Mechanism Reduction Open
A new method is proposed for the reduction mechanism used in the low-temperature negative temperature coefficient region on the basis of the statistical degree screening (SDS) method. Dynamic information is used to redefine network structu…
View article: Removal and mechanism analysis of NO emissions in carbon-free ammonia combustion systems with a secondary fuel injection
Removal and mechanism analysis of NO emissions in carbon-free ammonia combustion systems with a secondary fuel injection Open
Ammonia, as a carbon-free renewable fuel of emerging interest, has the potential to substitute conventional fossil fuels. However, one challenge in utilizing such fuel is the risk of high NOx (nitrogen oxide) emissions. This work clarifies…
View article: Molecular-level nucleation mechanism of iodic acid and methanesulfonic acid
Molecular-level nucleation mechanism of iodic acid and methanesulfonic acid Open
Both iodic acid (HIO3, IA) and methanesulfonic acid (CH3S(O)2OH, MSA) have been identified by field studies as important precursors of new particle formation (NPF) in marine areas. However, the mechanism of NPF in which IA and MSA are join…
View article: Comment on acp-2021-595
Comment on acp-2021-595 Open
Both iodic acid (HIO3, IA) and methanesulfonic acid (CH3S(O)2OH, MSA) have been identified by field studies as important precursors of new particle formation (NPF) in marine areas. However, the mechanism of NPF in which IA and MSA are join…
View article: Comment on acp-2021-595
Comment on acp-2021-595 Open
Abstract. Both iodic acid (HIO3, IA) and methanesulfonic acid (CH3S(O)2OH, MSA) have been identified by field studies as important precursors of new particle formation (NPF) in marine areas…
View article: Comment on acp-2021-595
Comment on acp-2021-595 Open
Abstract. Both iodic acid (HIO3, IA) and methanesulfonic acid (CH3S(O)2OH, MSA) have been identified by field studies as important precursors of new particle formation (NPF) in marine areas…
View article: Molecular-level evidence for marine aerosol nucleation of iodic acid and methanesulfonic acid
Molecular-level evidence for marine aerosol nucleation of iodic acid and methanesulfonic acid Open
Both iodic acid (HIO3, IA) and methanesulfonic acid (CH3S(O)2OH, MSA) have been identified by field studies as important precursors of new particle formation (NPF) in marine areas. However, the mechanism of NPF in which IA and MSA are join…
View article: Mechanism of CO2 reduction in carbonylation reaction promoted by ionic liquid additives: A computational and experimental study
Mechanism of CO2 reduction in carbonylation reaction promoted by ionic liquid additives: A computational and experimental study Open
The Ru-catalyzed carbonylation of alkenes with CO2 as a C1 surrogate and imidazole chlorides as the promotor is investigated by a combination of computational and experimental study. The conversion rate of CO2 to CO is positively correlate…