Gold nanoring arrays are widely applied in various fields benefitting from their localized surface plasmon resonance (LSPR)properties.A key advantage of gold nanoring arrays is that the dipole resonance peak can be systematically tuned by changing the dim
Cd3As2 nanowires (NWs) have great potential in the near-infrared (NIR) photodetection field due to their excellent optoelectronic properties as a typical Dirac semimetal.However,the existence of surface oxidization limits their photoresponse performance f
The triboelectric nanogenerator (TENG) is a new mechanical energy harvesting technology in which the typical viscoelastic material polydimethylsiloxane (PDMS) is widely used.Micro-/nano-textures are often fabricated on the PDMS surface to enhance the elec
All-inorganic perovskite solar cells suffer from low performance due to unsatisfactory carrier transport and light harvesting efficiency.Semiconductor nanopillar arrays can reduce light reflection loss and suppress exciton recombination dynamics in optoel
万家寨水库运用以来,死库容逐渐淤满,进入正常运用期,2011年正式启用排沙运用以维持长期有效库容.基于万家寨水库运用以来的水文泥沙观测资料,对水库排沙运用和降低水位冲沙运用进行统计,分析水库排沙效果及主要影响因素.研究表明,2011-2019年8-9月库水位控制在952~957 m排沙运用累计245 d,排沙1.688亿t,降低水位冲沙运用39 d,排沙量2.734亿t,单位水量的排沙效率远大于排沙运用;降水冲沙期的排沙量与运用水位具有很好的非线性负相关关系,水位越低,排沙量越大,而排沙运用的出库沙量与径
To data,using strong metal-support interaction (SMSl) effect to improve the catalytic performance of metal catalysts is an important strategy for heterogeneous catalysis,and this effect is basically achieved by using reducible metal oxides.However,the for
P2-type layered Na0.67MnO2 has been considered to be a promising candidate cathode material for sodium ion batteries.Nevertheless,the undesired phase transitions during operation and the large Na+ radius induced sluggish ion diffusion remain the stumbling
Lignin is the second most abundant and the only nature polymer rich in aromatic units.Although aromatic-unit-rich precursors often yield soft carbon after carbonization,the side chains in lignin crosslink with the aromatic units and form a rigid three-dim
Carboxylic acid-based metal-organic frameworks (MOFs) are normally passed for the “pre-catalysts” for oxygen evolution reaction(OER) due to the hydroxides constructed in-situ during its alkaline hydrolysis process (AHP) in lye.Whereas,it remains a mystery
Layer-structured MoS2 is regarded as a promising anode material for potassium ion batteries.Herein,MoS2 nanosheets on N,P-codoping reduced graphene oxide (MoS2/N,P-rGO) have been successfully prepared via a facile two-step synthesis,where few-layered MoS2