microtechnology

简明释义

[ˌmaɪkrəʊtɛkˈnɒlədʒi][ˌmaɪkroʊtɛkˈnɑlədʒi]

微型工艺

微技术

英英释义

Microtechnology refers to the technology that deals with the design and manufacture of very small devices, typically at the micro-scale, which often includes components such as sensors, actuators, and circuits.

微技术是指处理设计和制造非常小的设备的技术,通常在微观尺度上,包括传感器、执行器和电路等组件。

单词用法

microtechnology applications

微技术应用

advancements in microtechnology

微技术的进步

microtechnology industry

微技术产业

microtechnology devices

微技术设备

microtechnology research

微技术研究

microtechnology innovations

微技术创新

同义词

nanotechnology

纳米技术

Nanotechnology is often used in medicine to create targeted drug delivery systems.

纳米技术常用于医学中,以创建靶向药物输送系统。

microsystems technology

微系统技术

Microsystems technology plays a crucial role in the development of sensors and actuators.

微系统技术在传感器和执行器的开发中起着至关重要的作用。

microfabrication

微制造

Microfabrication techniques are essential for producing integrated circuits.

微制造技术对于生产集成电路至关重要。

反义词

macrotechnology

宏观技术

Macrotechnology often refers to large-scale systems and infrastructures, such as transportation networks.

宏观技术通常指的是大规模系统和基础设施,例如交通网络。

megatechnology

巨大技术

Megatechnology encompasses technologies that operate on a massive scale, such as space exploration.

巨大技术涵盖了在大规模上操作的技术,例如太空探索。

例句

1.This paper refer hybrid sensor types to activation of power supply, activation of light source, silicon microtechnology.

本文评述的混合光纤传感器类型范围涉及:电源驱动、光源驱动、硅微技术。

2.This paper refer hybrid sensor types to activation of power supply, activation of light source, silicon microtechnology.

本文评述的混合光纤传感器类型范围涉及:电源驱动、光源驱动、硅微技术。

3.Research in microtechnology 微技术 is paving the way for innovations in renewable energy.

微技术领域的研究为可再生能源的创新铺平了道路。

4.In the world of telecommunications, microtechnology 微技术 plays a crucial role in improving signal quality.

在电信领域,微技术在改善信号质量方面起着至关重要的作用。

5.The field of medicine is greatly benefiting from advancements in microtechnology 微技术, allowing for less invasive procedures.

医学领域正因微技术的进步而受益匪浅,使得手术方式更加微创。

6.The integration of microtechnology 微技术 in consumer products has led to smarter home appliances.

消费者产品中集成的微技术使得家用电器更加智能化。

7.Engineers are using microtechnology 微技术 to develop smaller and more efficient electronic devices.

工程师们正在利用微技术开发更小、更高效的电子设备。

作文

Microtechnology has become an integral part of our daily lives, influencing various fields such as medicine, telecommunications, and electronics. The term microtechnology (微技术) refers to the technology that deals with the design, fabrication, and application of structures, devices, and systems on a microscale. This technology typically involves components that are measured in micrometers, which is one-millionth of a meter. As we delve into the significance of microtechnology (微技术), it becomes evident that its applications are vast and transformative.One of the most notable areas where microtechnology (微技术) plays a crucial role is in the field of medicine. For instance, microelectromechanical systems (MEMS) are used in various medical devices, including sensors and drug delivery systems. These tiny devices can monitor vital signs or release medication at precise intervals, thereby improving patient care and outcomes. The ability to miniaturize technology allows for less invasive procedures, which can lead to quicker recovery times and reduced risk of complications.In addition to healthcare, microtechnology (微技术) is revolutionizing the telecommunications industry. Mobile phones, for example, rely heavily on microchips and other micro-scale components to function efficiently. The integration of microtechnology (微技术) has made it possible for smartphones to perform complex tasks while remaining compact and lightweight. This advancement not only enhances user experience but also contributes to the overall growth of the digital economy.The electronics sector has also benefited significantly from microtechnology (微技术). From computers to smart home devices, the trend towards miniaturization has led to more powerful and efficient products. For example, the development of microprocessors has enabled computers to execute billions of calculations per second, which has transformed how we work, communicate, and entertain ourselves. This rapid evolution in microtechnology (微技术) continues to push the boundaries of what is possible in electronic devices.Moreover, microtechnology (微技术) is paving the way for innovations in renewable energy. Micro-scale solar cells, for instance, can be utilized in a variety of applications, from powering small gadgets to contributing to larger energy systems. By harnessing the power of the sun at a micro level, we can create more sustainable energy solutions that are both efficient and environmentally friendly.Despite the numerous advantages of microtechnology (微技术), there are also challenges that need to be addressed. One major concern is the environmental impact of producing micro-scale devices. The manufacturing processes often involve harmful chemicals and generate electronic waste, which can pose significant risks to our planet. Therefore, it is essential for researchers and engineers to develop sustainable practices and materials in the field of microtechnology (微技术).In conclusion, microtechnology (微技术) represents a pivotal advancement in modern science and engineering. Its applications across various sectors highlight its importance in enhancing efficiency, improving quality of life, and driving innovation. As we continue to explore the potential of microtechnology (微技术), it is crucial to balance technological progress with sustainability to ensure a better future for generations to come.