Unsupported Nd-doped Al2O3 membranes have been prepared with a sol-gel treat- nt by using aluminium isopropoxide and Nd(NO3)3 as the main raw materials. The properties of Nd-doped Al2O3 membranes were characterized ...Unsupported Nd-doped Al2O3 membranes have been prepared with a sol-gel treat- nt by using aluminium isopropoxide and Nd(NO3)3 as the main raw materials. The properties of Nd-doped Al2O3 membranes were characterized by XRD, DTA-TG, IR and N2 adsorption. The effects of Nd-doping on the phase composition, thermal stability as well as applications of pore- structure of Nd-doped Al2O3 membranes at high temperature were discussed. The results show that Nd-doping can raise the transition temperature rom γ-Al2O3 to α-Al2O3, enhance the thermal stability of Al2O3 membranes, and evidently improve the pore-structural parameters of Al2O3 mem- branes applied at higher temperatures.展开更多
Carbon-based material has been regarded as one of the most promising electrode materials for potassium-ion batteries(PIBs).However,the battery performance based on reported porous carbon electrodes is still unsatisfac...Carbon-based material has been regarded as one of the most promising electrode materials for potassium-ion batteries(PIBs).However,the battery performance based on reported porous carbon electrodes is still unsatisfactory,while the in-depth K-ion storage mechanism remains relatively ambiguous.Herein,we propose a facile“in situ self-template bubbling”method for synthesizing interlayer-tuned hierarchically porous carbon with different metallic ions,which delivers superior K-ion storage performance,especially the high reversible capacity(360.6 mAh·g^(−1)@0.05 A·g^(−1)),excellent rate capability(158.6 mAh·g^(−1)@10.0 A·g^(−1))and ultralong high-rate cycling stability(82.8%capacity retention after 2,000 cycles at 5.0 A·g^(−1)).Theoretical simulation reveals the correlations between interlayer distance and K-ion diffusion kinetics.Experimentally,deliberately designed consecutive cyclic voltammetry(CV)measurements,ex situ Raman tests,galvanostatic intermittent titration technique(GITT)method decipher the origin of the excellent rate performance by disentangling the synergistic effect of interlayer and pore-structure engineering.Considering the facile preparation strategy,superior electrochemical performance and insightful mechanism investigations,this work may deepen the fundamental understandings of carbon-based PIBs and related energy storage devices like sodium-ion batteries,aluminum-ion batteries,electrochemical capacitors,and dual-ion batteries.展开更多
Pore-structure poses great influence on the permeability and electrical property of tight sand reservoirs and is critical to the petrophysical research of such reservoirs.The uncertainty of permeability for tight sand...Pore-structure poses great influence on the permeability and electrical property of tight sand reservoirs and is critical to the petrophysical research of such reservoirs.The uncertainty of permeability for tight sands is very common and the relationship between pore- structure and electrical property is often unclear.We propose a new parameterδ,integrating porosity,maximum radius of connected pore-throats,and sorting degree,for investigating the permeability and electrical properties of tight sands.Core data and wireline log analyses show that this newδcan be used to accurately predict the tight sands permeability and has a close relation with electrical parameters,allowing the estimation of formation factor F and cementation exponent m.The normalization of the resistivity difference caused by the pore- structure is used to highlight the influence of fluid type on Rt,enhancing the coincidence rate in the Pickett crossplot significantly.展开更多
基金This work was supported by the Natural Science Foundation of Fujian province (No. JB01002)
文摘Unsupported Nd-doped Al2O3 membranes have been prepared with a sol-gel treat- nt by using aluminium isopropoxide and Nd(NO3)3 as the main raw materials. The properties of Nd-doped Al2O3 membranes were characterized by XRD, DTA-TG, IR and N2 adsorption. The effects of Nd-doping on the phase composition, thermal stability as well as applications of pore- structure of Nd-doped Al2O3 membranes at high temperature were discussed. The results show that Nd-doping can raise the transition temperature rom γ-Al2O3 to α-Al2O3, enhance the thermal stability of Al2O3 membranes, and evidently improve the pore-structural parameters of Al2O3 mem- branes applied at higher temperatures.
基金This work was supported by School Research Startup Expenses of Harbin Institute of Technology(Shenzhen)(No.DD29100027)the National Natural Science Foundation of China(No.52002094)+2 种基金Guangdong Basic and Applied Basic Research Foundation(No.2019A1515110756)China Postdoctoral Science Foundation(No.2019M661276)High-level Talents’Discipline Construction Fund of Shandong University(No.31370089963078).
文摘Carbon-based material has been regarded as one of the most promising electrode materials for potassium-ion batteries(PIBs).However,the battery performance based on reported porous carbon electrodes is still unsatisfactory,while the in-depth K-ion storage mechanism remains relatively ambiguous.Herein,we propose a facile“in situ self-template bubbling”method for synthesizing interlayer-tuned hierarchically porous carbon with different metallic ions,which delivers superior K-ion storage performance,especially the high reversible capacity(360.6 mAh·g^(−1)@0.05 A·g^(−1)),excellent rate capability(158.6 mAh·g^(−1)@10.0 A·g^(−1))and ultralong high-rate cycling stability(82.8%capacity retention after 2,000 cycles at 5.0 A·g^(−1)).Theoretical simulation reveals the correlations between interlayer distance and K-ion diffusion kinetics.Experimentally,deliberately designed consecutive cyclic voltammetry(CV)measurements,ex situ Raman tests,galvanostatic intermittent titration technique(GITT)method decipher the origin of the excellent rate performance by disentangling the synergistic effect of interlayer and pore-structure engineering.Considering the facile preparation strategy,superior electrochemical performance and insightful mechanism investigations,this work may deepen the fundamental understandings of carbon-based PIBs and related energy storage devices like sodium-ion batteries,aluminum-ion batteries,electrochemical capacitors,and dual-ion batteries.
基金supported by Major National Oil & Gas Specific Project(Grant No.2008ZX05020-001)
文摘Pore-structure poses great influence on the permeability and electrical property of tight sand reservoirs and is critical to the petrophysical research of such reservoirs.The uncertainty of permeability for tight sands is very common and the relationship between pore- structure and electrical property is often unclear.We propose a new parameterδ,integrating porosity,maximum radius of connected pore-throats,and sorting degree,for investigating the permeability and electrical properties of tight sands.Core data and wireline log analyses show that this newδcan be used to accurately predict the tight sands permeability and has a close relation with electrical parameters,allowing the estimation of formation factor F and cementation exponent m.The normalization of the resistivity difference caused by the pore- structure is used to highlight the influence of fluid type on Rt,enhancing the coincidence rate in the Pickett crossplot significantly.
