Active Sites Derived from Heteroatom Doping
- Classification:Chemical Auxiliary Agent
- CAS No.:117-84-0
- Other Names:Dioctyl Phthalate
- MF:C24H38O4, C24H38O4
- EINECS No.:201-557-4
- Purity:99.5%min, 99.5%min
- Type:Adsorbent, Carbon Black
- Usage:Chemical Auxiliary Agent, Leather Auxiliary Agents
- MOQ:200kgs
- Package:200kgs/battle
- Model:Dop Oil For Pvc
- Storage:Dry Place
The oxygen reduction reaction (ORR) is a key cathode reaction in fuel cells. Due to the sluggish kinetics of the ORR, various kinds of catalysts have been developed to compensate for the shortcomings of the cathode reaction.
This study offers insightful revelations into the modulation of carbon active-sites by doping heteroatoms to carbon skeleton as metal-free catalyst in bioenergy-generation
Heteroatom doping in bio-waste derived activated carbon
- Classification:Chemical Auxiliary Agent
- CAS No.:117-84-0
- Other Names:Chemical Auxiliary Agent
- MF:C24H38O4, C24H38O4
- EINECS No.:201-557-4
- Purity:99.6%, 99.6%
- Type:Plasticizer Colorless Oily Liquid DOP for pvc and rubber
- Usage:PVC shoe, PVC Air Blowing/Expander PVC/DIP Shoes
- MOQ:200kgs
- Package:200kgs/battle
- Shape:Powder
- Advantage:Stable
- Keywords:Plasticizer Dop
Nitrogen doping in carbon materials can exist in various chemical forms (Fig. 3), but pyrrolic and pyridinic nitrogen sites are particularly important for enhancing
Heteroatom-doped porous carbon materials (HPCMs) have found extensive applications in adsorption/separation, organic catalysis, sensing, and energy
Heteroatoms ternary-doped porous carbons derived from
- Classification:Chemical Auxiliary Agent
- CAS No.:117-84-0
- Other Names:DOP, diocty phthalate, 1,2-phthalate
- MF:C24H38O4
- EINECS No.:201-557-4
- Purity:99.5%, 99% min
- Type:pvc additive
- Usage:Coating Auxiliary Agents, Leather Auxiliary Agents, Plastic Auxiliary Agents, Rubber Auxiliary Agents
- MOQ:200kgs
- Package:200kgs/battle
- Storage:Dry Place
In particular, heteroatom doped (e.g., B 11,12,13, N 14,15,16,17,18,19, P 20,21,22,23 and S 24,25,26,27,28) carbon materials have been the most active research
In particular, heteroatom doped (e.g., B 11,12,13, N 14,15,16,17,18,19, P 20,21,22,23 and S 24,25,26,27,28) carbon materials have been the most active research
Insights of Heteroatoms Doping‐Enhanced
- Classification:Chemical Auxiliary Agent, Chemical Auxiliary Agent
- cas no 117-84-0
- Other Names:DOP/Dioctyl Phthalate
- MF:C24H38O4
- EINECS No.:201-557-4
- Purity:99.5, ≥99.5
- Type:Carbon Black
- Usage:Plasticizer
- MOQ::10 Tons
- Package:25kg/drum
- Shape:Powder
- Advantage:Stable
- Keywords:Plasticizer Dop
multi-doping method was developed to synthesize nitrogen, phosphorus, and sulfur tri-doped porous carbon (NPSC) with an ultra-high surface area of 1569.64 m2 g-1 and high packing
It has been found in many studies that the heteroatom doping of these materials helps to increase their light and potentially toxic. Graphene, a 2D material derived from carbon, was introduced in the latter part of the
Review on Heteroatom Doping Carbonaceous Materials
- Classification:Chemical Auxiliary Agent, Chemical Auxiliary Agent
- cas no 117-84-0
- Other Names:Dioctyl Phthalate DOP
- MF:C6H4(COOC8H17)2
- EINECS No.:201-557-4
- Purity:99 %
- Type:Plastic Auxiliary Agents
- Usage:Coating Auxiliary Agents, Electronics Chemicals, Leather Auxiliary Agents, Plastic Auxiliary Agents, Rubber Auxiliary Agents
- MOQ:200kgs
- Package:200kgs/battle
- Application:PVC Plasticizer
- Item:T/T,L/C
Studies have been published on heteroatom doping in carbon materials, including N, B, S, F, and metal atoms. Atom doping improves the electronegativity of carbon materials
The hierarchical porous structures provided accessible active sites with high surface area sites while doping with nitrogen changed the electronic properties of the carbon. The N
