imprinting technique 中文意思是什麼

imprinting technique 解釋
圖案花紋壓印工藝
  • imprinting : n. 【心理學】銘記〈動物生命早期即起作用的一種學習機制〉。
  • technique : n. 1. (專門)技術;(藝術上的)技巧,技能。2. 手法〈如畫法,演奏法等〉。3. 方法。
  1. Using molecular imprinting method, the 1, 3 - dimethylxanthine theophylline, tho molecular recognition membranes, containing an segments as membrane formation sites and aa segments as functional sites, were prepared by the phase inversion technique. here, tho was selected as a template molecule. the hydrogen bonding between aa segments and the tho templates was measured by ft - ir and nmr. the tho templates can be removed from the membrane through washing with acetic acid aqueous solution. the permeation of tho through the membranes is far more than that of 1, 3, 7 - trimethylxanthine caffeine, caf, which demonstrated the function of tho molecular recognition of the membrane. the results also show that the increase of the tho templates concentration in the cast solution caused an increase of tho amounts taken into the copolymer membrane

    Ft - ir及nmr測試結果表明:制備的高分子膜中, tho模板分子和膜中的丙烯酸功能殘基存在著氫鍵鍵合作用。大量的極性醋酸水溶液可抽出膜中的模板分子。 tho溶液和與模板分子具有相似結構的1 , 3 , 7 -三甲基黃嘌呤咖啡因, caf溶液的基質透過實驗結果:進入膜結構中tho分子的量遠大於caf分子,這表明制備的高分子膜具有tho分子識別功能。
  2. Analysis of sampled fiber grating and its imprinting technique

    取樣光纖光柵的理論分析及其寫入技術
  3. The emergence of molecular imprinting technique will doubtlessly accelerate the development of biomimetic sensors

    分子印跡技術的出現無疑將加快傳感器仿生化的進程。
  4. In this paper, the essential theories, methods, development tendency, achievements and prospect of molecular imprinting technique are reviewed

    本文就分子印跡技術的基本原理、基本方法、發展趨勢、研究成果及應用前景進行了綜述。
  5. Molecular imprinting technique ( mit ) is a technique originated from bionic to prepare polymers with recognition specificity to template molecules by manual method

    =分子印跡技術是從仿生角度,採用人工方法制備對模板分子具有專一性結合作用的聚合物的技術。
  6. Molecular imprinting technique ( mit ) is a new applied widely technique in recent years which combine the advantages of the subjects of macromolecular synthesis, molecular design, molecular recognition and bionic bioengineering

    摘要分子印跡技術是近年來集高分子合成、分子設計、分子識別、仿生生物工程等眾多學科優勢發展起來的一種應用廣泛的新型技術。
  7. This review introduces the basic principle of molecular imprinting technique and summarizes its application in sample pretreatment including molecularly imprinted solid phase extraction, molecularly imprinted solid - phase microextraction and molecularly imprinted membrane separation technique

    本文介紹了分子印跡技術的基本原理,綜述了分子印跡技術在樣品前處理中應用的研究進展。
  8. Molecular imprinting technique ( mit ) is becoming increasingly recognized as a powerful technique of preparing synthetic polymers that contain tailor - made recognition sides for certain molecules. it has an extensive application in purification, separation, immunoassay, enrichment, biomimics and other relevant fields for its predetermination, specificity and practicability of molecule recognition

    分子印跡技術是一種制備對特定分子具有專一識別性能的聚合物( mip )的技術, mip對模板分子的識別具有預定性、專一性和實用性等優點而在分離提純、免疫測定、生物模擬以及痕量分析等領域顯示出廣闊的應用前景。
  9. Molecularly imprinted polymer can be used to highly selective separation and enrichment of trace analyte in complicated biological, medicine and environmental samples because of its characteristics of high selectivity, chemical stability, easy preparation, so the application of molecular imprinting technique in sample pretreatment was especially remarkable

    分子印跡聚合物具有選擇性高、穩定性好及制備簡單的特點,可用於生物、醫藥、環境樣品等復雜基體中痕量分析物的高選擇性分離與富集,因此在樣品前處理中的應用特別引人關注。
  10. This review introduces the latest studies of surface functionalization of the poly ( vinylidene fluoride ) ( pvdf ) porous membranes, including synthesizing imprinting membranes using photo - grafting technique and environment - sensitive separation membranes, and immobilizing some proteins and enzymes on membranes

    摘要介紹了聚偏氟乙烯( pvdf )微孔膜的表面功能化的研究進展,包括合成分子印跡膜、環境敏感性分離膜和分離膜上蛋白和酶的固定化。
  11. Mips are suited as bio - mimetic materials due to their long - term stability, durability to extreme physical and chemical conditions. therefore, molecular imprinting paves a new way for sensing technique overcoming the disadvantages of the biological recognition methods

    與天然的生物分子識別系統如單克隆抗體或受體相比, mip具有很高的選擇性和穩定性,因此適合於用作模擬生物傳感器的識別元件。
  12. As a technique for the synthesis of artificial receptors, molecular imprinting strategy has achieved great advances in recent years

    摘要作為一種人工受體合成技術,分子印跡方法近年來取得了長足的進展。
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