1) nature revivification
质感还原
2) reduction sensitization
还原增感
1.
Study of reduction sensitization effect in silver halide ultrafine particles emulsions;
卤化银超细颗粒乳剂还原增感作用研究
2.
The results indicate that the function of reduction sensitization center is hole trap when sensitization concentration is lower and the function of reduction sensitization center is deep electron trap when sensitization concentration is higher.
还原增感是三大化学增感类型之一。
3.
The results indicate that the function of reduction sensitization center is hole trap at lower reduction sensitization temperature and the function of reduction sensitization center is deep electron trap at higher reduction sensitization temperature.
利用微波介电检测技术,测得还原增感立方体氯化银乳剂中自由光电子与浅束缚光电子衰减行为随还原增感温度的变化。
4) Reducing substances
还原物质
1.
The influence of reducing substances released from blood bags on whole blood contained in bags;
血袋中的还原物质对袋装全血质量的影响研究
2.
Analysis on uncertainty in test of reducing substances of disposable infusion sets
一次性输液器还原物质测定中不确定度的分析
6) carbonaceous reducer
碳质还原剂
1.
The microwave-absorbing characteristics of the mixtures about carbonaceous reducer and ilmenite were measured by the technique of microwave cavity perturbation and the relationships between p and the microwave-absorbing characteristic of the mixtures were studied.
采用微波谐振腔微扰法测定了碳质还原剂和钛精矿混合物料的吸波特性,研究了碳质还原剂配入钛精矿不同比例时混合物的吸波特性与材料的复介电常数(ε″)、微波场内热源强度p的关系。
2.
The microwave-absorbing characteristics of the mixtures of carbonaceous reducer and zinc-kiln slag were measured by the technique of microwave cavity perturbation and the relationships between P(P=ωε″E2V) and the microwave-absorbing characteristic of the mixtures were studied.
采用微波谐振腔微扰法测定碳质还原剂和锌窑渣混合物料的吸波特性,研究碳质还原剂配入锌窑渣不同比例时混合物的吸波特性与材料的复介电常数(ε″)、微波场内热源强度P(P=ωε″E2V)的关系。
补充资料:光学增感
分子式:
CAS号:
性质:由于卤化银照相乳剂的本征光吸收范围只限于可见光区的蓝、紫光部分,因此往乳剂中加入某种光谱染料,使其能吸收某种颜色的光并能把所吸收的光能量传递给卤化银使其感光,并能扩展卤化银乳剂的光谱敏感范围,这种作用称为光学增感,亦称光谱增感或染料增感。根据增感染料的用量和所起的作用,又可分为光学增感和超增感。
CAS号:
性质:由于卤化银照相乳剂的本征光吸收范围只限于可见光区的蓝、紫光部分,因此往乳剂中加入某种光谱染料,使其能吸收某种颜色的光并能把所吸收的光能量传递给卤化银使其感光,并能扩展卤化银乳剂的光谱敏感范围,这种作用称为光学增感,亦称光谱增感或染料增感。根据增感染料的用量和所起的作用,又可分为光学增感和超增感。
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