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    2018年6月18日 星期一

    Standard Reduction Potentials of Organic Species


    Standard Reduction Potentials (E0'), 25oC
    oxidant
    reductant
    n (electrons)
    Eo´ (volts)
    Acetate + carbon dioxide
    pyruvate
    2
    -0.70
    succinate + CO2 + 2H+
    a-ketoglutarate + H2O
    2
    -0.67
    acetate
    acetaldehyde
    2
    -0.60
    glycerate-3-P
    glyceraldehyde-3-P + H2O
    2
    -0.55
    O2
    O2-
    1
    -0.45
    ferredoxin (ox)
    ferredoxin (red)
    1
    -0.43
    Carbon dioxide
    formate
    2
    -0.42
    2H+
    H2
    2
    -0.42
    a-ketoglutarate + CO2 + 2H+
    isocitrate
    2
    -0.38
    acetoacetate
    b-hydroxybutyrate
    2
    -0.35
    Cystine
    cysteine
    2
    -0.34
    Pyruvate + CO2
    malate
    2
    -0.33
    NAD+ + 2H+
    NADH  + H+
    2
    -0.32
    NADP+ + 2H+
    NADPH  + H+
    2
    -0.32
    FMN (enzyme bound)
    FMNH2
    2
    -0.30
    Lipoic acid, ox
    Lipoic acid, red
    2
    -0.29
    1,3 bisphosphoglycerate + 2H+
    glyceraldehyde-3-P + Pi
    2
    -0.29
    Glutathione, ox
    red
    2
    -0.23
    FAD (free) + 2H+
    FADH2
    2
    -0.22
    Acetaldehyde + 2H+
    ethanol
    2
    -0.20
    Pyruvate + 2H+
    lactate
    2
    -0.19
    Oxalacetate + 2H+
    malate
    2
    -0.17
    a-ketoglutarate + NH4
    glutamate
    2
    -0.14
    FAD + 2H+ (bound)
    FADH2 (bound)
    2
    0.003-0.09
    Methylene blue, ox
    Methylene blue, red
    2
    0.01
    Fumarate + 2H+
    succinate
    2
    0.03
    CoQ (Ubiquinone - UQ + H+
    UQH.
    1
    0.031
    UQ + 2H+
    UQH2
    2
    0.06
    Dehydroascorbic acid
    ascorbic acid
    2
    0.06
    Ubiquinone; ox
    red
    2
    0.10
    Cytochrome b2; Fe3+
    Cytochrome b2; Fe2+
    1
    0.12
    Cytochrome c1; Fe3+
    Cytochrome c1; Fe2+
    1
    0.22
    Cytochrome c; Fe3+
    Cytochrome c; Fe2+
    1
    0.25
    Cytochrome a; Fe3+
    Cytochrome a; Fe2+
    1
    0.29
    1/2 O2 + H2O
    H2O2
    2
    0.30
    Cytochrome a3; Fe3+
    Cytochrome a3; Fe2+
    1
    0.35
    Ferricyanide
    ferrocyanide
    2
    0.36
    Cytochrome f; Fe3+
    Cytochrome f; Fe2+
    1
    0.37
    Nitrate
    nitrite
    1
    0.42
    Photosystem P700
    .
    .
    0.43
    Fe3+
    Fe2+
    1
    0.77
    1/2 O2 + 2H+
    H2O
    2
    0.816



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    2018年5月24日 星期四

    Standard Reduction Potentials of Metals


    Silver

    Gold

     

    Copper


    Palladium

     platinum






    資料來源: http://www.ktf-split.hr/periodni/fr/abc/ems.html

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    2018年4月25日 星期三

    How you write your resume for looking a job in US



    • 講者: 馬紹銘博士
      2018/4/25

    • 不要超過1頁(HR篩選履歷只會看10秒),字體最小10,字型用Times New Roman
    • 個人聯繫資訊只放EMAIL,不要放照片、個人住址等資訊(美國是個有淺在歧視文化的國家,透漏太多資訊會被先排除,EX: 有些會歧視亞裔、老人、女人)
    • 英文姓名要注意,最好羅馬拼音方式選台灣的(但還是要跟護照一樣),不要選大陸的,會被當成大陸人(大陸人美國居留證很難拿,有些公司會先刷掉大陸人)
    • 剛出社會的上,由於無工作經驗與實績,放成績為主(GPA最好3.5以上),其次放發表/專利。社團或旅外經驗加分幫助不大(除非你找管理或銷售部門的職缺)。
    • 如果有工作經驗的話,先前的公司最好待2年以上在跳槽(最好有升遷的紀錄),否則會被認為抗壓性差或對公司忠誠度有問題。如果離職的話盡量不要有太長的gap year。
    • 應徵不同公司或不同職缺的話,最好重寫一份符合該公司貨職缺的resume,千萬不要一份resume走天下,這是大忌!
    • 寫resume字裡行句不要有太多highlight,會有反效果。


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    2018年3月30日 星期五

    Earth Abundant Transition-Metal Based High Entropy Alloys (HEAs) Nanorod Arrays Prepared By Glancing Angle Deposition System (GLAD) Toward High Performance Electrocatalysts for Water Oxidation Reaction

    Earth Abundant Transition-Metal Based High Entropy Alloys (HEAs) Nanorod Arrays Prepared By Glancing Angle Deposition System (GLAD) Toward High Performance Electrocatalysts for Water Oxidation Reaction

    1. Yu-Lun Chueha

    1. aDepartment of MSE, NTHU, Hsinchu, Taiwan
    2. bUniversity of Electronic Science and Technology of China

    Abstract

    High-entropy alloys (HEAs) have recently aroused increasing research enthusiasm due to their attractive properties, such as easy formation of nano-size precipitates, high hardness, good fatigue with fracture resistance, good thermal stability, excellent corrosion resistance and tendency to form simple solid solutions with face-centered cubic (FCC) and body-centered cubic (BCC) crystal structure. However, to the best of our knowledge, the growth of HEAs nanostructures and its electrocatalytic properties have not yet been reported. Herein, we demonstrate for the first time, HEAs nanorod arrays on stainless steel by glancing angle deposition system (GLAD) as electrocatalysts for oxygen evolution reaction (OER). This electrocatalysts exhibited excellent OER activity and durability. Specifically, a low overpotential of 302 mV can be achieved at a current density of 10 mA cm−2, yielding a Tafel slope of ~28 mV dec-1 in 1 M KOH. Moreover, it can be operated more than 500 cycles of a linear voltammetry (LSV) scan at a scan rate of 5 mV/s. The outstanding performances is attributed to the high surface area of nanorod arrays. This work opens up new great potential in the field of energy based application such as batteries, supercapacitors, and electrocatalytic applications.

    http://ma.ecsdl.org/content/MA2018-01/26/1571.abstract

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