![]() They can absorb particular nutrients, fertilizers, and pesticides or insecticides and release them at a particular targeted site to act as targeted drug delivery. MOFs have great potential ability for agricultural application because they can easily be encapsulated and because of their wide pore size distribution. Significantly, they have made an excellent contribution to improve stability and catalytic activity. MOFs represent novel porous materials with high surface areas and tunable pore sizes and compositions. Thus, they are comprehensively applied for adsorption, energy, sensors, biomedical drug delivery, catalysis, and agriculture. Metal-organic frameworks (MOFs) have drawn wide attention owing to their large specific surface area, porosity, and tunable framework structures. Furthermore, the role of CNMs is a promising method for crop monitoring and their prospects are briefly discussed concerning potential applications. This chapter highlights the importance of CNMs in agrochemical synthesis and application as agricultural monitoring tools. Recently, researchers focus on the working of these CNMs in the identification and assessment of various analytes like agrochemicals, fertilizers, micronutrients, pesticides, insecticides, and nutrients for monitoring plant growth and development. Moreover, precise sensing within a short limit of time is one of the major concerns for agricultural sensors. The use of agro-chemical sensors enables the development of stable, precise, and quick measurements for a targeted molecule. CNMs are among the most interesting structures to be embedded in multifunctional smart agricultural sensing devices. The analysis of saponins by HPLC method showed that twenty-week-old in vitro rhizomes had Rg1, Rd and Rb1.Ĭarbon nanostructured-based materials (CNMs) have great potential for different applications including environmental remediation, energy storage, biomedical, and sensing due to their excellent properties such as large surface area, wide pore size distribution, chemical, and mechanical stability, biocompatibility, etc. Meanwhile, plantlets derived from adventitious shoots only induced adventitious roots and callogenesis after 20 weeks of culture. Plantlets derived from secondary embryos grew well with 63.34% rhizome formation, 1.27 cm in rhizome length and 0.65 cm in rhizome diameter. In addition, 12-week-old secondary somatic embryos, mainly cotyledonary stage, were obtained from the primary somatic embryo cultured on 1/2 MS medium supplemented with 1 mg/L 2,4-D. Adventitious root formation and callus induction were also observed in the auxin-supplemented treatments. L-tTCL explant cultured on MS medium supplemented with 7 mg/L NAA gave 100% SE and 32.80 embryos meanwhile, P-lTCL explants also obtained 100% SE and 51.80 embryos in 1 mg/L 2,4-D treatment. The leaf was cut transverse thin cell layer (L-tTCL: 1 mm × 5 mm) and petiole cut longitudinally TCL (P-lTCL: 0.5 mm × 10 mm). Moreover, shoot regeneration (45.33%) and the number of shoots (5.2 shoots) from 0.15% AgNPs disinfected- rhizome were significantly higher than those in others after 12 weeks of culture. Rhizome explants disinfected with 0.15% AgNPs for 30 min resulted in the most effective surface disinfection (contamination, necrosis and survival with callus induction of 36.00%, 14.70% and 49.30%, respectively). langbianensis), an endemic medicinal plant, via somatic embryogenesis (SE) and rhizome formation were investigated. Micropropagation of Lang Bian ginseng (Panax vietnamensis var. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |