The effects of ultrasound frequency and power on the activation energy in Si-KOH reaction system

The activation energy is the minimum amount of energy required to initiate a reaction. It is one of the important indexes for appraising a reaction. The chemical reaction rate is closely related to the value of activation energy, and reducing activation energy is propitious to promoting a chemical reaction. In the present paper, the relationship between the activation energy in Si-KOH reaction system and the ultrasound frequency and power has been discussed for the first time. The range of ultrasound frequency and power is 40-100kHz （interval by 20kHz） and 10-50W （interval by 10W）, respectively. The experimental clata indicate that the activation energy decreases with the increasing ultrasound power. Comparing with the activation energy without ultrasound irradiation, the results in our paper indicate that ultrasound irradiation could reduce the activation energy in Si-KOH reaction system and increase the reaction rate.     

污泥和沉积物中微量大环内酯类、磺胺类抗生素、甲氧苄胺嘧啶和氯霉素的测定

利用超声波辅助萃取(USE)技术,联合固相萃取(SPE)净化浓缩以及液相色谱-电喷雾串联质谱(LC-ESI-MS/MS)技术,建立了城市污泥和河流底泥中微量-痕量大环内酯类、磺胺类抗生素、甲氧苄胺嘧啶和氯霉素的多目标定量分析方法.样品经USE提取,SPE净化后,用LC-ESI-MS/MS检测.选择C18为分析柱,甲醇、5 mmol/L醋酸铵和0.1%甲酸混合溶液为流动相,选择在ESI正电离源下多反应监测(MRM)模式检测.对比了USE和加速溶剂萃取(ASE)对抗生素的萃取效率,优化了萃取条件.结果表明: USE和ASE对所选抗生素的萃取效率相当; 而50%甲醇溶液在酸性条件下(pH 2)萃取效率最好.抗生素的方法检出限为2.2～66.9 ng/g(干重,下同); 回收率介于74.7%～111.8%之间; 相对标准偏差小于10.6%.应用此方法在广州某污水处理厂脱水污泥及某河涌底泥中检测到磺胺二甲基嘧啶、克拉霉素、脱水红霉素及罗红霉素等多种抗生素,含量为6.8～125.6 ng/g.     

反应物分散条件对Li1+xV3O8电化学性能的影响

以Li₂CO₃和NH₄VO₃为原料,在不同条件下合成了锂离子电池正极材料用Li_1+xV₃O₈。研究了反应物的分散条件和煅烧温度对产物晶型结构、形貌及电化学性能的影响。 XRD、IR和SEM结果表明,用超声波在无水乙醇中分散反应物得到的前驱体于550 ℃下煅烧,所得产物Li_1+xV₃O₈结晶度低、粒径小、形貌均匀。 充放电、循环伏安等结果表明,该材料在充放电过程中极化低、嵌脱锂位置多、循环稳定性好。 在0.5 C放电条件下,第2次循环放电容量达到268 mA·h/g,100次循环后容量仍保持210 mA·h/g以上。     

超声波对制备Co-Fe/硅藻土选择加氢催化剂的影响

分别在有无超声条件下,采用分步浸渍法制备了负载型Co-Fe/硅藻土催化剂,以肉桂醛选择加氢为肉桂醇为探针反应,在固定床微分反应器上考察了催化剂的活性.采用热分析、红外、XRD及正电子寿命谱等技术分析了催化剂的催化性能及超声波对活性的影响.结果表明,经超声处理的催化剂对肉桂醛加氧为肉桂醇转化率、选择性和收率明显提高.超声处理没有改变催化剂载体的结构,但使主、助催化剂更好地分散在载体上,使催化剂表面的两类缺陷尺寸变小,同时增加第二类缺陷数量,有更好的催化活性.     

高效液相色谱法测定胶粘剂中的游离甲醛

建立了胶粘剂中游离甲醛的高效液相色谱检测方法,对提取方法、衍生化条件及色谱条件进行了研究。结果表明,采用超声波萃取法代替经典的水蒸气蒸馏法能更快速、高效地提取目标物。液相色谱法对甲醛的检出限为0．024μg／mL,在0．1～12μg／mL范围内,线性相关系数R^2=0．9995,在1、2、8μg／mL三个添加水平下,回收率在98．73％～101．68％之间。五个实验室间的相对标准偏差为2．6％。对某白乳胶样品的测定结果表明,本法在定性检测、抗干扰能力及稳定性上都高于常用的乙酰丙酮比色法。     

微波辅助萃取与超声波萃取丹参中丹酚酸B的比较研究

本文对微波辅助萃取和超声波萃取丹参中丹酚酸B进行了比较研究,并用高效液相色谱法(HPLC)测定了丹参中丹酚酸B.考察了微波辅助萃取和超声波萃取参数的影响,在各自最佳萃取条件下进行了丹参中的丹酚酸B提取率的比对,结果表明:微波辅助萃取6 min的提取率高于超声波萃取30 min的提取率.微波辅助萃取法与超声波萃取法相比具有省时、高效和溶剂用量少的特点.利用指纹图谱比较了两种萃取方式提取的化学成分的差异,结果显示两种萃取方法提取的主要成分组成基本相同,其共有成分比例相近.     

超声波辅助提取-气相色谱法同时测定湿毒清片中14种有机磷农药残留

建立了超声波辅助提取-气相色谱法同时检测湿毒清片中14种有机磷农药残留的方法。样品采用乙酸乙酯超声提取,通过石墨化炭黑净化,采用气相色谱-火焰光度法(GC-FPD)进行检测。除乐果以外,13种有机磷农药于0.1mg/kg、0.5mg/kg两个加标水平的回收率在80.4%~114.5%之间,相对标准偏差为0.6%~12.4%。方法满足农残分析的要求,可用于湿毒清片中14种有机磷农药残留量的检测。     

The simulation of ultrasonic beams with a Gaussian beam equivalent point source model

Point Sources and Gaussian beams are used frequently as fundamental building blocks for developing ultrasonic beam models. Both these models have different weaknesses that limit their effectiveness. Here, we will show that one can develop a Gaussian Beam Equivalent Point Source （GBEPS） model that removes those weaknesses and combines the accuracy and versatility of the point source models with much of the speed and well-behaved nature of Gaussian beam models. We will demonstrate the efficiency and versatility of this new GBEPS model in simulating the beams generated from ultrasonic phased arrays, using as few as one Gaussian beam per element of the array. A single element GBEPS model will be shown to be as accurate as a point source model even when substantial beam focusing or steering is present in the array or where the array beam is transmitted through an interface. At the same time the GBEPS model will be shown to be several orders of magnitude faster than the point source model.     

第15届固态传感器、传动器与微系统国际会议(Ⅱ)

本届会议的专题报告按日程安排分述如下:(1)T Wacharalindu:以液态半导体为基础的微功率源--采用反射能量转换;(2)C M Waits,MMc Carthy,R Ghodea:供小规模动力系统中输送燃料用的、微电动机械系统的涡轮泵;(3)I D Block、P c Mcthals、M Ganoch:增强荧光与无标记成像联用仪;(4)L H Loo、Y D Lau:应用微结构的流体动力学偶联方法进行微型悬臂的质量因子的调谐;(5)K Imagawa,H Horilauchi,K Ikoda:应用心脏肌肉细胞的药物模拟方法的自给加热与流体泵送凝胶;(6)N Suhkl:供模拟在任何硅取向的表面组织与几何形态用的连续分格自动化技术.     

Non-contact evaluation of the resonant frequency of a microstructure using ultrasonic wave

This paper presents a novel non-contact method for evaluating the resonant frequency of a microstructure, Firstly, the microstructure under test is excited by ultrasonic waves. This excitation method does not impose any undefined load on the specimen like the electrostatic excitation and also this is the first actual use of ultrasonic wave for exciting a microstructure in the literature. Secondly, the amplitudes of the microstructure are determined by image edge detection using a Mexican hat wavelet transform on the vibrating images of the microstructure. The vibrating images are captured by a CCD camera when the microstructure is vibrated by ultrasonic waves at a series of discrete high frequencies （〉30 kHz）. Upon processing the vibrating images, the amplitudes at various excitation frequencies are obtained and an amplitude-frequency spectrum is obtained from which the resonant frequency is subsequently evaluated. A micro silicon structure consisting of a perforated plate （192 × 192 μm） and two cantilever beams （76 × 43 μm） which is about 4 μm thickness is tested. Since laser interferometry is not required, thermal effects on a test object can be avoided. Hence, the setup is relatively simple. Results show that the proposed method is a simple and effective approach for evaluating the dynamic characteristics of microstructures.