Index Catalog // ScholarsArchive@OSU

Ji[David]XiuleiChemistryAmbientHydrolysisDeposition.pdf

Creator:: Wang, Xingfeng, Raju, Vadivukarasi, Luo, Wei, Wang, Bao, Stickle, William F., and Ji, Xiulei
Abstract:: Despite the considerable advances of deposition technologies, it remains a significant challenge to form conformal deposition on surface of nanoporous carbons. Here, we introduce a new ambient hydrolysis deposition method that employs and controls pre-adsorbed water vapor on nanoporous carbons to define the deposition of TiO₂. We converted the deposited...
Full Text:: TiN/Carbon Capacitive Electrode Xingfeng Wang, # a Vadivukarasi Raju, # a Wei Luo , a Bao

Parker, David Bill.pdf

Creator:: Parker, David Bill
Abstract:: Data from the southern Cascade Mountains of Oregon has been collected for application in computer analysis of snowfields. Vegetation type, canopy cover, slope, aspect, insolation, and snowfield ground truth delineation are given consideration. In addition, a procedure for transferral of data onto Landsat imagery was derived.
Full Text:: EXTENT; SOUTHERN CASCADE MOUNTAINS, OREGON by DAVID BILL PARKER A RESE;RCH PAPER suiitted to THE

Ji[David]XiuleiChemistrySuperiorCathodeSodium.pdf

Creator:: Raju, Vadivukarasi, Rains, Jordan, Gates, Cooper, Luo, Wei, Wang, Xingfeng, Stickle, William F., Stucky, Galen D., and Ji, Xiulei
Abstract:: We, for the first time, demonstrate that orthorhombic V₂O₅ can exhibit superior electrochemical performance in sodium ion batteries when uniformly coated inside nanoporous carbon. The encapsulated V₂O₅ shows a specific capacity as high as 276 mAh/g, while the whole nanocomposite exhibits a capacity of 170 mAh/g. The V₂O₅/C composite was...
Full Text:: when uniformly coated inside nanoporous carbon. The encapsulated V2O5 shows a specific capacity as

Ji[David]XiuleiChemistryAmbientHydrolysisDeposition(SupportingInformation).pdf

Creator:: Wang, Xingfeng, Raju, Vadivukarasi, Luo, Wei, Wang, Bao, Stickle, William F., and Ji, Xiulei
Abstract:: Despite the considerable advances of deposition technologies, it remains a significant challenge to form conformal deposition on surface of nanoporous carbons. Here, we introduce a new ambient hydrolysis deposition method that employs and controls pre-adsorbed water vapor on nanoporous carbons to define the deposition of TiO₂. We converted the deposited...
Full Text:: Xingfeng Wang, # a Vadivukarasi Raju, # a Wei Luo , a Bao Wang, a William F. Stickle b and

Ji[David]XiuleiChemistrySuperiorCathodeSodium(SupportingInformation).pdf

Creator:: Raju, Vadivukarasi, Rains, Jordan, Gates, Cooper, Luo, Wei, Wang, Xingfeng, Stickle, William F., Stucky, Galen D., and Ji, Xiulei
Abstract:: We, for the first time, demonstrate that orthorhombic V₂O₅ can exhibit superior electrochemical performance in sodium ion batteries when uniformly coated inside nanoporous carbon. The encapsulated V₂O₅ shows a specific capacity as high as 276 mAh/g, while the whole nanocomposite exhibits a capacity of 170 mAh/g. The V₂O₅/C composite was...
Full Text:: , the sample was poured in to a Petridish and kept at stagnant atmosphere for one more hour. Step

JiXiulei[David]ChemistryLow-Surface-AreaHardCarbonAnode.pdf

Creator:: Luo, Wei, Bommier, Clement, Jian, Zelang, Li, Xin, Carter, Rich, Vail, Sean, Lu, Yuhao, Lee, Jong-Jan, and Ji, Xiulei
Abstract:: Na-ion batteries are emerging as one of the most promising energy storage technologies, particularly for grid-level applications. Among anode candidate materials, hard carbon is very attractive due to its high capacity and low cost. However, hard carbon anodes often suffer a low first-cycle Coulombic efficiency and fast capacity fading. In...
Full Text:: Anode for Na-Ion Batteries via Graphene Oxide as a Dehydration Agent Low-Surface-Area Hard Carbon

SelkerJohnBiologicalEcologicalEngineeringPoreScaleConsideration.pdf

Creator:: Steenhuis, Tammo S., Baver, Christine E., Hasanpour, Bahareh, Stoof, Cathelijne R., DiCarlo, David A., and Selker, John S.
Abstract:: To explain the dynamic behavior of the matric potential at the wetting front of gravity driven fingers, we take into account the pressure across the interface that is not continuous and depends on the radius of the meniscus, which is a function of pore size and the dynamic contact angle...
Full Text:: David A. DiCarlo,2 and John S. Selker3 Received 4 April 2013; revised 21 October 2013; accepted 22

SelkerJohnBiologicalEcologicalEngineeringPoreScaleConsideration_SupportingInformation.pdf

Creator:: Steenhuis, Tammo S., Baver, Christine E., Hasanpour, Bahareh, Stoof, Cathelijne R., DiCarlo, David A., and Selker, John S.
Abstract:: To explain the dynamic behavior of the matric potential at the wetting front of gravity driven fingers, we take into account the pressure across the interface that is not continuous and depends on the radius of the meniscus, which is a function of pore size and the dynamic contact angle...
Full Text:: and rn is the pore neck size. 40 41 In the DiCarlo (2007) experiments a high initial moisture

JiXiulei[David]ChemistryNewLowVoltagePlateauNa3V2(PO4)(3)_(ElectronicSupportingInformation).pdf

Creator:: Jian, Zelang, Sun, Yang, Hu, Yong-Sheng, and Ji, Xiulei
Abstract:: A low-voltage plateau at ∼0.3 V is discovered during the deep sodiation of Na₃V₂(PO₄)₃ by combined computational and experimental studies. This new low-voltage plateau doubles the sodiation capacity of Na₃V₂(PO₄)₃, thus turning it into a promising anode for Na-ion batteries.
Full Text:: ,a,‡ Yang Sun,b,‡ Yong-Sheng Hub,* and Xiulei Jia,* a Department of Chemistry, Oregon State

JiXiulei[David]ChemistryNewLowVoltagePlateauNa3V2(PO4)(3).pdf

Creator:: Jian, Zelang, Sun, Yang, Hu, Yong-Sheng, and Ji, Xiulei
Abstract:: A low-voltage plateau at ∼0.3 V is discovered during the deep sodiation of Na₃V₂(PO₄)₃ by combined computational and experimental studies. This new low-voltage plateau doubles the sodiation capacity of Na₃V₂(PO₄)₃, thus turning it into a promising anode for Na-ion batteries.
Full Text:: A new low-voltage plateau of Na3V2(PO4)3

ScholarsArchive@OSU

Ji[David]XiuleiChemistryAmbientHydrolysisDeposition.pdf

Parker, David Bill.pdf

Ji[David]XiuleiChemistrySuperiorCathodeSodium.pdf

Ji[David]XiuleiChemistryAmbientHydrolysisDeposition(SupportingInformation).pdf

Ji[David]XiuleiChemistrySuperiorCathodeSodium(SupportingInformation).pdf

JiXiulei[David]ChemistryLow-Surface-AreaHardCarbonAnode.pdf

SelkerJohnBiologicalEcologicalEngineeringPoreScaleConsideration.pdf

SelkerJohnBiologicalEcologicalEngineeringPoreScaleConsideration_SupportingInformation.pdf

JiXiulei[David]ChemistryNewLowVoltagePlateauNa3V2(PO4)(3)_(ElectronicSupportingInformation).pdf

JiXiulei[David]ChemistryNewLowVoltagePlateauNa3V2(PO4)(3).pdf

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