Phenazine

Process Optimization of Phenazine - 1 - carboxylic Acid Fermentation by Response Surface Analysis

采用响应面分析法优化吩嗪-1-羧酸的发酵条件

Study on Synthesis of Phenazine Methyl Sulfate by Use of Waste from the Production of RT Base

利用RT培司生产废料合成吩嗪硫酸甲酯的研究

Isolation and structure determination of new phenazine compound k3-ye

新吩嗪化合物K＿3－Ye的分离和结构鉴定

Resonance Rayleigh Scattering Spectra of the Interaction between Some Basic Phenazine Dyes and Heparin

某些碱性吩嗪染料与肝素相互作用的共振瑞利散射光谱研究

Screening for Phenazine - 1 - carboxylic Acid Degrading Bacteria

吩嗪-1-羧酸降解菌的筛选及其特性研究

Determination of Proton Equilibrium Constants for the Phenazine Dyes Neutral Red and Safranine T

吩嗪染料中性红和碱性藏红的质子平衡常数的测定

Isolation and Purification of Phenazine Pigments Produced by Pseudomonas aeruginosa and its Effects on the Growth of Red Tide Organisms

铜绿假单胞菌产吩嗪类色素的分离纯化及其对赤潮生物生长的影响

In the pot and plot tests , the best coordinate treatment was the treatment of 10 % phenazine plus 70 % dexon plus 50 % bavistin and plus water ( 1:1:500 ) , the control effect was 70 % ;

盆栽和小区试验，最好的复配处理是10%叶枯净+70%敌克松+50%多菌灵+水（1：1：1：500），防效70%；

In the field test , the control effect of over 70 % was also get with the treatment of 10 % phenazine plus 70 % dexon and plus small soil ( 1Kg : 1Kg : 150Kg ) per mu .

大田试验，10%叶枯净+70%敌克松+细±（1kg：1kg：150kg）平均防效也在70%以上。

The calculated results indicate that the frontier molecular orbitals of C60 moiety dictated those of molecules 1 ~ 8 . There exists stronger intramolecular electron transfer , with C60 moiety as the electron acceptor while phenazine and anthracene the electron donors .

结果表明，目标分子的前线轨道主要由C60部分决定，C60母体与加成基团之间存在较强的分子内电荷转移，C60部分是电子受体，吩嗪环部分为电子给体。