公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
---|---|---|---|---|---|---|
2005 | 5nm ruthenium thin film as a directly plateable copper diffusion barrier | T. N. Arunagiri; Y. Zhang; O. Chyan; M. El-Bounani; M. J. Kim; C. T. Wu; L. C. Chen ; K. H. Chen | Applied Physics Letters | 0 | 0 | |
2007 | A 1.8V 165mW Discrete Wavelet Multitone Baseband Receiver for Cognitive Radio Applications | K. H. Chen; T. D. Chiueh; TZI-DAR CHIUEH | IEEE ISSCC | 2 | 0 | |
2008 | A Cognitive Radio System using Discrete Wavelet Multi-Tone Modulation | K. H. Chen; T. D. Chiueh; TZI-DAR CHIUEH | IEEE Transactions on Circuits and Systems I | 18 | 13 | |
2006 | A Low-Power Digit-Based Reconfigurable FIR Filter | K. H. Chen; T. D. Chiueh; TZI-DAR CHIUEH | IEEE Circuits and Systems II | 125 | 81 | |
2007 | Adaptive filter with GSPT LMS algorithm for reducing complexity | T. D. Chiueh; J. N. Chen; K. H. Chen; TZI-DAR CHIUEH | ||||
2005 | The affinity of Si–N and Si–C bonding in amorphous silicon carbon nitride (a-SiCN) thin film | C. W. Chen; C. C. Huang; Y. Y. Lin; L. C. Chen ; K. H. Chen | Diamond and Related Materials | 0 | 0 | |
2004 | Amorphous boron carbon nitride as a pH sensor | C. L. Li; B. R. Huang; S. Chattopadhyay; K. H. Chen; L. C. Chen | Applied Physics Letters | 0 | 0 | |
2002 | The Analyses on the Surface Properties of the Annealed-diamond Membrane | B. R. Huang; L. C. Chen ; K. H. Chen | Materials Science and Engineering: B | 1 | 1 | |
1999 | Architectural Design of Neural Network Hardware for Job Shop Scheduling | P.B. Luh; X. Zhao; L. S. Thakur; K. H. Chen; T. D. Chiueh; S. C. Chang; TZI-DAR CHIUEH | CIRP Annals | 6 | 0 | |
2003 | Band-gap dependence of field emission from one-dimensional nanostructures grown on n-type and p-type silicon substrates | C. S. Chang; S. Chattopadhyay; L. C. Chen ; K. H. Chen; C. W. Chen; Y. F. Chen; R. Collazo; Z. Sitar | Physical review B | 0 | 0 | |
2004 | Blueshift of Yellow Luminescence Band in Self-Ion Implanted n-GaN Nanowires | S. Dhara; A. Datta; Z. H. Lan; K. H. Chen; Y. L. Wang; C. H. Shen; L. C. Chen ; C. W. Hsu; H. M. Lin; C. C. Chen | Applied Physics Letters | 0 | 0 | |
2001 | Bonding Characterization and Nano-indentation Study of Amorphous SiCxNy Films with and without Hydrogen Incorporation | H. C. Lo; J.-J. Wu; C. Y. Wen; T. S. Wong; S. T. Lin; K. H. Chen; L. C. Chen | Diamond and Related Materials | 0 | 0 | |
2002 | Bonding characterization, density measurement, and thermal diffusivity studies of amorphous silicon carbon nitride and boron carbon nitride thin films | S. Chattopadhyay; L. C. Chen ; S. C. Chien; S. T. Lin; K. H. Chen | Journal of Applied Physics | 0 | 0 | |
2001 | Carbon Nanotubes Growth by Rapid Thermal Processing | T. S. Wong; C. T. Wang; K. H. Chen; L. C. Chen ; K. J. Ma | Diamond and Related Materials | 0 | 0 | |
2001 | Catalyst-free and controllable growth of SiCxNy nanorods | L. C. Chen ; S. W. Chang; C. S. Chang; C. Y. Wen; J-J. Wu; Y. F. Chen; Y. S. Huang; K. H. Chen | Journal of Physics and Chemistry of Solids | 0 | 0 | |
2001 | Catalytic Growth and Characterization of Gallium Nitride Nanowires | C. C. Chen; C. C. Yeh; C. H. Chen; M. Y. Yu; H. S. Liu; J. J. Wu; K. H. Chen; L. C. Chen ; J. Y. Pong; Y. F. Chen | Journal of the American Chemical Society | 0 | 0 | |
2003 | Controlled Growth of Silicon Carbide Nanorods by Rapid Thermal Process and Their Field Emission Properties | T. H. Yang; C. H. Chen; A. Chatterjee; H. Y. Li; J. T. Lo; C. T. Wu; K. H. Chen; L. C. Chen | Chemical Physics Letters | 0 | 0 | |
2002 | Controlling Steps During Early Stages of the Aligned Growth of Carbon Nanotubes Using Microwave Plasma Enhanced Chemical Vapor Deposition | L. C. Chen ; C. Y. Wen; C. H. Liang; W. K. Hong; K. J. Chen; H. C. Cheng; C. S. Shen; C. T. Wu; K. H. Chen | Advanced Functional Materials | 0 | 0 | |
2002 | Correlation of Electrical, Thermal and Structural Properties of Microcrystalline Silicon Thin Films | D. Das; M. Jana; A. K. Barua; S. Chattopadhyay; L. C. Chen ; K. H. Chen | Japanese Journal of Applied Physics | 16 | 19 | |
1999 | Crystalline SixCyNz with a Direct Optical Band Gap of 3.8 eV | L. C. Chen ; D. M. Bhusari; K. H. Chen; Y. F. Chen; Y. S. Huang |