Turn it up的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列問答集和資訊懶人包

Imposter to Impact

為了解決Turn it up的問題，作者Leruste, Mark 這樣論述：

When you talk about yourself and the work you do, what message do you convey? Do you tell your best story and show your most authentic self, or do you undersell your talents and fail to sell your strengths? Too many of us feel like imposters, playing down our achievements, failing to do our brill

iant ideas justice. Many of us are simply too afraid of what people might think or say if we showed up as our authentic selves in public and shared our true stories. Countless brilliant ideas will never see the light of day because people are too timid to truly be themselves. It doesn’t have to be

this way. This book will help you get comfortable with being yourself in public, accept who you are, and celebrate every part of you and your story - even the scary bits. No matter where you are on life’s journey, no matter what your experience or background, you can learn a simple framework to tu

rn your myriad of experiences into a powerful, engaging, and clear origin story that people will connect with, remember, and want to share with others on your behalf. From hiding your talents to glowing in the dark, this book will help you tell your story with confidence.

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基於原生架構設計與實現應用WebRTC的即時多媒體通訊

為了解決Turn it up的問題，作者陳哲偉 這樣論述：

自2020年起，全世界都飽受COVID-19所苦，新冠肺炎的高度傳染性對於現今社會造成極大的衝擊。公司員工每週定期面對面匯報工作進度的晨會被迫中止，遠端通訊媒體如雨後春筍般地湧現， Google Meet、Microsoft Teams 和 Zoom 等各種應用了 WebRTC 的通信應用如雨後春筍般湧現，皆旨在為疫情時代找出讓生活重回正軌的方法。WebRTC，全稱為Web Real-Time Connection，是一種藉由點對點的UDP來傳送串流資料的架構，它能夠通過應用程序介面來為行動裝置提供即時通信，並以具有相當低的延遲而聞名。而以原生的架構實現則可以讓其對裝置的控制力最大化。本論文

提出一種基於原生架構設計與實現應用WebRTC的即時多媒體通訊，冀望能為後疫情時代重建中的秩序盡一份心力。

Japanese Literature: A Very Short Introduction

為了解決Turn it up的問題，作者Tansman, Alan 這樣論述：

With a history stretching back nearly 1,500 years, written works originating from Japan encompass a vast range of forms and genres. Since the eighth century, poetry and the non-philosophical lyric voice have occupied a central position in Japanese cultural life. The art of narrative would soon fo

llow, blossoming in the eleventh century with one of the world’s great literary masterpieces, Murasaki Shikibu’s The Tale of Genji. Japanese literature later developed other genres no less important than poetry and narrative, among them the diary, the free-flowing essay, drama, the picture book, and

the literary treatise. While intensely attentive to its own tradition, Japanese literature has also embraced the outside world, particularly the influence of China. It is also embraced by the outside world in turn, exporting bestselling authors such as Haruki Murakami and Yukio Mishima. Beyond this

, Japan boasts a powerful literary culture, made up of cultivated reading publics, both aristocratic and bourgeois, literary salons, specialized presses, authoritative judges of talent who cultivated and celebrated particular writers and styles, and a canon consisting of classics. A succinct introdu

ction to one of the most dynamic and diverse world literatures, this Very Short Introduction traces the rich history of Japanese literature from its beginnings over a millennium ago to the present day.

以金屬氧化物復合材料為基礎之氫氣感測器

為了解決Turn it up的問題，作者SHRISHA 這樣論述：

氫氣(H2)因其高度易燃性而被歸屬於有害氣體，當其於大氣下達4-7重量百分濃度時，即具有相當之危險性，存在爆燃的風險，且由於其無色無味，大大提升檢測管線洩漏之難度，也因此奠定了其感測器存在之必要性及重要性。近年來，金屬氧化物由於其優異的化學和物理性質被廣泛應用於此領域，如：ZnO、WO3、TiO2、SnO2、MoS2等。以金屬鎢為基材之複合材料被廣泛應用於感測器氣敏層相關研究中，因其對多種目標有毒氣體具高度之靈敏性。而三氧化鎢(WO3)應用於氫氣感測器之先例，因此本研究之第一部分將專注於還原氧化鎢(WO2.72)於此領域之應用的研究。以三氧化鎢為原材料，應用鍛燒法合成還原氧化鎢奈米粒子(WO

2.72)，並通過FE-SEM、XRD和Raman光譜進行樣品表徵確認。待合成完成，以旋塗方式完成感氣層於SiO2/Si晶圓之塗佈，並完成叉指式電極之沉積。經測試，WO2.72感測器於室溫條件下之感測能力為27%，且具備於500ppm濃度條件下長期穩定性及重複使用性。同時以電子耗盡層理論說明其機制。儘管銫鎢青銅(CsxWO3)已被廣泛應用於其他領域，但其並無作為氫氣感測器氣敏層材料之先例，因此本研究之第二部分延續對金屬鎢為基材之複合材料的研究，欲開發當前尚無相關研究之鎢青銅(MxWO3)於此領域之應用的研究，CsxWO3感測器之製程，以水熱法先行完成銫鎢青銅奈米棒的合成，並透過多項儀器鑑定其物

理性質以確保結構之型態，並以旋轉塗佈之技術將之形成薄層結構於SiO2/Si晶圓之上，完成感氣層製備，隨後完成橫向多指Pt電極，以利後續性能檢測測試。經測試於不同濃度之氫氣(10ppm至500ppm)，測試結果呈現，銫鎢青銅感測器於室溫下具優異的感測性能(31.3%)，並且優於WO3感測器(4.7%)。選擇性測試亦呈現優異結果，於氨氣及二氧化碳測試中僅有極低之響應。此材料具備可靠性、合成方法簡單、濕度影小及選擇性優異等優勢，大大提升其應用之可行性。且與WO3感測器相比，CsxWO3感測器具更為優異的表面吸附能力及更強的活性O2官能基電誘導能力，因而展現了增強的氣敏性。當前CsxWO3感氣層展現優

異的效能，成功證實MxWO3作為金屬氧化物氣體感應器之可行性。於第三部分研究中，成功以溶劑熱法合成新型CsxWO3/MoS2奈米複合材料，再次採用旋轉塗佈之技術，完成於SiO2/Si晶圓形成感氣薄層結構之操作，並以PVD技術沉積設計之叉指式電極完成感測器製備。經測試，CsxWO3/MoS2感測器可於室溫下展現優異的氫氣感測能力，尤其包含15wt.% MoS2 (15 % CsxWO3/MoS2)之奈米複合材料，其感測性能甚至可達51%。此外，因具有高度循環穩定性，更增添其於實際應用的優勢。於本篇之最後一項研究，預期導入先進技術，以Zirconium-based metallic glass n

anotube arrays為基材，於其上透過實驗參數設定，完成氧化鋅(ZnO)奈米棒之生長，並以此材料做為氫氣感氣層之應用。於具contact-hole陣列(孔徑為2 µm)之光阻劑形成之模板上濺鍍沉積metallic glass (Zr60Cu25Al10Ni5)以得異質Zirconium-based metallic glass nanotube arrays，並沉積ZnO種子層以提供成核位點以利於metallic glass nanotube arrays內部生長奈米棒狀結構，其後採水熱法完成ZnO奈米棒之生長，接著濺鍍Pt電極，以利後續性能檢測測試。經實驗證實，Fabricated

Zirconium-based metallic glass nanotube arrays with ZnO nanorods (Zr-ZnO-nanorods)具優異的氫氣傳感性能。