工業和商業黃頁資訊網論文書籍站
Foot Locker, Inc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
Foot Locker, Inc的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦Green, Shane寫的 Culture Hacker: Reprogramming Your Employee Experience to Improve Customer Service, Retention, and Performance 可以從中找到所需的評價。
另外網站Company Information - Foot Locker Inc - Hargreaves Lansdown也說明:Business summary. Foot Locker, Inc. is a retailer of shoes and apparel. The Company operates through three operating segments: North America, Europe, Middle ...
國立臺灣大學 分子暨比較病理生物學研究所 張惠雯、張晏禎所指導 吳柔霏的 辨識葡萄糖調節蛋白78為豬流行性下痢病毒可能之細胞輔助受器蛋白 (2021),提出Foot Locker, Inc關鍵因素是什麼,來自於豬流行性下痢病毒、葡萄糖調節蛋白78、細胞輔助受器蛋白。
而第二篇論文國立交通大學 應用藝術研究所 莊明振所指導 林佩如的 含氧微氣泡清潔口腔細菌之裝置應用設計 (2017),提出因為有 潔牙裝置、含氧微氣泡、兼性厭氧菌、口腔衛生、牙周病患口腔清潔的重點而找出了 Foot Locker, Inc的解答。
最後網站FL | Foot Locker Inc. Stock Overview (U.S.: NYSE) | Barron's則補充:Complete Foot Locker Inc. stock information by Barron's. View real-time FL stock price and news, along with industry-best analysis.
Culture Hacker: Reprogramming Your Employee Experience to Improve Customer Service, Retention, and Performance
為了解決Foot Locker, Inc 的問題,作者Green, Shane 這樣論述:
HACK YOUR WORKPLACE CULTURE FOR GREATER PROFITS AND PRODUCTIVITY"I LOVE THIS BOOK "--CHESTER ELTON, New York Times bestselling author of All In and What Motivates Me"When companies focus on culture, the positive effects ripple outward, benefiting not just employees but customers and profits. Read th
is smart, engaging book if you want a practical guide to getting those results for your organization."--MARSHALL GOLDSMITH, executive coach and New York Times bestselling author"Most books on customer service and experience ask leaders to focus on the customer first. Shane turns this notion on its
head and makes a compelling case why leaders need to make 'satisfied employees' the priority."--LISA BODELL, CEO of Futurethink and author of Why Simple Wins"This is a must read for anyone in a customer service-centric industry. Shane explains the path to creating both satisfied customers and satis
fied employees."--CHIP CONLEY, New York Times bestselling author and hospitality entrepreneurThe question is not, "does your company have a culture?" The question is, "does your company have a culture that fosters outstanding customer experiences, limits employee turnover, and ensures high performan
ce?"Every executive and manager has a responsibility to positively influence their workplace culture. Culture Hacker gives you the tools and insights to do it with simplicity and style.Culture Hacker explains: Twelve high-impact hacks to improve employee experience and performanceHow to delight and
retain a multi-generational workforceThe factors determining whether or not your employees deliver outstanding customer service SHANE GREEN is a world-renowned keynote speaker, author, television personality, and consultant to global Fortune 500 leaders on customer experience and organizational cu
lture. Shane draws on his foundation at The Ritz-Carlton Hotel Company and his work in multiple industries, to help clients transform customer experiences by improving employee habits and mindsets. As president and founder of SGEi, Shane leads a team of professionals who inspire iconic brands, like
the NBA, Westfield, Foot Locker, Net Jets Inc., W Hotels, and BMW to reprogram their employee experiences--in order to create loyal customers and raving fans.
辨識葡萄糖調節蛋白78為豬流行性下痢病毒可能之細胞輔助受器蛋白
為了解決Foot Locker, Inc 的問題,作者吳柔霏 這樣論述:
豬流行性下痢病毒(Porcine epidemic diarrhea virus; PEDV)屬於冠狀病毒屬中的甲型冠狀病毒,可引發具有高度傳染性的豬流行性下痢(Porcine epidemic diarrhea; PED),受其感染之仔豬會出現急性水漾腹瀉、嘔吐及脫水,最終導致死亡。PEDV之細胞受器最初被認為是豬丙胺酸胺肽酶(Porcine Aminopeptidase N; pAPN),但pAPN是否為PEDV細胞受器卻在近幾年受到質疑。在本研究中,我們利用免疫共同沈降與質譜分析技術,將PEDV棘狀蛋白(Spike; S)三聚體分別與新生仔豬之腸上皮細胞和非洲綠猴腎細胞(Vero-E6
cell)膜蛋白進行交互作用,以辨識PEDV之可能細胞受器。本研究發現在新生仔豬腸細胞與Vero-E6細胞膜蛋白中葡萄糖調節蛋白78(Glucose regulated protein 78; GRP78)可與PEDV S蛋白進行免疫沉降。為了更近一步探討GRP78在PEDV感染機制中所扮演的角色,我們轉染豬腸上皮細胞株 (Intestinal porcine epithelial cell line-1; IPEC-1)與豬睪丸細胞豬 (Swine testicular cell line; ST )使其可以穩定表現GRP78後,再以第七代PEDV-PT-52(PEDV-PT-P7)進行了
感染試驗,並與未轉染之IPEC-1細胞、ST細胞與Vero-E6細胞進行比較。結果發現相對於病毒感染之Vero-E6細胞可見特徵性融合細胞形成之外,轉染GRP78之IPEC-1細胞與ST細胞以及未轉染之IPEC-1細胞與ST細胞均無法觀察到細胞病變作用(Cytopathic effect)。此外,除了Vero-E6 細胞株外,本實驗其他細胞株的上清液均無法檢測到病毒核酸。依據實驗結果推測,GRP78雖能與PEDV S進行鍵結,但並非扮演宿主細胞受器之角色,而GRP78是否能夠做為輔助細胞受器蛋白協助病毒的組裝或複製則需要後續實驗證明。
含氧微氣泡清潔口腔細菌之裝置應用設計
為了解決Foot Locker, Inc 的問題,作者林佩如 這樣論述:
嚴重牙齦炎或牙周病患者,其牙齦會嚴重萎縮,使用牙刷清潔牙齒易造成牙齦出血,而產生新傷口,若要清除介於齒部與牙齦間的兼性厭氧菌更為困難。本研究提出一款牙托裝置,此裝置結合微氣泡產生器與供氧裝置;目的為清潔一般口腔牙菌與兼性厭氧牙菌,降低牙周病的發生。微氣泡生成器在製造與應用上已相當普遍,本研究修改市售機Braun MD20做為實驗用之微氣泡生成器。此裝置之出水口銜接合乎人體口腔齒型之軟性牙托,含氧微氣泡噴水沿導管及噴嘴導入牙托,以此方式進行清除口腔牙菌之作用。本研究為了解此裝置在清潔一般口腔牙菌與兼性厭氧牙菌的效果,將調控微氣泡生成器之設計變項,進行設計變項的組合,並分別執行三次清潔實驗。實驗
1控制的設計變項為微氣泡生成器的五段馬達轉速,和五種不同噴嘴噴口孔徑,結合1.6mm孔徑的牙托,以產生不同的流量、流速與微氣泡粒徑的噴水,進行清除一般牙菌的實驗。實驗結果顯示,在適當馬達轉速與噴嘴孔徑組合的實驗條件下,可達92 %的牙菌清除效果,可確認微氣泡噴水的牙菌清除效果。所產生的噴水流量、流速與微氣泡粒徑對除菌效果的影響未達0.05的顯著水準。不符合微氣泡越小,牙菌清除效果越佳的實驗假設。因此調整設計變項後,進行實驗2的兩項子實驗。實驗2A將單孔噴口噴嘴擴增為三孔後,進行與實驗1相似的實驗,實驗結果發現,噴嘴噴口孔徑對微氣泡粒徑與除菌效果具顯著影響,微氣泡粒徑越小除菌效果也越好。在部分設
計變項組合下,可達91%的除菌效果。實驗2B將設牙托出水孔徑擴增為4.8mm後,進行與實驗1相似的實驗,實驗結果顯示馬達轉速會顯著影響噴水流量;馬達轉速越高流量越大,而高流量則會影響牙菌的清除效果。噴嘴噴口孔徑顯著影響噴水之流量與微氣泡粒徑,且噴水流量與微氣泡粒徑會顯著影響除菌效果。流量越大、微氣泡粒徑越小,除菌效果越佳,且在部分設計變項組合下,可達99% 的除菌效果。依據實驗1與2的結果,修正設計變項的,進行清除兼性厭氧牙菌的實驗3;以三段馬達轉速,三種不同噴嘴噴口孔徑與四種不同噴嘴噴口孔數,分別以不同變項組合進行清潔實驗,探討其對連結牙托所產生的噴水流速、流量、含氧微氣泡粒徑、含氧量(di
ssolved oxygen),對兼性厭氧菌移除效果的影響。其結果顯示,含氧微氣泡裝置確實有移除兼性厭氧菌的效果,而噴嘴噴口孔數與馬達轉速是影響含氧量的主要因素;含氧量則是影響清除兼性厭氧牙菌的因素。本研究結果可確定牙托式含氧微氣泡潔牙裝置能對口腔齒部清潔的有效性,冀望其能作為長照機構之輔助式潔牙使用,降低其未來因牙周病就醫之頻率,提供肢殘人仕較為便利之潔牙方式。