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臺灣學術機構典藏系統 (Taiwan Academic Institutional Repository, TAIR)
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Institution Date Title Author
國立成功大學 2023-06-20 Methylboronic acid MIDA ester (ADM) as an effective additive in electrolyte to improve cathode electrolyte interlayer performance of LiNi0.8Co0.15Al0.05O2 electrode Chen;Bo-Xun;Brahma;Sanjaya;Chen;Yu-Qi;Huang;Po-Chia;Chang;Chia-Chin;Huang;Jow-Lay
國立成功大學 2023-06-15 Effect of Mo-addition over a large enhancement of the hydrogen evolution reaction in WC/rGO nanocomposite Fang;Li-Wen;Brahma;Sanjaya;Shen;Yu-Min;Wang;Sheng-Chang;Huang;Jow-Lay
國立成功大學 2023-02-1 Combined Effects of Citric Acid and Ascorbic Acid Used As Low-Temperature Surface Modifiers to Enhance the Cyclability of Si Anode in an Li-Ion Battery Chang;Hung-Ying;Brahma;Sanjaya;Hou;Shang-Chieh;Chang;Chia-Chin;Huang;Jow-Lay
國立成功大學 2022-12 Zn dots coherently grown as the seed and buffer layers on Si(111) for ZnO thin film: Mechanism, in situ analysis, and simulation Chen;Wei-Ting;Fang;Pei-Cheng;Chen;Yen-Wei;Chiu;Shang-Jui;Ku;Ching-Shun;Brahma;Sanjaya;Lo;Kuang-Yao
國立成功大學 2022-08-1 Enhanced piezoelectric coefficient and the piezoelectric nanogenerator output performance in Y-doped ZnO thin films Cheng;Li-Cheng;Brahma;Sanjaya;Huang;Jow-Lay;Liu;Chuan-Pu
國立成功大學 2022-06-1 Molybdenum carbide (Mo2C) and reduced graphene oxide (rGO) nano-composites as an efficient electrocatalyst for water splitting Lee;Yu-Hsuan;Brahma;Sanjaya;Huang;Po-Chia;Wang;Sheng-Chang;Huang;Jow-Lay
國立成功大學 2022-02-1 Mo-Doped SnO2 Quantum Dots Dispersed Over Reduced Graphene Oxide Sheets as an Efficient Anode Material Huang;Yong-Cun;Brahma;Sanjaya;Chang;Chia-Chin;Huang;Jow-Lay
國立成功大學 2021-10-30 Cu-doped p-type ZnO nanostructures as unique acetone sensor at room temperature (similar to 25 degrees C) Brahma;Sanjaya;Yeh;Yu-Wen;Huang;Jow-Lay;Liu;Chuan-Pu
國立成功大學 2021-10 Review on ZnO-based piezotronics and piezoelectric nanogenerators: aspects of piezopotential and screening effect Pandey;Kumar, Rajiv;Dutta;Jit;Brahma;Sanjaya;Rao;Bruno;Liu;Chuan-Pu
國立成功大學 2021-09-15 Room temperature synthesis of SiOx/rGO composite as anode material in lithium ion battery Brahma;Sanjaya;Lin;Y, -P.;Tung;S, -J.;Chang;Chia-Chin;Huang;Jow-Lay
國立成功大學 2021-07-7 Synergistic effects of Ga doping and Mg alloying over the enhancement of the stress sensitivity of a Ga-doped MgZnO pressure sensor Lee;Han, Ping;Brahma;Sanjaya;Dutta;Jit;Huang;Jow-Lay;Liu;Chuan-Pu
國立成功大學 2021-02-1 Petroleum waste hydrocarbon resin as a carbon source modified on a Si composite as a superior anode material in lithium ion batteries Chung;Wen-Ya;Brahma;Sanjaya;Hou;Shang-Chieh;Chang;Chia-Chin;Huang;Jow-Lay
國立成功大學 2021-01 Competitive effect of dopant concentration and the size of the nanorods over the electron phonon coupling in Cd doped ZnO nanorod arrays Brahma;Sanjaya;Lee;Ping-Han;Chen;Hsin-Hung;Lee;Chinghuan, Alex;Huang;Jow-Lay
國立成功大學 2020-09 Fabrication of flexible UV-B photodetectors made of MgxZn1-xO films on PI substrate for enhanced sensitivity by piezophototronic effect Shiau;Jr-Shiang;Brahma;Sanjaya;Huang;Jow-Lay;Liu;Chuan-Pu
國立成功大學 2020-08 Multi-Layer Graphene/SnO2 Nanocomposites as Negative Electrode Materials for Lithium-Ion Batteries Hou;Chau-Chung;Brahma;Sanjaya;Weng;Shao-Chieh;Chang;Chia-Chin;Huang;Jow-Lay
國立成功大學 2020-03-25 Reduced graphene oxide (RGO)-SnOx (x=0,1,2) nanocomposite as high performance anode material for lithium-ion batteries Wu;Yi-Zhu;Brahma;Sanjaya;Weng;Shao-Chieh;Chang;Chia-Chin;Huang;Jow-Lay
國立成功大學 2020-03-1 Enhanced capacity and significant rate capability of Mn3O4/reduced graphene oxide nanocomposite as high performance anode material in lithium-ion batteries Weng;Shao-Chieh;Brahma;Sanjaya;Huang;Po-Chia;Huang;Yong-Cun;Lee;Yu-Hsuan;Chang;Chia-Chin;Huang;Jow-Lay
國立成功大學 2019-11-30 Microstructure and piezoelectric properties of hexagonal MgxZn1-xO/ZnO films at lower Mg compositions Chen;Hsin-Hung;Brahma;Sanjaya;Liu;Chuan-Pu;Huang;Jow-Lay
國立成功大學 2019-04 Synthesis of self-assembled Hollow-Sphere ZnO/rGO Nanocomposite as Anode Materials for Lithium-Ion Batteries Weng;Shao-Chieh;Brahma;Sanjaya;Chang;Chia-Chin;Huang;Jow-Lay
國立成功大學 2019-01-29 Strong correlation between optical properties and mechanism in deficiency of normalized self-assembly ZnO nanorods Chang;Feng-Ming;Brahma;Sanjaya;Huang;Jing-Heng;Wu;Zong-Zhe;Lo;Kuang-Yao
國立成功大學 2019-01 Recent progress in microstructure development of inorganic one-dimensional nanostructures for enhancing performance of piezotronics and piezoelectric nanogenerators Gupta;Kapil;Brahma;Sanjaya;Dutta;Jit;Rao;Bruno;Liu;Chuan-Pu
國立成功大學 2018-11-10 Enhanced response and selectivity of H2S sensing through controlled Ni doping into ZnO nanorods by using single metal organic precursors Modaberi;Roshanzamir, Matin;Rooydell;Reza;Brahma;Sanjaya;Akande;Amos, Amos A.;Mwakikunga;Bonex, W.;Liu;Chuan-Pu
國立成功大學 2018-10 Migration Energy Barriers for the Surface and Bulk of Self-Assembly ZnO Nanorods Chang;Feng-Ming;Wu;Zhong-Zhe;Huang;Jing-Heng;Chen;Wei-Ting;Brahma;Sanjaya;Lo;Yao, Kuang
臺大學術典藏 2018-09-10T05:15:27Z Transgenic tomato plants expressing an Arabidopsis thionin (Thi2.1) driven by fruit-inactive promoter battle against phytopathogenic attack Chan, Y.-L.;Prasad, V.;Sanjaya,;Kuei, H.C.;Po, C.L.;Chan, M.-T.;Cheng, C.-P.; Chan, Y.-L.; Prasad, V.; Sanjaya,; Kuei, H.C.; Po, C.L.; Chan, M.-T.; Cheng, C.-P.; CHIU-PING CHENG
國立成功大學 2018-04-15 The optical response of ZnO nanorods induced by oxygen chemisorption and desorption Brahma;Sanjaya;Yang;Chi-Wei;Wu;Chiu-Hsin;Chang;Feng-Ming;Wu;Tsung-Jhe;Huang;Chien-Sheng;Lo;Kuang-Yao
國立成功大學 2017-12-25 Enhancement of the piezoelectric coefficient in hexagonal MgxZn1-xO films at lower Mg compositions Chen;Ju, Yi;Brahma;Sanjaya;Liu;Pu, Chuan;Huang;Jow-Lay
國立成功大學 2017-11 Novel hybrid transition metal complexes of diaquabis(acetylacetonato-kappa(2)o,o')[nickel(II)/zinc (II)] as solid metal-organic precursors: Synthesis, properties and magnetic response Modaberi;Roshanzamir, Matin;Brahma;Sanjaya;Rooydell;Reza;Wang;Ruey-Chi;Liu;Chuan-Pu
國立成功大學 2017-10-11 Microwave irradiation assisted, one pot synthesis of simple and complex metal oxide nanoparticles: a general approach Brahma;Sanjaya;Liu;Chuan-Pu;Shivashankar;S, A.
國立成功大學 2017-08-15 Facile, low temperature synthesis of SnO2/reduced graphene oxide nanocomposite as anode material for lithium-ion batteries Hou;Chau-Chung;Brahma;Sanjaya;Weng;Shao-Chieh;Chang;Chia-Chin;Huang;Jow-Lay
國立成功大學 2017-05-4 Epitaxial Zn quantum dots coherently grown on Si(111): growth mechanism, nonlinear optical and chemical states analyses Huang;Bo-Jia;Kao;Li-Chi;Brahma;Sanjaya;Jeng;Yu-En;Chiu;Shang-Jui;Ku;Ching-Shun;Lo;Kuang-Yao
國立成功大學 2017-04-15 Synthesis of MnOx/reduced graphene oxide nanocomposite as an anode electrode for lithium-ion batteries Weng;Shao-Chieh;Brahma;Sanjaya;Chang;Chia-Chin;Huang;Jow-Lay
國立成功大學 2017-01-15 Cu doped ZnO nanorods with controllable Cu content by using single metal organic precursors and their photocatalytic and luminescence properties Rooydell;Reza;Brahma;Sanjaya;Wang;Ruey-Chi;Modaberi;Roshanzamir, Matin;Ebrahimzadeh;Farzaneh;Liu;Chuan-Pu
國立臺灣大學 2011 Tomato RAV Transcription Factor Is a Pivotal Modulator Involved in the AP2/EREBP-Mediated Defense Pathway Li, Chia-Wen; Su, Ruey-Chih; Cheng, Chiu-Ping; Sanjaya; You, Su-Juan; Hsieh, Tsai-Hung; Chao, To-Chun; Chan, Ming-Tsair
國立臺灣大學 2011 Tomato RAV Transcription Factor Is a Pivotal Modulator Involved in the AP2/EREBP-Mediated Defense Pathway Li, Chia-Wen; Su, Ruey-Chih; Cheng, Chiu-Ping; Sanjaya; You, Su-Juan; Hsieh, Tsai-Hung; Chao, To-Chun; Chan, Ming-Tsair
臺大學術典藏 2011 Tomato RAV Transcription Factor Is a Pivotal Modulator Involved in the AP2/EREBP-Mediated Defense Pathway Li, Chia-Wen;Su, Ruey-Chih;Cheng, Chiu-Ping;Sanjaya;You, Su-Juan;Hsieh, Tsai-Hung;Chao, To-Chun;Chan, Ming-Tsair; Li, Chia-Wen; Su, Ruey-Chih; Cheng, Chiu-Ping; Sanjaya; You, Su-Juan; Hsieh, Tsai-Hung; Chao, To-Chun; Chan, Ming-Tsair
國立臺灣大學 2010 A tomato bZIP transcription factor, SlAREB, is involved in water deficit and salt stress response Hsieh, Tsai-Hung; Li, Chia-Wen; Su, Ruey-Chih; Cheng, Chiu-Ping; Sanjaya; Tsai, Yi-Chien; Chan, Ming-Tsair
國立臺灣大學 2010 A tomato bZIP transcription factor, SlAREB, is involved in water deficit and salt stress response Hsieh, Tsai-Hung; Li, Chia-Wen; Su, Ruey-Chih; Cheng, Chiu-Ping; Sanjaya; Tsai, Yi-Chien; Chan, Ming-Tsair
東方設計學院 2006-01 以 cDNA 微矩陣的方法建立大量篩檢基因改造食品(GMOs)的模式 Chen, Tzy-Li; 陳姿利; SANJAYA; Venkatesh PRASAD; Lee, Ching-Hua; Lin, Kuang-Hung; Chiueh, Lih-Ching; Chan, Ming-Tsair; (東方技術學院食品科技系)
中國文化大學 2006-01 Validation of cDNA Microarray as a Prototype for Throughput Detection of GMOs 陳姿利; Sanjaya; Venkatesh Prasad; 李慶華; 林冠宏; 闕麗卿; 詹明才
東方設計學院 2006 Validation of cDNA microarray as a prototype for throughput detection of GMOs 陳姿利; Chen, Tzy-Li; SANJAYA; Venkatesh PRASAD; Ching-Hua Lee; Kuang-Hung Lin; Lih-Ching Chiueh; Ming-Tsair Chan; (東方技術學院食品科技系)
國立高雄師範大學 2005-06 Gene stacking in Phalaenopsis orchid enhances dual tolerance to pathogen attack 廖麗貞; Yuan-Li Chan;Kuang-Hung Lin;Sanjaya;Wen-Huei Chen;Ming-Tsair Chan;Li-Jen Liao
中國文化大學 2005 Gene stacking in Phalaenopsis orchid enhances dual tolerance to pathogen attack Chan, Y.L. ; Lin, K.H. ; Sanjaya; Liao, L.J. ; Chen, W.H. ; Chan, M.T.

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