Refrigerator的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列線上看、影評和彩蛋懶人包

Intelligent Love: The Story of Clara Park, Her Autistic Daughter, and the Myth of the Refrigerator Mother

為了解決Refrigerator的問題，作者Vicedo, Marga 這樣論述：

Marga Vicedo, PhD, is a philosopher and historian of science. She is a professor at the University of Toronto, where she teaches and writes about the history of biology, psychology, and psychiatry since the turn of the twentieth century. She is on the editorial board of numerous journals, including

the Review of General Psychology and Journal of the History of the Behavioral Sciences, and is the author of The Nature and Nurture of Love: From Imprinting to Attachment in Cold War America.

Refrigerator進入發燒排行的影片

微結構協同機制對一碲化鍺 (GeTe)複合材料熱電表現的影響效應

為了解決Refrigerator的問題，作者易山達 這樣論述：

Germanium Telluride (GeTe) has been extensively investigated among the lead-free thermoelectric (TE) materials for its high thermoelectric performance (ZT) in mid-temperature; however, high p-type carrier density (∼10^21 cm-3) weakens its suitability for higher ZT's. To strengthen the thermoelectri

c properties of nature-friendly GeTe, we utilized Molybdenum (Mo), a widely used transition element, for further study and confirmed its role in enhancing GeTe's TE properties. The density functional theory (DFT) calculations and TE transport properties experiments were performed to study the influe

nce of Mo doping on the Ge site of the GeTe system. DFT computations predict the additional dopant/impurity states induced by Mo-doping. Mo doping sharply decreased the carrier concentration, e.g., from 8.28×10^20 cm-3 (pristine GeTe) to 5.24×10^20 cm-3 for Ge0.97Mo0.03Te with a slight increase in t

he Seebeck at room temperature. The simultaneous reduction in thermal conductivity is correlated with optimized carrier concentration, multi-scale lattice deformation, verified by extensive microstructural studies, emphasized by microcrystalline rods (MCRs), high-density planar defects, nano straine

d domains, strained stacking faults, point defects, herringbone, strengthening all-frequency phonon scattering.Moreover, co-doping of Sb/Bi with Mo at the Ge sites primarily decreases the carrier concentration (n) and thermal conductivity (κ) to achieve a higher ZT. The co-doping of Sb/Bi demonstrat

ed a prominent role with a maximum ZT of ∼ 2.14 and ∼ 2.3 at 673 K for the samples of Ge0.89Mo0.01Sb0.1Te and Ge0.89Mo0.01Bi0.1Te, respectively. This work reports one of the highest TE performances among the transition metal co-doping in the mid-temperature range. The synergistic performance with an

ultralow thermal conductivity has been achieved primarily due to microcrystalline-assisted grain boundary formations, a possible pathway for reducing the thermal conductivity. Different scattering centers in Mo doped GeTe systems, which helps the reduction in κlat, and overall thermal conductivity

reached an ultralow, owing to a highly disordered network formation to hinder the phonon transport.

Fridge Love: Organizing Your Refrigerator for a Healthier, Happier Life--With 100 Recipes

為了解決Refrigerator的問題，作者Hong, Kristen 這樣論述：

KRISTEN HONG writes the blog hellonutritarian.com, where she shares about fridge organization, meal prep, and plant-based recipes, and runs a successful Instagram of the same name (@hellonutritarian) where she showcases her well-organized and gorgeously styled fridge photos. She lives in California

with her husband and two children.

凝：與我同在–林靜怡創作論述

為了解決Refrigerator的問題，作者林靜怡 這樣論述：

「凝：與我同在-林靜怡創作論述」緣起於自身生活，因弔謁葬禮，在面對亡 者身體與靈魂的分離狀態時，體認到生命的稍縱即逝，進而思考「什麼是生命的 真正終結？」本研究以「自我困境」為創作和理論的探究重心，透過文獻回顧，釐清「自 性」的本質及特性，具有恆存性及變動性，並藉藝術家作品理解他們在創作中所 現出的自我覺察的重要性。歷年來在許多女性藝術家的創作實踐中，她們以個體 之於家庭的認知概念形塑出她們對於周遭環境空間意象，因此，「家」在藝術家的 創作中呈現百態面貌。筆者藉藝術創作抒發內心，以「時間」為軸線、「生命」為核心、「自我困境」 為起點，以象徵的手法展開創作，在作品內容的表現上，藉由家務工作中經

常使 用的冰箱，發展出冰封的視覺語彙，意欲從日常生活中變動的感知經驗，探究世 界的永恆性與共通性，並從中理解自我、形塑心理空間的獨特意義。筆者期許未來面對不同人生階段時，面對「自我困境」能突破直觀感知或慣 性思考，亦能像藝術家般找到藝術創作適切的詮釋角度，期待透過藝術創作的展 開，更專注於每個生命經驗的當下，面對僅有一次的人生。