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Journal articles on the topic 'Micro/nano-technology'

Author: Grafiati
Published: 4 June 2021
Last updated: 27 July 2025

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1

Tang, Fei, and Sishen Xie. "Preface: Micro-Nano Technology." AIP Advances 4, no. 3 (2014): 031201. http://dx.doi.org/10.1063/1.4870333.

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2

Tang, Fei, and Sishen Xie. "Preface: Micro-Nano Technology." AIP Advances 5, no. 4 (2015): 041201. http://dx.doi.org/10.1063/1.4919284.

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3

YANG, Ming. "Technology on Nano/Micro Manufacturing." Journal of the Japan Society for Technology of Plasticity 52, no. 600 (2011): 145–47. http://dx.doi.org/10.9773/sosei.52.145.

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4

Doumanidis, Charalabos C., and Delcie Durham. "Micro-/nano-technology special issue." Computer-Aided Design 39, no. 3 (2007): 177–78. http://dx.doi.org/10.1016/j.cad.2007.01.006.

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5

ASHCROFT, JARED, and BILLIE COPLEY. "Invited Letter: Micro Nano Technology Education Center." Journal of Advanced Technological Education 1, no. 1 (2022): 43–45. https://doi.org/10.5281/zenodo.6363595.

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The Micro Nano Technology Education Center is a community college led National Science Foundation Advanced Technological Education Center founded on the idea that by working together to evolve and improve community college micro and nanotechnology technical education programs, we will enhance the quality of education for MNT students who then become higher quality technicians for the MNT industry and skilled technical workforce.
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6

Blankenstein, G., and R. Wechsung. "Micro-nano-technology for biomedical application." NanoBiotechnology 1, no. 3 (2005): 275–76. http://dx.doi.org/10.1007/s12030-005-0038-4.

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7

Li, Bowen, Zhitong Xu, Gaohan Duan, et al. "The Fluidized Bed-Chemical Vapor Deposition Coating Technology of Micro-Nano Particles: Status and Prospective." Coatings 15, no. 3 (2025): 322. https://doi.org/10.3390/coatings15030322.

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Fluidized bed-chemical vapor deposition (FB-CVD) technology stands as a cross-cutting achievement of fluidized bed technology in chemical engineering and chemical vapor deposition (CVD) in materials science, finding applications in particle coating, granulation, and material preparation. As compared to conventional CVD technology, FB-CVD distinguishes itself through enhanced heat/mass transfer efficiency, achieving a uniform coating layer while maintaining low production costs. Given the related research on FB-CVD micro-nano particle coating, the mechanism of particle fluidization and chemical
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8

Li, G. P., and Mark Bachman. "Materials for Devices in Life Science Applications." Solid State Phenomena 124-126 (June 2007): 1157–60. http://dx.doi.org/10.4028/www.scientific.net/ssp.124-126.1157.

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The unprecedented technology advancements in miniaturizing integrated circuits, and the resulting plethora of sophisticated, low cost electronic devices demonstrate the impact that micro/nano scale engineering can have when applied only to the area of electrical and computer engineering. Current research efforts in micro/nano fabrication technology for implementing integrated devices hope to yield similar revolutions in life science fields. The integrated life chip technology requires the integration of multiple materials, phenomena, technologies, and functions at micro/nano scales. By cross l
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9

Li, G. P., and Mark Bachman. "Materials for Devices Applications in Life Sciences." Materials Science Forum 510-511 (March 2006): 1066–69. http://dx.doi.org/10.4028/www.scientific.net/msf.510-511.1066.

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The unprecedented technology advancements in miniaturizing integrated circuits, and the resulting plethora of sophisticated, low cost electronic devices demonstrate the impact that micro/nano scale engineering can have when applied only to the area of electrical and computer engineering. Current research efforts in micro/nano fabrication technology for implementing integrated devices hope to yield similar revolutions in life science fields. The integrated life chip technology requires the integration of multiple materials, phenomena, technologies, and functions at micro/nano scales. By cross l
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10

FUJISHIRO, Yoshinobu, Toshio SUZUKI, Toshiaki YAMAGUCHI, Hirofumi SUMI, and Masanobu AWANO. "Nano-Composite Electrode Technology on Micro SOFC." JOURNAL OF THE JAPAN WELDING SOCIETY 84, no. 3 (2015): 193–95. http://dx.doi.org/10.2207/jjws.84.193.

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11

Schostek, Sebastian, and Marc O. Schurr. "Micro-nano-biosystems - technology brought to life." Minimally Invasive Therapy & Allied Technologies 19, no. 3 (2010): 126. http://dx.doi.org/10.3109/13645706.2010.488335.

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12

Kang, Shinill. "Replication Technology for Micro/Nano Optical Components." Japanese Journal of Applied Physics 43, no. 8B (2004): 5706–16. http://dx.doi.org/10.1143/jjap.43.5706.

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13

HATA, Seiichi. "Micro-Nano Technology for Our Daily Life." Journal of the Society of Mechanical Engineers 116, no. 1130 (2013): 11. http://dx.doi.org/10.1299/jsmemag.116.1130_11.

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14

SATO, Kazuo. "Perspective of Micro-Nano Science and Technology." Journal of the Society of Mechanical Engineers 116, no. 1130 (2013): 12–15. http://dx.doi.org/10.1299/jsmemag.116.1130_12.

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15

MAEDA, Ryutao, and Toshihiro ITOH. "For Commercialization of Micro and Nano Technology." Journal of the Japan Society for Precision Engineering 70, no. 8 (2004): 1007–11. http://dx.doi.org/10.2493/jjspe.70.1007.

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16

Yang, Shu, Fan Wang, Huijie Han, et al. "Fabricated technology of biomedical micro-nano hydrogel." Biomedical Technology 2 (June 2023): 31–48. http://dx.doi.org/10.1016/j.bmt.2022.11.012.

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17

Xu, Huan, Mingxuan Gao, Xiaoqi Tang, Wenqing Zhang, Dan Luo, and Ming Chen. "Micro/Nano Technology for Next‐Generation Diagnostics." Small Methods 4, no. 4 (2020): 1900506. http://dx.doi.org/10.1002/smtd.201900506.

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18

Zhang, De Yuan, Jun Cai, Xing Gang Jiang, Xin Han, and Bo Chen. "Study on Bioforming Technology of Bionic Micro-Nano Structures." Key Engineering Materials 407-408 (February 2009): 1–7. http://dx.doi.org/10.4028/www.scientific.net/kem.407-408.1.

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The connotative meaning and trend of bionic design and manufacturing was analyzed. A new bioforming technology was presented, which will offer a new way to solve the difficulties in manufacturing of bionic micro-nano structures, and the layout of bioforming technology was also plotted. Several different bioforming technologies targeting typical bionic products were introduced. Compared with traditional manufacturing methods, to machine complicated micro/nano shapes, structures, functional interfaces with bioforming technology has more advantages, which showed that bioforming technologies would
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19

HATA, Seiichi. "F041006 Frontier of Micro-Nano Material Exploitation : Evaluation of Micro-Nano Material using MEMS Technology." Proceedings of Mechanical Engineering Congress, Japan 2012 (2012): _F041006–1—_F041006–4. http://dx.doi.org/10.1299/jsmemecj.2012._f041006-1.

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20

Yang, Yang, and Qiang Chen. "The Application of Ozone Micro-nano Bubble Treatment Vegetable Fresh-Keeping Technology in Air Logistics Transportation." Advances in Materials Science and Engineering 2022 (July 21, 2022): 1–10. http://dx.doi.org/10.1155/2022/4981444.

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In recent years, fresh fruits and vegetables have been sought after by Chinese people. The fresh-keeping technology, storage, and transportation of fruits and vegetables have also attracted a large number of people’s attention. Various methods of preservation, storage, and transportation of fruits and vegetables have begun to appear in the society. Micro and nanobubbles have the characteristics of long stay time, larger than the surface, high surface negative electricity, strong reliability, high efficiency of heat transfer, can cause oxygen free radicals, can greatly improve the actual effect
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21

Rahman, Mustafizur. "INNOVATIONS IN MICRO/NANO PATTERNING USING TOOL-BASED METHODS." IIUM Engineering Journal 17, no. 2 (2016): 117–36. http://dx.doi.org/10.31436/iiumej.v17i2.634.

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In recent years, the trend in miniaturization of products has been pervasive in areas such as information technology, biotechnology, and the environmental and medical industries. Micro/Nano patterning is the key supporting technology that has to be developed to meet the challenges posed by the requirements of product miniaturization and the industrial realization of nanotechnology. Micro/Nano patterning techniques can be carried out by techniquesbased on energy beams or solid cuttingtools (tool-based micro-machining). Tool-based micro/nano patterning is a relatively new area; however, over the
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22

FURUSHIMA, Tsuyoshi, and Ming YANG. "Report on 4th Asian Workshop on Nano/Micro Forming Technology." Journal of the Japan Society for Technology of Plasticity 53, no. 613 (2012): 116–17. http://dx.doi.org/10.9773/sosei.53.116.

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23

Zhao Shi-Jie, Ma Hao-Nan, and Liu Xia. "Research progress in the regulation of physical properties of two-dimensional materials based on thermal scanning probe lithography." Acta Physica Sinica 74, no. 3 (2025): 0. https://doi.org/10.7498/aps.74.20241590.

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With the continuous advancement in micro-scale exploration, micro/nano fabrication technologies, represented by photolithography and various etching processes, have been widely applied in the manufacturing of micro- and nanoscale structures and devices. These advancements drive innovation in fields such as integrated circuits, micro-nano optoelectronic devices, and micro-electromechanical systems, while also bringing new opportunities to fundamental scientific research, including the study of microscopic property regulation mechanisms. In recent years, as an emerging micro-nano fabrication tec
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24

Nazemi, Haleh, Aashish Joseph, Jaewoo Park, and Arezoo Emadi. "Advanced Micro- and Nano-Gas Sensor Technology: A Review." Sensors 19, no. 6 (2019): 1285. http://dx.doi.org/10.3390/s19061285.

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Micro- and nano-sensors lie at the heart of critical innovation in fields ranging from medical to environmental sciences. In recent years, there has been a significant improvement in sensor design along with the advances in micro- and nano-fabrication technology and the use of newly designed materials, leading to the development of high-performance gas sensors. Advanced micro- and nano-fabrication technology enables miniaturization of these sensors into micro-sized gas sensor arrays while maintaining the sensing performance. These capabilities facilitate the development of miniaturized integra
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25

Chiou, Eric Pei-Yu, and Hideaki Tsutsui. "Advancements in Biomedical Micro/Nano Tools and Technology." Journal of Laboratory Automation 18, no. 6 (2013): 425–26. http://dx.doi.org/10.1177/2211068213505834.

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26

Lee, Jeong Min, Young Bin Kim, and Jeong Woo Park. "Pulse Electrochemical Meso/Micro/Nano Ultraprecision Machining Technology." Journal of Nanoscience and Nanotechnology 13, no. 11 (2013): 7741–44. http://dx.doi.org/10.1166/jnn.2013.7716.

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27

Lee, Jeong Min, Young Bin Kim, and Jeong Woo Park. "Pulse Electrochemical Meso/Micro/Nano Ultraprecision Machining Technology." Journal of Nanoscience and Nanotechnology 14, no. 5 (2014): 4006. http://dx.doi.org/10.1166/jnn.2014.9210.

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28

Tsuchiya, Toshiyuki, and Satoshi Konishi. "Special issue on transducers and micro-nano technology." Journal of Micromechanics and Microengineering 27, no. 7 (2017): 070301. http://dx.doi.org/10.1088/1361-6439/aa70d4.

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29

Cui, Jianlei. "Special Issue on Laser Micro/Nano Machining Technology." Applied Sciences 12, no. 24 (2022): 13013. http://dx.doi.org/10.3390/app122413013.

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30

Liu, Hailu, Dong Xie, Huayan Shen, Fayong Li, and Junjia Chen. "Functional Micro–Nano Structure with Variable Colour: Applications for Anti-Counterfeiting." Advances in Polymer Technology 2019 (December 8, 2019): 1–26. http://dx.doi.org/10.1155/2019/6519018.

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Colour patterns based on micro-nano structure have attracted enormous research interests due to unique optical switches and smart surface applications in photonic crystal, superhydrophobic surface modification, controlled adhesion, inkjet printing, biological detection, supramolecular self-assembly, anti-counterfeiting, optical device and other fields. In traditional methods, many patterns of micro-nano structure are derived from changes of refractive index or lattice parameters. Generally, the refractive index and lattice parameters of photonic crystals are processed by common solvents, salts
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31

Huan, Yuchun, Kaidi Wu, Changjiu Li, Hanlin Liao, Marc Debliquy, and Chao Zhang. "Micro-nano structured functional coatings deposited by liquid plasma spraying." Journal of Advanced Ceramics 9, no. 5 (2020): 517–34. http://dx.doi.org/10.1007/s40145-020-0402-9.

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Abstract Inspired by the micro-nano structure on the surface of biological materials or living organisms, micro-nano structure has been widely investigated in the field of functional coatings. Due to its large specific surface area, porosity, and dual-scale structure, it has recently attracted special attention. The typical fabrication processes of micro-nano structured coatings include sol-gel, hydrothermal synthesis, chemical vapor deposition, etc. This paper presents the main features of a recent deposition and synthesis technique, liquid plasma spraying (LPS). LPS is an important technical
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32

Sudhanshu, Singh* Sangeeta Shekhawat. "MICRO/NANO-TECHNOLOGY BASED RENEWABLE ENERGY DEVICES AND POSSIBILITIES – A DETAIL AND EXPERIMENTAL ASPECTS." International Journal OF Engineering Sciences & Management Research 3, no. 10 (2016): 1–3. https://doi.org/10.5281/zenodo.162119.

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The covered work covers the state of the art- micro electronics in the area of renewable energy sector. From the literature survey done at various levels, a lot of research done in micro level for benefit nature has been mentioned. As the green chemistry and green environment to be boost with the miniature technology to be used, nano electronics field in terms of use of 1dimensional (quantum dot/nano particle) to 2dimensional (nano wire) to 3 dimensional(nano sphere) to 4dimensional materials (nano origami/bio mimic). A lot of potential at nano level will help in shaping the nature, human kind
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33

Khandekar, Pravin, Kanishka Biswas, Dushyant Kothari, and H. Muthurajan. "Nano Mechanical Properties of Ceramic Polymer Composite Micro Thruster Developed Using 3D Printing Technology." Advanced Science Letters 24, no. 8 (2018): 5884–90. http://dx.doi.org/10.1166/asl.2018.12214.

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Nano and micro satellites, when revolving around the earth, may drift by very small angle from their orbit. But this small angle drift may result in large deviation from their original orbit over a long distance which these satellite covers over a period of time. For the course correction of these satellites, very small thrust is required in specific direction. Normal propulsion system cannot serve this purpose, because the thrust may be too large for these satellites. That’s where the role of micro thrusters becomes important. These are MEMS devices which can produce very small thrust and can
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34

Xu, Xiaofeng, Laifei Cheng, Xiaojiao Zhao, Jing Wang, Ke Tong, and Hua Lv. "Formation and Evolution of Micro/Nano Periodic Ripples on 2205 Stainless Steel Machined by Femtosecond Laser." Micromachines 14, no. 2 (2023): 428. http://dx.doi.org/10.3390/mi14020428.

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The preparation of micro/nano periodic surface structures using femtosecond laser machining technology has been the academic frontier and hotspot in recent years. The formation and evolution of micro/nano periodic ripples were investigated on 2205 stainless steel machined by femtosecond laser. Using single spot irradiation with fixed laser fluences and various pulse numbers, typical ripples, including nano HSFLs (‖), nano LSFLs (⊥), nano HSFLs (⊥) and micro grooves (‖), were generated one after another in one test. The morphologies of the ripples were analyzed, and the underlying mechanisms we
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35

Naito, Makio, Hiroya Abe, and Kazuyoshi Sato. "Nanoparticle Bonding Technology for Composite Materials." Advances in Science and Technology 45 (October 2006): 1704–10. http://dx.doi.org/10.4028/www.scientific.net/ast.45.1704.

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Nanoparticle bonding technology can present a promising method for nano/micro structural controls of composite particles as well as composite materials. The nanoparticle bonding can be well conducted by making use of the unique properties of nanoparticle surface at lower temperature without any binder in dry phase. In this paper, the concept of nanoparticle bonding technology is introduced. The examples of nano/micro structural controls of particles including composite particles and the composite materials are shown.
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36

Wang, Xiaoying, Zhenping Wei, Charles Zuwu Baysah, Meiling Zheng, and Jinfeng Xing. "Biomaterial-based microstructures fabricated by two-photon polymerization microfabrication technology." RSC Advances 9, no. 59 (2019): 34472–80. http://dx.doi.org/10.1039/c9ra05645a.

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Two-photon polymerization (TPP) microfabrication technology can freely prepare micro/nano structures with different morphologies and high accuracy for micro/nanophotonics, micro-electromechanical systems, microfluidics, tissue engineering and drug delivery.
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37

TSUCHIYA, Toshiyuki. "Forecasting the 20th Anniversary of Micro Nano Science and Technology DivisionForecasting the 20th Anniversary of Micro Nano Science and Technology Division." Proceedings of Mechanical Engineering Congress, Japan 2022 (2022): W221–02. http://dx.doi.org/10.1299/jsmemecj.2022.w221-02.

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38

Yang, Haibin, and Zhidong Liu. "Theoretical Modeling of Composite Micro- and Nano-Fiber Devices and Electronic Information Application Research." Journal of Nanomaterials 2022 (May 6, 2022): 1–12. http://dx.doi.org/10.1155/2022/1601136.

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With the continuous development of information science and technology, micro- and nano-fiber optic sensing technology has been widely used in the fields of medicine, communication engineering, and environmental monitoring, and fiber optic devices are widely available in the market because of their advantages such as anti-magnetic interference, corrosion resistance, light weight, high sensitivity, and transmission bandwidth. The purpose of this paper is to investigate the intrinsic correlation between micro- and nano-optical fiber devices and electronic information, introduce the fabrication pr
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39

Yang, Liangliang, Jiangtao Wei, Zhe Ma, et al. "The Fabrication of Micro/Nano Structures by Laser Machining." Nanomaterials 9, no. 12 (2019): 1789. http://dx.doi.org/10.3390/nano9121789.

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Micro/nano structures have unique optical, electrical, magnetic, and thermal properties. Studies on the preparation of micro/nano structures are of considerable research value and broad development prospects. Several micro/nano structure preparation techniques have already been developed, such as photolithography, electron beam lithography, focused ion beam techniques, nanoimprint techniques. However, the available geometries directly implemented by those means are limited to the 2D mode. Laser machining, a new technology for micro/nano structural preparation, has received great attention in r
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40

Sharmile, Nowshin, Risat Rimi Chowdhury, and Salil Desai. "A Comprehensive Review of Quality Control and Reliability Research in Micro–Nano Technology." Technologies 13, no. 3 (2025): 94. https://doi.org/10.3390/technologies13030094.

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This paper presents a comprehensive review of quality control (QC) and reliability research in micro–nano technology, which is vital for advancing microelectronics, biomedical engineering, and manufacturing. Micro- and nanotechnologies operate at different scales, yet both require precise control to ensure the performance and durability of small-scale systems. This review synthesizes key quality control methodologies, including statistical quality control methods, machine learning and AI-driven methods, and advanced techniques emphasizing their relevance to nanotechnology applications. The pap
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41

YOSHINO, Masahiko, and Arata KANEKO. "Nano/Micro Fabrication Technology for Development of Surface Functions." Journal of the Japan Society for Precision Engineering 85, no. 10 (2019): 825–28. http://dx.doi.org/10.2493/jjspe.85.825.

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42

Xie Changqing, 谢常青, 朱效立 Zhu Xiaoli, 牛洁斌 Niu Jiebing, et al. "Micro- and Nano-Metal Structures Fabrication Technology and Applications." Acta Optica Sinica 31, no. 9 (2011): 0900128. http://dx.doi.org/10.3788/aos201131.0900128.

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43

WANG, Liding. "New Developments on Micro-nano Manufacture Technology in China." Chinese Journal of Mechanical Engineering 44, no. 11 (2008): 2. http://dx.doi.org/10.3901/jme.2008.11.002.

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44

Li, Fengsheng, Yi Yang, Tingming Fu, Huaping Bai, and Guodong Deng. "Preparation Technology and Application of Nano-/Micro-meter Composites." China Particuology 1, no. 6 (2003): 271. http://dx.doi.org/10.1016/s1672-2515(07)60009-8.

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45

Henini, M., and J. M. Karam. "Low dimensional structures and devices: micro- and nano-technology." Microelectronics Journal 28, no. 4 (1997): 367–70. http://dx.doi.org/10.1016/s0026-2692(96)00065-1.

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46

Rahman, Mustafizur, A. B. M. A. Asad, T. Masaki, Yoke San Wong, and A. Senthil Kumar. "Compound Micro/Nano Machining – A Tool-Based Innovative and Integrated Approach." Key Engineering Materials 447-448 (September 2010): 9–15. http://dx.doi.org/10.4028/www.scientific.net/kem.447-448.9.

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Compound micro-machining is the most promising technology for the production of miniaturized parts and this technology is becoming more and more important and popular because of growing demand for industrial products with not only increased number of functions but also of reduced dimensions, higher dimensional accuracy and better surface finish. In this paper, the development efforts in micro/nano-machining based on solid tools (tool-based micro/nano-machining) in NUS are introduced. In order to achieve meaningful implementation of micro-machining techniques, this research seeks to address fou
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47

Zhang, Weilin. "Research on the Application of Two-Photon Polymerization Technology in Micro and Nano Manufacturing." Academic Journal of Science and Technology 13, no. 3 (2024): 114–17. https://doi.org/10.54097/jem1zg79.

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Two-photon polymerization (TPP) technology is a crucial technology in the field of micro and nano manufacturing, enabling high precision and high resolution 3D structure manufacturing. This review provides an in-depth analysis of the development and application of TPP technologies, highlighting their transformative impact across multiple sectors. Firstly, it summarizes the research background of TPP technology and its importance in micro and nano manufacturing. It then explores key application areas of TPP technologies, including microphotonics and optoelectronics, biomedical engineering, micr
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48

Le, Xianhao, Xinge Guo, and Chengkuo Lee. "Evolution of Micro-Nano Energy Harvesting Technology—Scavenging Energy from Diverse Sources towards Self-Sustained Micro/Nano Systems." Nanoenergy Advances 3, no. 2 (2023): 101–25. http://dx.doi.org/10.3390/nanoenergyadv3020006.

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Facing the energy consumption of a huge number of distributed wireless Internet of Things (IoT) sensor nodes, scavenging energy from the ambient environment to power these devices is considered to be a promising method. Moreover, abundant energy sources of various types are widely distributed in the surrounding environment, which can be converted into electrical energy by micro-nano energy harvesters based on different mechanisms. In this review paper, we briefly introduce the development of different energy harvesters according to the classification of target energy sources, including microsc
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49

Muldoon, Kirsty, Yanhua Song, Zeeshan Ahmad, Xing Chen, and Ming-Wei Chang. "High Precision 3D Printing for Micro to Nano Scale Biomedical and Electronic Devices." Micromachines 13, no. 4 (2022): 642. http://dx.doi.org/10.3390/mi13040642.

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Three dimensional printing (3DP), or additive manufacturing, is an exponentially growing process in the fabrication of various technologies with applications in sectors such as electronics, biomedical, pharmaceutical and tissue engineering. Micro and nano scale printing is encouraging the innovation of the aforementioned sectors, due to the ability to control design, material and chemical properties at a highly precise level, which is advantageous in creating a high surface area to volume ratio and altering the overall products’ mechanical and physical properties. In this review, micro/-nano p
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50

Chen, Li-Jiun, and Hirokazu Kaji. "Modeling angiogenesis with micro- and nanotechnology." Lab on a Chip 17, no. 24 (2017): 4186–219. http://dx.doi.org/10.1039/c7lc00774d.

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