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設計具空間電荷特徵之金屬有機框架離子二極體薄膜來達成空前高效有機相滲透能源轉換

為了解決red bull large cans的問題，作者Amalia Rizki Fauziah 這樣論述：

AbstractUnraveling and boosting lithium ion (Li+) transport in subnanoscale confined spaces is crucial to development of high performance lithium-ion batteries because metal-organic frameworks (MOFs), crystalline materials with ordered subnanoscale channel structures, are extensively used as artifi

cial solid electrolyte interface layer to protect the anode from lithium dendrite deposition. Moreover, there have been growing interest in energy harvesting from a salinity gradient (or called osmotic energy conversion) from organic solutions, but the output performance is still limited and below t

he commercial benchmark value (5 W/m2). In this study, we report on two types of subnanoscale ionic diode membranes, including (i) zeolitic imidazole framework-8 (ZIF-8)/polystyrene sulfonate (PSS) and a highly ordered cylindrical alumina nanochannel (CAN) membrane (named as ZIF-8/PSS@CAN) and (ii)

ZIF-8/PSS and a highly ordered branched alumina nanochannel (BAN) membrane (named as ZIF-8/PSS@BAN). Experimental results demonstrate that the ZIF-8/PSS membranes we fabricated are of large-scale, continuous, pinhole-free and subnanoscale window-cavity structures and the PSS is of highly space-charg

ed properties, so that the membranes can be used as a highly ion selective layer. Moreover, the two membranes are shown to exhibit significant diode-like ion current rectification effect, capable of amplifying ion transport at subnanoscale confinements. We therefore probe application of the two type

s of subnanoscale ionic diode membranes in osmotic energy conversion from organic solutions. We show that at a 50-fold LiCl concentration gradient in methanol, the ZIF-8/PSS@CAN can achieve a power density of 5.28 W/m2 and the output performance can be upgraded to an unprecedented value of 9.58 W/m2

by increasing the geometry gradient with using the ZIF-8/PSS@BAN. Note that the two values reported outperform all the previously reported ones. Realizing the ultrafast dehydrated ion transport in the subnanoscale confined spaces created by the MOF membranes we developed opens up valuable insights

into not only exploiting next-generation high efficiency Li-ion batteries but also energy harvesting from salinity gradients in waste organic solutions. This path will likely ignite the way not only to help alleviate the environmental burden but also provide new energy resources for meeting the need

of the ever-growing energy demand.

人工養殖鱉飼料研究Ⅰ. 浮性飼料對中華鱉種鱉養殖之研究Ⅱ. 飼料中纖維含量對幼鱉成長之影響

為了解決red bull large cans的問題，作者何奕萱 這樣論述：

本研究進行兩個試驗，分別探討浮性飼料對中華鱉種鱉養殖之研究以及飼料中纖維含量對幼鱉成長之影響。試驗一探討種鱉浮性飼料，對鱉的飼養適口性、存活率、產蛋率及孵化率之影響，選用兩年半齡之中華鱉種鱉6000隻分6池，採2處理×3重複之試驗設計，每池1000隻。試驗場地為三和生技有限公司甲魚養殖場，2處理分別為對照組（濕性團料）以及處理組（浮性飼料）餵飼，經試驗期間10個月（2014/01/01-2014/10/31）後結果顯示，各組間適口性、產蛋率及孵化率均無顯著差異；餵飼浮性飼料組之存活率，顯著高於濕性團料之對照組（95.5 vs. 94.7%）。試驗二探討飼料中纖維含量對中華鱉幼鱉成長之影響，選

用平均體重4.1g之中華鱉幼鱉，試驗飼料分別添加0（對照組）、4、8、12、16% 纖維素，共5組試驗組（F0, F4, F8, F12, F16），每組20重複，單隻個別飼養。飼料經實測之粗纖維含量，分別為3.88、7.35、11.72、15.46及19.42%，經過為期10週的餵飼試驗後，進行鱉體組成、血液參數、酵素活性等分析，結果顯示，各組之末重（finial weigh）、增重百分率（weight gain，WG）、蛋白質效率（protein efficiency ratio，PER）、飼料轉換率（feed conversion ratio，FCR）及存活率（survival rate

）均無顯著差異；體組成、肝體比（HSI）其各組間亦無顯著差異；紅血球（RBC）、血紅素（Hb）各組間沒有顯著差異；血比容（Hct）以餵飼粗纖維19.42%的組別明顯高於餵飼粗纖維3.88、7.35%的組別；平均紅血球容積（MCV）、平均紅血球血紅素（MCH）及平均紅血球血紅素濃度（MCHC）各組間均無顯著差異；血清天門冬胺酸轉胺酶（AST）的活性以粗纖維含量3.88%的組別顯著高於7.35、11.72、15.46及19.42%的組別。大腸絨毛高度以餵飼粗纖維15.46%的組別顯著高於11.72和19.42%的組別。綜合上述試驗結果，顯示以浮性飼料餵飼中華鱉種鱉，並不會降低適口性、產蛋率及孵化率

，可以提高種鱉存活率；提高飼料中粗纖維含量，不會影響幼鱉的生長性能、體組成、血液性狀及健康情形。