ICALEO 2005 Paper #M802 (Laser Microtechnologies for Passive Elements of Electronic Circuits)
Laser Microtechnologies for Passive Elements of Electronic Circuits
Authors:
Ryszard Pawlak, Technical University of Lodz, Division of Materials Science & Electrotechnology; Lodz Poland
Franciszek Kostrubiec, Technical University of Lodz, Division of Materials Science & Electrotechnology; Lodz Poland
Maria Walczak, Technical University of Lodz, Division of Materials Science & Electrotechnology; Lodz Poland
Mariusz Tomczyk, Technical University of Lodz, Division of Materials Science & Electrotechnology; Lodz Poland
Presented at ICALEO 2005
Varied innovative laser-technologies introduced to manufacturing process of electronic circuits and devices were applie...$28.00
ICALEO 2005 Paper #M801 (Direct Fabrication of Conductive Lines and Resistors on Insulator Boards by Laser Micro-Cladding Electronic Pastes (Invited Paper))
Direct Fabrication of Conductive Lines and Resistors on Insulator Boards by Laser Micro-Cladding Electronic Pastes (Invited Paper)
Authors:
Xiaoyan Zeng, National Engineering Research Center for Laser Processing; Wuhan Peoples Republic of China
Xiangyou Li, National Engineering Research Center for Laser Processing, Huazhong University; Wuhan China
Presented at ICALEO 2005
The technique of laser direct writing has attracted a wide interest in the past ten years because it is a rapid and direct fabrication technique to manufacture the component prototype with small and even micro sizes and without needing masks. Different direct writing methods, such as laser induced chemical vapor d...$28.00
ICALEO 2005 Paper #M708 (Nanometer Ablation and Precision Processing Control Using NSOM-Delivered Femtosecond Laser Pulses)
Nanometer Ablation and Precision Processing Control Using NSOM-Delivered Femtosecond Laser Pulses
Authors:
Chen-Hsiung Cheng, Panasonic Boston Laboratory; Cambridge MA USA
Ming Li, Panasonic Boston Laboratory; Cambridge MA USA
Presented at ICALEO 2005
We have been developing a combined technique of using ultra-fast laser in conjunction with fiber-probe delivery to ablate substrate surface in near-field region. Often it is found too difficult to do an in-situ nanometer machining on a pre-formed nanometer structure using traditional optical microscope due to resolution limited by fundamental diffraction limit. Therefore a processing method with nanometer metrology that can be applied...$28.00
ICALEO 2005 Paper #M707 (Continuous Production and Online-Characterization of Nanoparticles from Ultrafast Laser Ablation and Laser Cracking)
Continuous Production and Online-Characterization of Nanoparticles from Ultrafast Laser Ablation and Laser Cracking
Authors:
Stephan Barcikowski, Laser Zentrum Hannover e.V.; Hannover Germany
Niko Baersch, Laser Zentrum Hannover e.V.; Hannover Germany
Michael Hustedt, Laser Zentrum Hannover e.V.; Hannover Germany
Ramin Sattari, Laser Zentrum Hannover e.V.; Hannover Germany
Andreas Ostendorf, Laser Zentrum Hannover e.V.; Hannover Germany
Presented at ICALEO 2005
Nano-particulate materials and composites show a remarkable nanoproduct market share of 23% with a volume of 17 billion USD in 2002. Compared to conventional nanoparticle production tec...$28.00
ICALEO 2005 Paper #M706 (Laser Sintering of Silver Nano-Particle Inks Deposited by Direct Write Technology)
Laser Sintering of Silver Nano-Particle Inks Deposited by Direct Write Technology
Authors:
Jacob Colvin, South Dakota School of Mines & Technology; Rapid City South Dakota USA
Oleg Starovoytov, South Dakota School of Mines & Technology; Rapid City South Dakota USA
James Sears, South Dakota School of Mines & Technology; Rapid City SD USA
Jan Puszynski, South Dakota School of Mines & Technology; Rapid City South Dakota USA
Michael Carter, South Dakota School of Mines & Technology; Rapid City South Dakota USA
Presented at ICALEO 2005
Direct Write Technologies are being used in antennas, engineered structures, sensors, and tissue engineering. Man...$28.00
ICALEO 2005 Paper #M705 (Laser Thin Film Deposition on Plastic Substrates using Silicon Nanoparticles for Flexible Electronics)
Laser Thin Film Deposition on Plastic Substrates using Silicon Nanoparticles for Flexible Electronics
Authors:
Sachin Bet, University of Central Florida/ School of Optics and Photonics CREOL; Orlando Florida USA
Aravinda Kar, University of Central Florida/ CREOL; Orlando Florida USA
Nathaniel Quick, AppliCote Associates, LLC.; Orlando Florida USA
Presented at ICALEO 2005
The melting temperature of silicon nanoparticles decreases significantly compared to the melting temperature of bulk silicon when the particle size is less than 5 nm. This concept is utilized for reducing the processing temperatures to deposit thin polycrystalline silicon (c-Si) films on plastic substr...$28.00
ICALEO 2005 Paper #M704 (Catalyst Deposition and Carbon Nanotubes Growth by Laser-Assisted Chemical)
Catalyst Deposition and Carbon Nanotubes Growth by Laser-Assisted Chemical
Authors:
J. Shi, University of Nebraska-Lincoln; Lincoln NE USA
K. Tan, University of Nebraska-Lincoln; Lincoln NE USA
X.W. Wang, University of Nebraska-Lincoln; Lincoln NE USA
Yongfeng Lu, University of Nebraska-Lincoln; Lincoln NE USA
Presented at ICALEO 2005
With the recent advances of the aligned growth of carbon nanotubes (CNTs), there are great interests in CNT based field-emission and MOS transistor applications. However, techniques of deposition of catalysts and growth of carbon nanotubes at desired position are still not fully developed. In this study, we will report a meth...$28.00
ICALEO 2005 Paper #M703 (Carbon Nanotube-Based Coatings for Laser Power and Energy Measurements)
Carbon Nanotube-Based Coatings for Laser Power and Energy Measurements
Authors:
John Lehman, NIST; Boulder CO USA
Presented at ICALEO 2005
The optical properties of carbon nanotubes (CNTs) have been investigated in the interest of creating thermal absorbers and advanced coatings for various laser power and energy measurement applications. We present an overview of the desirable optical, thermal and damage properties of carbon nanotubes and propose CNT-based coatings as the next generation of radiometric standards for laser power and energy measurements. In addition we will present the processes by which we have grown CNTs and the extent to which they may be compatible with thermal detectors. Ge...$28.00
ICALEO 2005 Paper #M701 (Laser Synthesis of Aligned ZnO Nano Crystals for Large Area UV Emitter (Keynote Presentation))
Laser Synthesis of Aligned ZnO Nano Crystals for Large Area UV Emitter (Keynote Presentation)
Authors:
Tatsuo Okada, Kyushu University; Hakozaki, Fukuoka Japan
Presented at ICALEO 2005
Zinc oxide (ZnO) is one of the most promising material suitable for generating ultraviolet (UV) light. UV stimulated emission from optically-pumped nano-wire-array has been reported by many research groups. Recently it has been reported that nano-structured ZnO crystals also show the good field emission characteristics. A various method has been applied to grow ZnO crystals. We have succeeded in growing large quantities of ZnO nanorods by a newly developed nano-particle-assisted PLD (NAPLD) without using any cat...$28.00
ICALEO 2005 Paper #M605 (Laser Fabricated Porous Coating on NiTi Shape Memory Alloy)
Laser Fabricated Porous Coating on NiTi Shape Memory Alloy
Authors:
Hau Chung Man, Laser Processing Group, Advanced Manufacturing Technology Research Centre; Kowloon Hong Kong
Presented at ICALEO 2005
Laser surface alloying technique was applied to syntheses a porous coating on NiTi shape memory alloy. The pores are uniformly distributed and are interconnected with each other in the coating. An average pore size of less than 10 micron was achieved. The porous coating is metallurgically bonded to the substrate NiTi alloy. The microstructure and corrosion properties of the coating will be discussed and compared with that of the laser gas nitrided layer. The possibility of applying the alloy with ...$28.00
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