據http://phys.org/news/報bao道dao����,威wei斯si康kang辛xin大da學xue研yan究jiu人ren員yuan提ti出chu一yi種zhong新xin型xing光guang電dian半ban導dao體ti材cai料liao製zhi備bei方fang法fa和he一yi種zhong新xin型xing且qie廉lian價jia的de催cui化hua劑ji製zhi備bei工gong藝yi�����,從cong而er獲huo得de目mu前qian最zui高gao的de太tai陽yang能neng到dao氫qing能neng的de轉zhuan化hua率lv——1.7%。
光解水製氫材料獲得新突破
太tai陽yang能neng光guang解jie水shui製zhi氫qing商shang業ye化hua進jin程cheng的de主zhu要yao阻zu礙ai是shi成cheng本ben過guo高gao�����,轉zhuan化hua效xiao率lv過guo低di���,而er成cheng本ben主zhu要yao包bao括kuo接jie受shou太tai陽yang能neng的de半ban導dao體ti電dian極ji和he光guang解jie水shui的de催cui化hua劑ji。世shi界jie上shang有you很hen多duo研yan發fa團tuan隊dui對dui此ci二er者zhe進jin行xing研yan究jiu����,然ran而er即ji使shi將jiang最zui好hao的de半ban導dao體ti與yu催cui化hua劑ji結jie合he�,也ye未wei必bi能neng獲huo得de最zui好hao的de轉zhuan化hua效xiao果guo���,因yin為wei二er者zhe的de界jie麵mian接jie觸chu才cai是shi影ying響xiang轉zhuan化hua效xiao率lv最zui重zhong要yao因yin素su。
威斯康星大學麥迪遜分校的科學家Choi和博士後研究員Tae Woo Kim在美國國家自然科學基金的支持下在光解水製氫材料方麵有了新的突破�,在他們發表在Science上(shang)的(de)論(lun)文(wen)裏(li)進(jin)行(xing)了(le)報(bao)道(dao)。他(ta)們(men)采(cai)用(yong)電(dian)沉(chen)積(ji)法(fa)製(zhi)備(bei)了(le)納(na)米(mi)多(duo)孔(kong)半(ban)導(dao)體(ti)化(hua)合(he)物(wu)釩(fan)酸(suan)鉍(bi)的(de)微(wei)小(xiao)顆(ke)粒(li)�,不(bu)用(yong)高(gao)溫(wen)高(gao)壓(ya)����,設(she)備(bei)簡(jian)單(dan)���,不(bu)僅(jin)降(jiang)低(di)成(cheng)本(ben)��,使(shi)釩(fan)酸(suan)鉍(bi)電(dian)極(ji)的(de)比(bi)表(biao)麵(mian)積(ji)達(da)到(dao)了(le)32m2/g����;為了改善催化劑與半導體電極和水的接觸界麵����,Choicaiyongleshuangcengcuihuaji���,yanghuatieshidefansuanbiguangdianbandaotidianjiyucuihuajiyoulianghaodejiechujiemian����,yanghuanieshideshuiyucuihuajiyoulianghaodejiechujiemian���,congertigaolezhenggeguangdianxitongdexiaolv��,shidetaiyangnengdaoqingnengdezhuanhualvdadaolemuqianshijiedezuigaoshuiping1.7%。
納米多孔的釩酸鉍電極和雙層催化劑提高了光電係統的整體效率�,這一研究成果將帶來世界範圍內光電係統研究的飛躍。
2026-04-11 15:09:06
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