Research on Blended Teaching Mode:A Case Study of Floristry

In order to better carry out research on education and teaching,the author consulted relevant literature on blended teaching mode from 2011-2021 through CNKI,Web of Science and other websites,summarized and analyzed the research status of blended teaching mode,in order to lay a good foundation for studying blended teaching mode in course teaching.

Study on Tissue Culture of Japanese Honeysuckle ( Lonicera japonica )

[Objectives]This study was conducted to increase the reproduction coefficient of Japanese honeysuckle(Lonicera japonica)to keep the character of optimal benign.[Methods]The young leaves of medicinal Japanese honeysuckle were selected as explants,and MS was used as the basic culture medium.Suitable culture concentrations and conditions were screened through different concentration gradients of growth regulators and cytokinin.[Results]As the concentration of 6-BA in the culture medium increased,the browning rate increased,and the browning phenomenon occurred earlier.On the contrary,a lower concentration of 6-BA was suitable for the differentiation and growth of young leaves,and the browning response was slow.However,if the cultivation time was too long and the materials were not transferred in a timely manner,browning would also occur.The optimal combination of levels was obtained through a 3×3 orthogonal experiment(three parallel groups for each of 6-BA and NAA).The culture conditions included a constant temperature of 26℃and light intensity of 1200 lx.The optimal medium for inducing callus proliferation was MS+6-BA 0.5 mg/L+NAA 0.5 mg/L;and the optimal medium for inducing bud differentiation was MS+6-BA 1.0 mg/L+NAA 0.1 mg/L.[Conclusions]This study provides a theoretical basis for accelerating the development of the honeysuckle industry.

Mesoporous Graphene Hosts for Dendrite-Free Lithium Metal Anode in Working Rechargeable Batteries

Lithium(Li) metal anode has received extensive attentions due to its ultrahigh theoretical capacity and the most negative electrode potential. However, dendrite growth severely impedes the practical applications of the Li metal anode in rechargeable batteries. In this contribution, a mesoporous graphene with a high specific surface area was synthesized to host the Li metal anode. The mesoporous graphene host(MGH) has a high specific surface area(2090 m^2/g), which affords free space and an interconnected conductive pathway for Li plating and stripping, thus alleviating the volume variation and reducing the generation of dead Li during repeated cycles. More importantly, the high specific surface area of MGH efficiently reduces the local current density of the electrode, which favors a uniform Li nucleation and plating behavior, rendering a dendritefree deposition morphology at a low overpotential. These factors synergistically boost the Li utilization(90.1% vs. 70.1% for Cu foil) and life span(150 cycles vs. 100 cycles for Cu foil) with a low polarization of MGH electrode at an ultrahigh current of 15.0 mA/cm^2. The as-prepared MGH can provide fresh insights into the electrode design of the Li metal anode operating at high rates.

An ultra-fast charging strategy for lithium-ion battery at low temperature without lithium plating

Conventional charging methods for lithium-ion battery(LIB)are challenged with vital problems at low temperatures:risk of lithium(Li)plating and low charging speed.This study proposes a fast-charging strategy without Li plating to achieve high-rate charging at low temperatures with bidirectional chargers.The strategy combines the pulsed-heating method and the optimal charging method via precise control of the battery states.A thermo-electric coupled model is developed based on the pseudo-twodimensional(P2D)electrochemical model to derive charging performances.Two current maps of pulsed heating and charging are generated to realize real-time control.Therefore,our proposed strategy achieves a 3 C equivalent rate at 0℃ and 1.5 C at-10℃ without Li plating,which is 10–30 times faster than the traditional methods.The entropy method is employed to balance the charging speed and the energy efficiency,and the charging performance is further enhanced.For practical application,the power limitation of the charger is considered,and a 2.4 C equivalent rate is achieved at 0℃ with a 250 kW maximum power output.This novel strategy significantly expands LIB usage boundary,and increases charging speed and battery safety.

Imitated Ecological Cultivation Technology of Dendrobium offcinale: A Case Study of Longshitou Village,Longmen County

In order to optimize the planting structure of Longshitou Village in Longmen County and promote the efficient cultivation of Dendrobium offcinale industry,the imitate ecological cultivation technology of D.offcinale is studied from the aspects of site selection,seedling domestication,seedling colonization,and disease and pest control after colonization according to the natural environmental conditions of Longshitou Village.

Research on the Planning of Medicinal Botanical Gardens Based on the Theme of Science Popularization Education

The functions of medicinal botanical gardens are introduced firstly,and then the application status and planning principles of medicinal botanical gardens based on the theme of science popularization education are analyzed.Moreover,a typical application case is analyzed and summarized.Constructing a scientific medicinal botanical garden is conducive to increasing people's understanding of medicinal plants,and also meets the requirements of current national policies,thereby generating greater economic and social benefits.