Hierarchically porous Cu current collector with lithiophilic CuxO interphase towards high-performance lithium metal batteries

Lithium metal is one of the most promising anode materials for next-generation electrochemical energy storage due to low electrochemical potential and high specific capacity.However,large volume change and uncontrollable formation of lithium dendrite during cycling severely hinder the practical application of rechargeable Li metal batteries.Herein,we report a hierarchically porous Cu covered with lithiophilic CuxO(HPCu-CuxO) via femtosecond laser strategy in about 2 min as current collector for highperformance Li metal batteries.With precisely tunable pore volume and depth as well as lithiophilic CuxO interphase,the HPCu-CuxO not only guides homogeneous Li nucleation,resulting in a smooth and dendrite-free lithium surface,but also provides space to alleviate the volume expansion of Li metal anode,achieving excellent structure stability.Consequently,highly stable Coulombic efficiency and ultralow overpotential of 15 mV even up to 1000 h were achieved at the current density of 1 mA cm^(-2).Moreover,the resultant Li@HPCu-CuxO//LiFePO_(4) full battery delivered outstanding cycle stability and rate capability.These results offer a pathway toward high-energy-density and safe rechargeable Li metal batteries.

Hierarchically Micro/Nanostructured Current Collectors Induced by Ultrafast Femtosecond Laser Strategy for High-Performance Lithium-ion Batteries

Commercial Cu and Al current collectors for lithium-ion batteries(LIBs)possess high electrical conductivity,suitable chemical and electrochemical stability.However,the relatively flat surface of traditional current collectors causes weak bonding strength and poor electrochemical contact between current collectors and electrode materials,resulting in potential detachment of active materials and rapid capacity degradation during extended cycling.Here,we report an ultrafast femtosecond laser strategy to manufacture hierarchical micro/nanostructures on commercial Al and Cu foils as current collectors for high-performance LIBs.The hierarchically micro/nanostructured current collectors(HMNCCs)with high surface area and roughness offer strong adhesion to active materials,fast electronic delivery of entire electrodes,significantly improving reversible capacities and cyclic stability of HMNCCs based LIBs.Consequently,LiNi_(0.5)Co_(0.2)Mn_(0.3)O_(2)(NCM523)cathode with Al HMNCC generated a high reversible capacity after 200 cycles(25%higher than that of cathode with Al CC).Besides,graphite anode with Cu HMNCC also maintained prominent reversible capacity even after 600 cycles.Moreover,the full cell assembled by graphite anode with Cu HMNCC and NCM523 cathode with Al HMNCC achieved high reversible capacity and remarkable cycling stability under industrial-grade mass loading.This study provides promising candidate for achieving high-performance LIBs current collectors.

Effect of Amino Acid Fertilizer on Flue-cured Tobacco Fertilizer Reducing and Efficiency Increasing

[Objective] The aim was to explore the effect of amino acid fertilizer on the growth, development and quality of flue-cured tobacco. [Method] With Yunyan 87 as tested flue-cured tobacco varieties, three treatments （chemical fertilizer （control）, chemical fertilizer＋solid amino acid, chemical fertilizer＋liquid amino acid） were set up to study the effects of amino acid fertilizer on flue-cured tobacco fertilizer reducing and efficiency increasing by means of contrast in the same field. [Result] The flue-cured tobacco applied solid amino acid fertilizer had the best performances of overall agronomic traits and the highest yield, while liquid amino acid fertilizer was conductive to the top leaf opening, making the raw tobacco appearance best, and could increase the proportion of middle and high quality tobacco, gaining good economic benefits. The flue-cured tobacco treated by liquid amino acid fertilizer had the optimal ratio of total sugar to nicotine and disaccharide differences in tobacco leaves, and the best coordination of chemical composition. Compared with the contrel, tobacco treated by amino acid fertilizer had less irritating and more comfortable taste, and the tobacco treated by liquid amino acid had light miscellaneous gas, and the best overall performance of sensory quality. [Conclusion] Chemical fertilizer＋liquid amino acids is conductive to promote the growth and development of flue-cured tobacco and improve the quality of tobacco leaves.

Maggot homogenate is associated with neural regeneration and wound healing in the rat

BACKGROUND：Live delivery limits the clinical application of maggot therapy. To date in China, there are no in vivo reports regarding wound healing mechanisms of maggot therapy or the effects of maggot homogenate on wound nerve regeneration.OBJECTIVE：To avoid complications due to the use of live maggots, an aseptic maggot homogenate was applied. Substance P （SP） and gene protein product 9.5 expression in a cutaneous wound was analyzed to explore possible mechanisms of neural regeneration and wound healing in the rat.DESIGN, TIME AND SETTING：A random grouping and controlled animal study was performed at the laboratory of the Department of Orthopedic Surgery, First Affiliated Hospital, Dalian Medical University from August 2008 to April 2009.MATERIALS：Live maggots were cultured and provided by the laboratory of the Department of Orthopedic Surgery of the First Affiliated Hospital, Dalian Medical University, China.METHODS：A total of 48 adult rats were selected and two acute, full-thickness wounds （round, 1.5 cm diameter） were created on the back of each rat. The two wounds were randomly assigned to homogenate product and control groups. Following two-step disinfection of maggots, a homogenate was produced from 10 maggots and applied to the wound area in the homogenate product group, while the wounds in the control group were treated with normal saline alone.MAIN OUTCOME MEASURES：On days 1,3, 7, 10, 14, and 21 following injury, the wound tissue was excised. Histological examination of the wound was observed by hematoxylin and eosin staining or Masson＇s Trichrome staining. SP and protein gene product 9.5 expressions were examined by immunohistochemistry to evaluate wound neural regeneration.RESULTS：On days 7, 10, and 14, the rate of wound healing was significantly greater in the homogenate product group compared with the control group （P 〈 0.05）, and homogenate healing was better than that seen in the control group. On days 3, 7, and 10, SP expression in cells and regenerative nerves was significantly greater in the homogenate product group compared with the control group （P 〈 0.05）. On days 7 and 10, protein gene product 9.5 expression was detected in the regenerative nerve, and expression level was significantly greater in the homogenate product group compared with the control group （P 〈 0.05）.CONCLUSION：Maggot homogenate resulted in upregulated SP and protein gene product 9.5 expressions, thereby promoting neural regeneration and wound healing.