1) AgNO_3/γ-Al_2O_3
AgNO3/γ-Al2O3
2) silver nitrate
AgNO3
1.
A novel analytical method of chemical oxygen demand (COD) for oil waste water is developed,with silver nitrate substituting the expensive silver sulfate as catalyst in H2SO4.
表明AgNO3可代替Ag2SO4作为重铬酸钾回流法的催化剂测定含油污水的COD。
2.
The effect of genotype,combinations of plant growth regulators, concentrations of silver nitrate on differentiation was investigated .
以 9个菊花品种为试材 ,利用 6种分化培养基和 3种生根培养基 ,以叶片、茎段为外植体 ,研究不同基因型、激素组合以及附加不同浓度的AgNO3 对高效、快速、经济的再生体系建立的影响。
3) AgNO_3
AgNO3
1.
A new technology of preparing AgNO_3 for sensitive industry was studied by crystallizing method.
研究了结晶法制备感光材料用AgNO3的工艺 ,经过实验室小试和扩大试验 ,制备的产品已达到国家感光材料 2级AgNO3指标 ,主要金属离子指标已达到国家感光材料 1级AgNO3标准 ,尤其是由感光行业提出的杂质Hg指标 ,稳定在 <5× 1 0 - 9。
2.
In order to improve the efficiency of wheat tissue culture,the effects of 2,4-D,AgNO_3 and sucrose on callus induction and regeneration were studied by culturing the scutella from Zhengmai 9023.
以郑麦9023盾片为材料,对影响小麦组织培养的2,4-D,AgNO3,蔗糖进行了研究。
3.
The genotype which had the maximum shoot regeneration rate was chosen for studying the effects of different explants,the concentration of agar,AgNO_3,ABA,TDZ,antibiotic and hormone combination on shoot regeneration.
通过基因型筛选,选出具有较高再生潜力的萝卜品种,并对其进行了外植体类型、琼脂浓度、激素配比等试验,比较了不同浓度的AgNO3、ABA、TDZ和抗生素对萝卜再生的影响,在改良MS+6-BA 5 mg/L+NAA 0。
4) AgNO 3
AgNO3
1.
Effect of AgNO 3 on transformation of sweetpotato by Agrobacterium tumefaciens mediated transformation of sweetpotato was tested in this papers, and the test material was a superior cultivars "NanShu 88" .
以甘薯优良栽培品种“南薯 88”为试材 ,研究了AgNO3 对根癌农杆菌介导的甘薯遗传转化的影响 。
2.
The influence of genotype,hormone and AgNO 3 on in vitro shoot regeneration of cotyledon explants of 17 Brassica campestris(rapa) cultivars was investigated by biometrics.
研究了基因型、激素和AgNO3对 17种白菜子叶 (带 1~ 2mm子叶柄 )外植体不定芽再生率的影响。
3.
)revealed the effects of different concentrations of 6BA and AgNO 3 on their regeneration,and confirmed the optimal concentration of 6BA and AgNO 3 promoting regeneration of Ning A6 and Ning R1.
通过研究两个甘蓝型油菜 (BrassicanapusL )亲本材料“宁A6”和“宁R1”带柄子叶外植体不定芽再生能力 ,探明了 6BA和AgNO3 浓度对外植体不定芽再生能力影响效果 ,并确定了促进两种不同基因型甘蓝型油菜不定芽再生的最适 6BA和AgNO3 浓度。
5) γ-Al_2O_3
γ-Al2O3
1.
As a very important catalyst support,adsorbent and separate material,the preparation of macro-mesostructured γ-Al_2O_3 is very important,especially for catalytic conversion of petroleum heavy cuts and residues.
大中孔γ-Al2O3作为重要的催化剂载体、吸附剂和分离材料,尤其对重油和渣油转化催化剂的研制具有十分重要的意义,但传统大中孔-γAl2O3的制备方法往往以牺牲其比表面积为代价。
2.
A new activation method to preseed palladium nuclei on γ-Al_2O_3 powders has been developed.
采用一种新型无锡活化工艺,即利用乙二醇作还原剂直接使Pd2+被还原成Pd0而沉积在基体上,实现了对γ-Al2O3粉体的活化。
3.
Prepared tributyltin hydride, cinnamoyl chloride and Pd(Ⅱ)/γ-Al_2O_3.
制备三丁基锡氢化物、肉桂酰氯及高分子载钯催化剂Pd(Ⅱ)/γ-Al2O3,研究了Pd(Ⅱ)/γ-Al2O3对三丁基锡氢化物还原肉桂酰氯制备肉桂醛反应的催化活性,考察了催化剂的使用寿命。
6) γ-alumina
γ-Al2O3
1.
The result shown that γ-alumina was activated in catalytic ozonation for degradation MIB not only in distilled water,but also in tap water.
以γ-Al2O3粉末为催化剂,研究了催化臭氧氧化去除水体中典型嗅味物质2-甲基异茨醇(MIB)的效能及相关影响因素。
补充资料:(γ-γ′)反应
分子式:
CAS号:
性质:指γ光子与靶核作用,使其激发,然后以发射光子形式退激发的过程。出射光子的能量与受激靶核性质有关,为靶核激发态与基态这两个能级之差值。该反应截面很小,只有毫靶恩量级。
CAS号:
性质:指γ光子与靶核作用,使其激发,然后以发射光子形式退激发的过程。出射光子的能量与受激靶核性质有关,为靶核激发态与基态这两个能级之差值。该反应截面很小,只有毫靶恩量级。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条