1)CuPc/C_(60)̪ݼÍ/̼60
2)CuPc̪ݼÍ
1.Studies on the Electrochemical Properies of CuPc;̪ݼ͵ĵ绯ѧÐÔÖÊÑо¿
2.Dual-gate CuPc Organic Thin Film Transistors;˫դ̪ݼÍÓлú±¡Ä¤¾§Ìå¹Ü
3.UPS study of electronic states of CuPc/Ag(110);Ag(110)±íÃæÎü¸½ÌªÝ¼Í·Ö×ÓµÄ×ÏÍâ¹âµç×ÓÆ×Ñо¿
Ó¢ÎĶ̾ä/Àý¾ä
1.The Studies of Ester Substituted Copper Phthalocyanines and Their Composites;õ¥»ùÈ¡´ú̪ݼͼ°Æ临ºÏ²ÄÁϵÄÑо¿
2.Organic Thin Film Transistors Modified by OTS with Different Thicknesses of CuPcOTSÐÞÊεIJ»Í¬ºñ¶È̪ݼÍOTFTµÄÑо¿
3.Study on Performances of OFET Based Copper Phthalocyanine;̪ݼÍÓлú³¡Ð§Ó¦¾§Ìå¹ÜÆ÷¼þÐÔÄܵÄÑо¿
4.Copper(¢ò) Phthalocyanine Tetrasulfonate Sensitized Nanocrystalline Titania Photocatalyst: In-situ Synthesis and Photocatalysis under Visible Light;̪ݼÍÃô»¯ÄÉÃ×TiO_2¹â´ß»¯¼ÁµÄÔλºÏ³É¼°Æä¿É¼û¹â´ß»¯ÐÔÄÜÑо¿
5.SYNTHESIS OF BONDED STATIONARY PHASE OF SULFONATED COPPER PHTHALOCYANINE-SILICA AND ITS APPLICATION TO THE PYRIMIDINE NUCLEOSIDES AND THEIR BASES;̪ݼ͹轺¹Ì¶¨ÏàµÄºÏ³É¼°ÔÚà×ऺËÜÕ·ÖÎöÖеÄÓ¦ÓÃ
6.The Research on the Preparation and Properties of Hybrid Semiconducting Gas Sensing Materails Based on Copper Phthalocyanine and Inorganic Metal Oxide̪ݼ͡ªÎÞ»úÑõ»¯Î︴ºÏ°ëµ¼ÌåÆøÃô²ÄÁϵÄÖƱ¸¼°ÆäÐÔÄÜÑо¿
7.Preparation and catalytic propeties of polymeric crown ether-phthalocyanine dinuclear metal complexes¸ß·Ö×Ó̪ݼÍ-¹ÚÃÑÄÆË«½ðÊôÅäºÏÎïµÄÖƱ¸¼°´ß»¯ÐÔÄÜÑо¿
8.Preparation and gas sensitive properties of polyaniline/copper phthalocyanine organic semiconductor hybrid material¾Û±½°·/̪ݼÍÓлú°ëµ¼ÌåÔÓ»¯²ÄÁϵÄÖƱ¸¼°ÆøÃôÐÔÄÜ
9.Preparation and characterization of PANI/CuTsPc composite thin films by layer-by-layer self-assembly¾Û±½°·/»Ç»¯ÌªÝ¼Í×Ô×é×°¸´ºÏ±¡Ä¤µÄÖƱ¸Óë±íÕ÷
10.Monte Carlo Simulation of Dose-distribution Nearby Au-CuPc and ¦Ã-Ray Shield for Neutron Element Analysis½ð¡ªÌªÝ¼Í½çÃ渽½ü¼ÁÁ¿·Ö²¼ºÍÖÐ×ÓÔªËØ·ÖÎöÖЦÃÉäÏßÆÁ±ÎµÄÃÉ¿¨Ä£Äâ
11.Disolution of Copper Phthalocyanine and Fabrication of Its Nano-Structure FilmsÍ̪ݼµÄÈܽ⼰ÄÉÃ×Í̪ݼ±¡Ä¤µÄÖƱ¸
12.Structure of phthalocyanine, crystal form of Cu-phthalocyanne, its conversion of crystal form and pigmentation are described.½éÉÜÁË̪ݼ½á¹¹£¬ÍËáݼµÄ¾§ÐÍ£¬Í̪ݼµÄ¾§ÐÍת»¯ºÍÑÕÁÏ»¯´¦Àí£¬ÒÔ¼°ÌªÝ¼ÂÌÑÕÁϵȡ£
13.Copper phthalocyanine production enterprises in the production process of wastewater treatmentÍ̪ݼÉú²úÆóÒµÉú²ú¹ý³ÌÖеķÏË®ÖÎÀí̽ÌÖ
14.An Investigation on Pigmentation of Vat Pigment and Surface Modification, Microencapsulation of Copper Phthalocyanine;»¹ÔÑÕÁϵÄÑÕÁÏ»¯¼°Í̪ݼÑÕÁϱíÃæ¸ÄÐÔ¡¢Î¢½ºÄÒ»¯µÄÑо¿
15.Study on Photoelectric Conversion Characteristics of Cuprum Phthalocyanine/Perylene Diimide Molecular Systems;Í̪ݼ¡ªÆp¶þõ£ÑÇ°··Ö×ÓÌåϵµÄ¹âµçת»»ÌØÐÔÑо¿
16.Fabrication and Characterization of Copper Phthalocyanine Oligomers Nanoparticles;ôÈ»ù¾ÛºÏÍ̪ݼ£¨O-CuPc£©ÄÉÃ׿ÅÁ£µÄÖƱ¸¼°ÐÔÄÜÑо¿
17.X-ray diffraction investigations of well-ordered copper phthalocyanine films deposited on flexible ITO substrateÈáÐÔITO³Äµ×ÉÏÍ̪ݼ±¡Ä¤ÓÐÐòÉú³¤µÄXÉäÏßÑÜÉäÑо¿
18.Influence of copper phthalocyanine and buckminsterfullerene blend layer on photovoltaic properties of flexible solar cellsÍ̪ݼÓ븻ÀÕÏ©¹²»ì²ã¶ÔÈáÐÔ±¡Ä¤Ì«Ñôµç³Ø¹â·üÐÔÄܵÄÓ°Ïì
Ïà¹Ø¶Ì¾ä/Àý¾ä
CuPc̪ݼÍ
1.Studies on the Electrochemical Properies of CuPc;̪ݼ͵ĵ绯ѧÐÔÖÊÑо¿
2.Dual-gate CuPc Organic Thin Film Transistors;˫դ̪ݼÍÓлú±¡Ä¤¾§Ìå¹Ü
3.UPS study of electronic states of CuPc/Ag(110);Ag(110)±íÃæÎü¸½ÌªÝ¼Í·Ö×ÓµÄ×ÏÍâ¹âµç×ÓÆ×Ñо¿
3)Copper phthalocyanineÍ̪ݼ
1.Microwave assisted synthesis of copper phthalocyanine and fluorimetric determination of trace nitrite;΢²¨ºÏ³ÉÍ̪ݼ¼°Ó«¹ââ§Ãð²â¶¨ºÛÁ¿ÑÇÏõËá¸ùÀë×ÓµÄÑо¿
2.Study on the treatment of copper phthalocyanine wastewater with A/O-contact oxidation after physicochemical treatment;Îﻯ´¦ÀíºóµÄÍ̪ݼ·ÏË®A/OÉúÎï½Ó´¥Ñõ»¯Ñо¿
3.Solid phase synthesis and thermogravimetry of copper phthalocyanine;¹ÌÏà·¨ºÏ³ÉÍ̪ݼ¼°ÈÈÎȶ¨ÐÔ·ÖÎö
4)copper phthalocyanine̪ݼÍ
1.Preparation,characterization and properties of cobalt and copper phthalocyanine bonded to MCM-41;MCM-41/̪ݼîÜ¡¢ÌªÝ¼ÍµÄºÏ³É¡¢±íÕ÷¼°´ß»¯ÐÔÖÊ
2.Preparation and gas sensitive properties of polyaniline/copper phthalocyanine organic semiconductor hybrid material¾Û±½°·/̪ݼÍÓлú°ëµ¼ÌåÔÓ»¯²ÄÁϵÄÖƱ¸¼°ÆøÃôÐÔÄÜ
3.The linear absorption spectrum of copper phthalocyanine (CuPc) thin film was measured, and the third order nonlinear optical susceptibility ¦Ö (3) was studied as well.Ñо¿ÁË̪ݼͱ¡Ä¤µÄÎüÊÕ¹âÆ׺ͷÉÃëÈý½×·ÇÏßÐÔ¹âѧ¼«»¯ÂÊ ¦Ö( 3 ) ¡£
5)Phthalocyanine copper̪ݼÍ
1.Studies on salicylate-selective electrode based on phthalocyanine copper as a neutral carrier;»ùÓÚË«ºË̪ݼÍΪÖÐÐÔÔØÌåµÄË®ÑîËá¸ùÑ¡ÔñÐԵ缫µÄÑо¿
2.Presently the development of the reactor for continuous solid phase condensation should be promoted while the production for phthalocyanine copper is being emphasized with alkyl benzene as solvent.½ØÖ¹1997Äêµ×,ÎÒ¹ú̪ݼ͵ÄÉú²úÄÜÁ¦ÒÑ´ï2¡£
3.The pigment phthalocyanine copper was treated with sodium oleate in the aqueous solution to develop stable dispersion system.±¾ÎIJÉÓÃÓÍËáÄƶÔÓлúÑÕÁÏ̪ݼͽøÐиÄÐÔ,½á¹û±íÃ÷ÓÍËáÄƿɽµµÍÁ£×ÓZetaµçλ,²¢ÓÐЧµ÷¿ØÓлúÑÕÁÏ̪ݼÀ¶µÄÁ£×ӳߴ缰ÐÎò¡£
6)Copper phthalocyanine (CuPc)̪ݼÍ
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