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RISS 인기검색어
- 검색키워드
- 저자 : Luo MingHong (검색결과 2 건)
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Sun Xin,Luo Xiaochao,Li Ling,Ma Bin,Yao Minghong,Liu Jiali,Ge Long,Chen Xiaofan,Wu Xi,Deng Hongyong,Zhou Xu,Wen Zehuai,Li Guowei,Li Qianrui 한국한의학연구원 2022 Integrative Medicine Research Vol.11 No.3
Rapid recommendation is a novel methodological framework for developing clinical practice guidelines and this framework shares the basic features of classical guidelines but differs from classical clinical practice guidelines in its ‘rapid’ development process (typically within 90 days) with an aim of translat-ing practice-changing studies to recommendations. A recent global innovation of guideline development methodology is the proposal of a rapid recommendation framework for Traditional Chinese Medicine (TCM), which has the potential to add value to the translation of evidence to practice for TCM inter- ventions. Up to now, more than 180 rapid recommendations have been published, but none of them is pertaining to TCM interventions. Due to the nature of multi-dimensional evidence sources for TCM inter- ventions, including classical randomized controlled trials and real world evidence, a more sophisticated methodological approach to synthesize and evaluate the totality of evidence about effects of TCM in- terventions is required. Therefore, appropriate modification to the rapid recommendation framework is necessary. In the efforts to respond to these needs, we have proposed a specific approach to developing rapid recommendations for TCM interventions the Multi-dimensional Evidence Synthesis, Evaluation and Recommendations for TCM interventions (MESERT)
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Sui Guanghui,Cheng Yanyan,Chen Kai,Huang Zhifang,Luo MingHong 한국화학공학회 2024 Korean Journal of Chemical Engineering Vol.41 No.3
Biomass tar is a by-product generated during biomass gasifi cation. Because of the toxic and harmful nature of biomass tar, its treatment method has become the concern of environmental protection fi eld and related researchers. In this paper, biomass tar was separated into the heavy tar and the phenol-containing liquor after enrichment. Porous carbon (PCs) was prepared using the heavy tar by one-step carbonization activation. The results show that PC_3 has the highest specifi c surface area of 352 m 2 g −1 and mesoporosity ratio of 56.25%. The as-prepared electrode displayed an excellent electrochemical performance for portable super-capacitors, which is a volumetric capacitance of 349 F cm −3 . Assembled super-capacitors have an energy density of 21.65 Wh kg −1 at a power density of 123 W kg −1 . The bio-resins were modifi ed with the phenolcontaining liquor. The results showed that the thermal stability of modifi ed resins had been improved and the structure did not change signifi cantly. This research provides an environmentally friendly and comprehensive utilisation methods for the utilisation of biomass tar.
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