An Analysis of the Patents concerning Hevea brasiliensis

This paper mainly analyzes the application data of patents concerning Hevea brasiliensis in the world and China from the perspectives of time,research field,and the geographical distribution of applicants. It also interprets the patents for invention in China from time,research field,and types of applicants. Based on the study,it shows that although the patent applications fluctuate,the general trend is rising. And the patents are mostly concentrated in plant protection,and agricultural biotechnology. The Chinese applicants of patents for invention largely work in the research institutes,and most of these patents focus on the field of plant protection,agricultural biotechnology,and agro-processing.However,the foreign applicants mainly work in companies,and most of these patents only focus on plant protection. These findings will provide a reference for formulating development policies about natural rubber industry in China.

High-performance magnesium ion asymmetric Ppy@FeOOH//Mn3O4 micro-supercapacitor

Micro-supercapacitors(MSCs)are attractive electrochemical energy storage devices owing to their high power density and extended cycling stability.However,relatively low areal energy density still hinders their practical applications.Here,an asymmetric Mg ion MSC with promising high energy density is fabricated.Firstly,indium tin oxide(ITO)NWs were synthesized by chemical vapor deposition as the excellent current collector.Subsequently,nanostructured Mn_(3)O_(4)and Ppy@FeOOH were deposited on the laser-engraved interdigital structure ITO NWs electrodes as the positive and negative electrodes,respectively.Beneficial from the hierarchical micro-nano structures of active materials,high conductive electron transport pathways,and charge-balanced asymmetric electrodes,the obtained MSC possesses a high potential window of 2.2 V and a high areal capacitance of 107.3 mF cm^(-2)at 0.2 mA cm^(-2).The insitu XRD,VSM,and ex-situ XPS results reveal that the primary energy storage mechanism of Mg ions in negative FeOOH electrode is Mg ions de-/intercalation and phase transition reaction of FeOOH.Furthermore,the MSC exhibits a high specific energy density of 71.18μWh cm^(-2)at a power density of 0.22 mWh cm^(-2)and capacitance retention of 85%after 5000 cycles with unvaried Coulombic efficiency.These results suggest promising applications of our MSC in miniaturized energy storage devices.

Application of metal-organic frameworks,covalent organic frameworks and their derivates for the metal-air batteries

Metal-organic frameworks(MOFs)and covalent organic frameworks(COFs)as the novel porous materials have the merits of diverse,adjustable functionality,high porosity and surface area,which have great application prospects in the gas storage,separation and catalysis.In addition,their derivates make up for the insufficient of electronic conductivity and chemical stability of MOFs and COFs,and provide a new ideal for accurate control of material structure.Up to now,many efficient electrocatalysts have been designed based on MOFs,COFs and their derivates for O_(2)reduction/evolution reactions(ORR/OER)and CO_(2)reduction/evolution reactions(CO_(2)RR/CO_(2)ER)in the metal-air batteries.In this review,the latest development of MOFs,COFs and their derivates in the metal-air batteries is summarized,and we discuss the structural characteristics of these materials and their corresponding mechanisms of action.By comprehensively reviewing the advantages,challenges and prospects of MOFs and COFs,we hope that the organic framework materials will shed more profound insights into the development of electrocatalysis and energy storage in the future.