...
机译:通过废泡生物量衍生的氮气/氧共掺杂微孔生物碳,增强Cr(vi)除去
Sichuan Univ Sch Chemical Engn Dept Pharmaceutical &
Biological Engn No. 24 S Section 1 Yihuan Rd Chengdu People's Republ;
Sichuan Univ Sch Chemical Engn Dept Pharmaceutical &
Biological Engn No. 24 S Section 1 Yihuan Rd Chengdu People's Republ;
Sichuan Univ Sch Chemical Engn Dept Pharmaceutical &
Biological Engn No. 24 S Section 1 Yihuan Rd Chengdu People's Republ;
Sichuan Univ Sch Chemical Engn Dept Pharmaceutical &
Biological Engn No. 24 S Section 1 Yihuan Rd Chengdu People's Republ;
Sichuan Univ Sch Chemical Engn Dept Pharmaceutical &
Biological Engn No. 24 S Section 1 Yihuan Rd Chengdu People's Republ;
Sichuan Univ Sch Chemical Engn Dept Pharmaceutical &
Biological Engn No. 24 S Section 1 Yihuan Rd Chengdu People's Republ;
Sichuan Univ Sch Chemical Engn Dept Pharmaceutical &
Biological Engn No. 24 S Section 1 Yihuan Rd Chengdu People's Republ;
Sichuan Univ Sch Chemical Engn Dept Pharmaceutical &
Biological Engn No. 24 S Section 1 Yihuan Rd Chengdu People's Republ;
Waste biomass; Microporous biocarbon; Heteroatom doping; Chromium; Adsorption; Reduction;
机译:通过废泡生物量衍生的氮气/氧共掺杂微孔生物碳,增强Cr(vi)除去
机译:生物质衍生的氮和硫共掺杂3D碳网络,具有互连的中微孔结构,可用于高性能超级电容器
机译:来自卫矛叶的氮和氧共掺杂微孔碳,作为高性能超级电容器电极材料
机译:生物质衍生的微孔碳材料,具有具有增强的吸附特性的交联潜亚微米的开放式结构
机译:新型空间需求氮,氮,氮,氮和氮,氮,氧,氧供体大环的设计和合成,以利用铑(II)和铱(II)的金属铁反应性
机译:生物质衍生的氧和氮共掺杂多孔碳具有多层体系结构可作为高性能锂/硫电池的硫基质
机译:图1:不同生物和水化学参数的演变,(A)生物质和污泥块指数(SVI); (b)将氧气(DO)和食物溶于微生物(F / m)的比例; (c)在SBR操作期间,化学需氧量(COD)和氮去除。
机译:开发一种最小体积的氧气输送产品,以增强失血性休克期间的生存/关于使用来自氧气输送的全氟化碳衍生的血管内微泡的研究