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被冷落十年,這款神奇的材料終于迎來(lái)爆發(fā)式增長(zhǎng)

David Meyer
2020-12-27

石墨烯的發(fā)展和走向市場(chǎng)都需要有足夠的耐心,。

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取一段膠帶貼在鉛筆芯上,,撕下膠帶,上面或許還粘著一層薄薄的石墨片,。對(duì)折膠帶,,再撕開(kāi),把粘著的石墨薄片分離開(kāi)來(lái),。重復(fù)10到20次,。如果你的技術(shù)夠好,,那么恭喜你,你得到了目前世上最薄,、幾乎也是最堅(jiān)硬的材料,。

用膠帶粘出石墨烯確有其事:2004年,來(lái)自英國(guó)曼徹斯特大學(xué)(University of Manchester)的安德烈·海姆和康斯坦丁·諾沃肖洛夫首次成功分離出了只有一個(gè)原子厚度的二維碳材料:石墨烯,。這兩位物理學(xué)家也因此而獲得了2010年的諾貝爾物理學(xué)獎(jiǎng),。

石墨烯具有許多得天獨(dú)厚的性質(zhì),正如那些加入石墨烯材料的新興產(chǎn)品所宣稱的那樣:耳機(jī)的音質(zhì)更棒,、智能手機(jī)的散熱性能更好,、路面的強(qiáng)度更高,洗發(fā)水的包裝也變得更加環(huán)保,。

石墨烯不僅是世界上最薄,、強(qiáng)韌度第二(一維碳材料carbyne強(qiáng)度比石墨烯更高)的材料,而且輕若無(wú)物,、幾乎完全透明,。經(jīng)過(guò)不同的處理方式,無(wú)論是彈性還是抗斷裂能力方面,,石墨烯均表現(xiàn)優(yōu)異,。除此之外,石墨烯還是數(shù)一數(shù)二的導(dǎo)電導(dǎo)熱材料,,在處理液體時(shí)能夠形成可調(diào)型過(guò)濾器甚至是完全阻隔的屏障,。而且,正如海姆和諾沃肖洛夫示范的那樣,,石墨烯的制備工藝非常簡(jiǎn)單,。

石墨烯材料的優(yōu)異性能,再加上諾貝爾獎(jiǎng)得主的精彩故事加持,,十多年前關(guān)于石墨烯的宣傳可謂是鋪天蓋地,。但需要做的工作還有很多,比如找出石墨烯的最佳制備方法,、石墨烯的商業(yè)化應(yīng)用,、逐步構(gòu)建新市場(chǎng)等等。于是,,石墨烯概念炒作慢慢歸于沉寂,。

然而,現(xiàn)在我們似乎真的要迎來(lái)屬于石墨烯的時(shí)代,。

石墨烯“發(fā)聲”

加拿大初創(chuàng)公司Ora研發(fā)出了首款石墨烯耳機(jī)GQ,。洛杉磯愛(ài)樂(lè)樂(lè)團(tuán)(Los Angeles Philharmonic)的音樂(lè)總監(jiān)古斯塔夫·杜達(dá)梅爾發(fā)表聲明公開(kāi)支持這款耳機(jī),他熱情洋溢地說(shuō):“耳機(jī)里傳來(lái)的音樂(lè)音質(zhì)如同站在交響樂(lè)團(tuán)指揮臺(tái)上聽(tīng)到的那般絲絲入扣,?!?

石墨烯強(qiáng)度高,、質(zhì)量輕,阻尼性能優(yōu)越:只要切斷通過(guò)石墨烯的電流,,石墨烯就會(huì)隨即停止振動(dòng),。利用這些優(yōu)點(diǎn),Ora研發(fā)出了用于耳機(jī)和揚(yáng)聲器的石墨烯材質(zhì)的振膜,。就連諾沃肖洛夫本人也稱贊該公司確保了“石墨烯正式走出實(shí)驗(yàn)室,進(jìn)軍音頻領(lǐng)域,?!?/p>

ORA的聯(lián)合創(chuàng)始人阿里·平卡斯稱:“近二十年來(lái),從理論上來(lái)講,,石墨烯的性質(zhì)決定了這是一款制作揚(yáng)聲器振膜‘圣杯’一樣的材料,。”他解釋說(shuō),,通常情況下,,揚(yáng)聲器設(shè)計(jì)師必須在剛度、輕巧性或阻尼方面降低要求,。

平卡斯稱,,公司將與知名筆記本電腦和智能手機(jī)品牌合作,為它們的設(shè)備制造體積更小,、更響亮的揚(yáng)聲器,,并于2022年推出部分設(shè)計(jì)。但因?yàn)楹炇鹆吮C軈f(xié)議,,他并未公開(kāi)合作的品牌,。

先進(jìn)技術(shù)市場(chǎng)調(diào)研公司IDTechEx的首席分析師理查德·柯林斯表示:“橫空出世的石墨烯是一種可以改變世界的神奇材料。老實(shí)說(shuō),,如果你跟與石墨烯相關(guān)的人士交談,,大多數(shù)人仍然認(rèn)為石墨烯會(huì)改變一切?!?/p>

“事實(shí)上,,十年間也有很多公司在嘗試應(yīng)用石墨烯。許多終端用戶在探索這種材料,。從實(shí)際角度看,,只有到現(xiàn)在和未來(lái)幾年我們才慢慢接近石墨烯應(yīng)用的轉(zhuǎn)折點(diǎn)?!?/p>

石墨烯“上路”

從音頻到瀝青路面:石墨烯的高強(qiáng)度也激發(fā)了人們將之應(yīng)用于建筑領(lǐng)域的興趣,。

建筑行業(yè)的碳排放問(wèn)題由來(lái)已久;生產(chǎn)混凝土所排放的二氧化碳占全球二氧化碳排放量的8%,。利用石墨烯強(qiáng)化混凝土,,能夠減少建筑中的混凝土用量,,從而降低碳排放。

但事實(shí)證明,,石墨烯的高導(dǎo)熱率(華為近期推出的部分智能手機(jī)就應(yīng)用了這一性能)同樣可圈可點(diǎn),。

還記得幾年前意大利熱那亞發(fā)生的公路橋坍塌事故嗎?重新鋪設(shè)的瀝青橋面中就含有意大利初創(chuàng)公司Directa Plus研制的石墨烯粉末,。石墨烯成分的導(dǎo)熱性可以有效降低路面溫度,,使瀝青不易在低溫環(huán)境下產(chǎn)生冷點(diǎn)從而導(dǎo)致硬化和開(kāi)裂。

Directa Plus聯(lián)合創(chuàng)始人及首席執(zhí)行官朱利奧·塞薩里奧聲稱:“這種添加劑最出色的性能在于它能夠使路面的平均使用壽命從目前的六七年提升至18至21年,?!钡獶irecta Plus公司研制的石墨烯微片的應(yīng)用遠(yuǎn)不止于此。

除了塞薩里奧外,,Directa Plus還有幾位來(lái)自美國(guó)的聯(lián)合創(chuàng)始人(后來(lái)將持有的股份賣(mài)給了醫(yī)生起家的億萬(wàn)富翁投資人黃馨祥),。他們都曾經(jīng)是Union Carbide公司元老。1984年博帕爾事件(Union Carbide公司在印度博帕爾市的農(nóng)藥廠出現(xiàn)化學(xué)氣體泄漏,,50多萬(wàn)人因此而喪命)后不久,,意大利人塞薩里奧加入了這家美國(guó)化工巨頭(現(xiàn)為陶氏化學(xué)下屬公司)。

這場(chǎng)悲劇的不幸后果促使塞薩里奧開(kāi)始關(guān)注環(huán)境和可持續(xù)性,,這一點(diǎn)也在Directa Plus的產(chǎn)品中得到了體現(xiàn),。

首先,不同于金屬催化外延生長(zhǎng)的化學(xué)制備方法,,Directa Plus采用的是高溫高壓條件下從石墨顆粒中剝離石墨烯的物理方法,。塞薩里奧表示,使用這種方法可以更方便地生產(chǎn)出適合貼身穿著的石墨烯面料服裝和口罩(采用Directa Plus石墨烯材料的服裝和口罩均已上市銷售),,成本也更低,。

除此之外,Directa Plus還一直在與俄羅斯盧克石油公司和奧地利OMV公司合作,,解決因?yàn)榱_馬尼亞原油泄漏而受到污染的土壤和水的凈化問(wèn)題,。由于水能夠通過(guò)石墨烯蒸發(fā),而大多數(shù)其他液體不能,,將Directa Plus的石墨烯粉末應(yīng)用于圍油欄可以吸附油污,,清潔周?chē)|(zhì)。吸附油污達(dá)到飽和狀態(tài)后,,能夠作擠壓處理再重復(fù)使用,。

塞薩里奧在談到使用石墨烯凈化的初步成果時(shí)說(shuō):“我們清理了400噸原油,并送到煉油廠回收,?!?/p>

更環(huán)保的石墨烯包裝

考慮到環(huán)境效益,還可以將石墨烯用作柔性阻隔包裝材料。

本月,,英國(guó)一家名為T(mén)oraphene的初創(chuàng)公司推出了一款生物聚合物,,該公司表示,這是首款可完全生物降解,、可堆肥,、可商業(yè)化生產(chǎn)的生物聚合物,能夠替代塑料包裝,。將石墨烯與植物天然高分子聚合物復(fù)合在一起的Toraphene材料將首先作為購(gòu)物袋材質(zhì)投入應(yīng)用,。

2011年,挪威科技大學(xué)(Norwegian University of Science and Technology)的研究人員成立了Toraphene公司,。但用作液體包裝材料才是石墨烯包裝材料的真正突破,。

首席執(zhí)行官高特·朱利烏森表示,四年前,,消費(fèi)品行業(yè)巨頭聯(lián)合利華(Unilever)曾經(jīng)與Toraphene接洽,尋找更優(yōu)質(zhì)的小袋洗發(fā)水包裝(聯(lián)合利華方面證實(shí)兩家公司曾經(jīng)有過(guò)洽談),。為了防止液體滲出,,目前小袋洗發(fā)水采用的是多層塑料和一層氧化鋁復(fù)合的鋁塑包裝袋形式。Toraphene方面表示,,Toraphene材料具有液體包裝所需的強(qiáng)度和防水性,,但因?yàn)椴牧铣煞种缓袡C(jī)物和碳,所以更易于回收,。

總之,,兩家公司的數(shù)輪洽談最后以失敗告終:朱利烏森表示,經(jīng)過(guò)兩年的合同談判,,卡夫亨氏(Kraft Heinz)的敵意收購(gòu)促使聯(lián)合利華不得不大幅削減成本以提高股息,,研發(fā)遭受重創(chuàng)。隨著Toraphene方面的洽談聯(lián)系人被解雇,,雙方未達(dá)成任何交易,,為了將這種阻隔性包裝推向市場(chǎng),這家初創(chuàng)公司將目光投向了剛剛完成的一輪眾籌(而且獲得了大量超額認(rèn)購(gòu)),。

朱利烏森稱:“我們制作阻隔性包裝需要的這類石墨烯目前的散裝價(jià)格約為每公斤200美元,。”IDTechEx的柯林斯認(rèn)為這個(gè)價(jià)格偏高,,他表示,,目前一些公司的石墨烯售價(jià)低于每公斤10美元。但Toraphene的石墨烯原料源自開(kāi)采的石墨,,若使用低成本合成的石墨烯,,生產(chǎn)出來(lái)的包裝材料質(zhì)量達(dá)不到要求。

朱利烏森說(shuō):“因?yàn)槲覀冇玫降氖┝糠浅I伲ㄊ┰诎b原材料中所占比例不到0.2%),所以我們生產(chǎn)的石墨烯包裝具有很好的市場(chǎng)前景,。加入石墨烯可能會(huì)增加10%左右的成本,,但包裝的牢固性提升了20%以上。我們可以造福社會(huì),?!?/p>

下一個(gè)應(yīng)用領(lǐng)域:紙質(zhì)咖啡杯。目前的紙質(zhì)咖啡杯使用塑料襯里來(lái)防止?jié)B漏,,很難回收利用,。Toraphene已經(jīng)申請(qǐng)專利將Toraphene材料用作咖啡杯襯里,目前正在爭(zhēng)取獲得美國(guó)和歐洲的食品標(biāo)準(zhǔn)監(jiān)管機(jī)構(gòu)的批準(zhǔn),。

柯林斯認(rèn)為,,石墨烯在這類領(lǐng)域才能夠真正大獲成功。(據(jù)IDTechEx估算,,到2031年,,各種石墨烯材料的市場(chǎng)價(jià)值將從目前的不到1億美元上漲到7億美元。)確實(shí),,因?yàn)槭褂昧耸┎牧?,耳機(jī)、網(wǎng)球拍,、鞋子等許多消費(fèi)品都實(shí)現(xiàn)了增值銷售,,但他也表示:“只有銷售了成千上百噸的材料才算是成功?!?/p>

柯林斯說(shuō):“以汽車(chē)公司為例,,它們不會(huì)花錢(qián)購(gòu)買(mǎi)耐磨襯墊,因?yàn)槭?huì)拉高營(yíng)銷成本,。這就是現(xiàn)實(shí),。這種產(chǎn)品生命周期經(jīng)濟(jì)學(xué)有意義嗎?而這就是那個(gè)轉(zhuǎn)折點(diǎn)的主旨所在,?!?/p>

高歌猛進(jìn)

我們終于談到了石墨烯領(lǐng)域當(dāng)前最受關(guān)注的公司之一:Skeleton Technologies。

這家有著愛(ài)沙尼亞和德國(guó)背景的公司與歐洲幾家汽車(chē)巨頭簽訂了合同,,為后者生產(chǎn)用于存儲(chǔ)能量的石墨烯電池(暫時(shí)未公布合作品牌),。

把普通的石墨烯一層層堆疊起來(lái)會(huì)發(fā)生聚集并最終變回石墨。為了解決這一難題,,Skeleton開(kāi)發(fā)了一種專利方法來(lái)制造彎曲的石墨烯材料,,并將這種材料用于超級(jí)電容器。

這款石墨烯增強(qiáng)型電池可以在數(shù)秒內(nèi)充滿電,,一百萬(wàn)次充放電循環(huán)后都不會(huì)退化,,并且不需要鋰,、鈷等稀缺材料。目前,,這些超級(jí)電容器已經(jīng)在挖掘機(jī),、醫(yī)療設(shè)備和運(yùn)輸工具中得到應(yīng)用:在德國(guó)曼海姆、海德堡和路德維希港等城市,,超級(jí)電容器被用于回收有軌電車(chē)的制動(dòng)能量,,再將回收的能量用來(lái)加速。

Skeleton的首席執(zhí)行官塔維·馬迪伯克說(shuō):“在所有類型的電池解決方案中,,超級(jí)電容器成本最低,、體積最小?!比欢?,與傳統(tǒng)的鋰電池相比,這些超級(jí)電容器儲(chǔ)存的能量更少,,因此,,石墨烯超級(jí)電容器很可能會(huì)與其他技術(shù)共存并相互補(bǔ)充。

馬迪伯克稱,,彎曲的石墨烯最大的好處是能夠處理導(dǎo)致標(biāo)準(zhǔn)鋰電池過(guò)熱和隨著時(shí)間的推移而退化的峰值負(fù)載,;兩者相結(jié)合可以讓電池組體積縮小30%,使用壽命延長(zhǎng)一倍,。他還談到,隨著相對(duì)不可預(yù)測(cè)的可再生能源影響力增強(qiáng),,Skeleton的超級(jí)電容器在維持電網(wǎng)穩(wěn)定方面潛力巨大,。

早在2009年石墨烯材料剛剛興起之際,Skeleton就已經(jīng)開(kāi)始開(kāi)發(fā)石墨烯技術(shù),,但直到幾年前才開(kāi)始將其超級(jí)電容器商業(yè)化,。由于積壓的合同已經(jīng)超過(guò)1.5億歐元(1.82億美元),Skeleton在10月的一輪融資中籌集了4100萬(wàn)歐元來(lái)擴(kuò)大規(guī)模,,并為推出“超級(jí)電池”做準(zhǔn)備:馬迪伯克認(rèn)為這是一個(gè)價(jià)值600億歐元的潛在市場(chǎng),。

作電子商務(wù)出身的馬迪伯克表示:“如果2009年的時(shí)候知道需要經(jīng)歷如此漫長(zhǎng)的歷程,或許我們未必就會(huì)創(chuàng)辦這家公司,。石墨烯的發(fā)展和走向市場(chǎng)都需要有足夠的耐心,。”(財(cái)富中文網(wǎng))

譯者:唐塵

取一段膠帶貼在鉛筆芯上,,撕下膠帶,,上面或許還粘著一層薄薄的石墨片。對(duì)折膠帶,,再撕開(kāi),,把粘著的石墨薄片分離開(kāi)來(lái)。重復(fù)10到20次。如果你的技術(shù)夠好,,那么恭喜你,,你得到了目前世上最薄、幾乎也是最堅(jiān)硬的材料,。

用膠帶粘出石墨烯確有其事:2004年,,來(lái)自英國(guó)曼徹斯特大學(xué)(University of Manchester)的安德烈·海姆和康斯坦丁·諾沃肖洛夫首次成功分離出了只有一個(gè)原子厚度的二維碳材料:石墨烯。這兩位物理學(xué)家也因此而獲得了2010年的諾貝爾物理學(xué)獎(jiǎng),。

石墨烯具有許多得天獨(dú)厚的性質(zhì),,正如那些加入石墨烯材料的新興產(chǎn)品所宣稱的那樣:耳機(jī)的音質(zhì)更棒、智能手機(jī)的散熱性能更好,、路面的強(qiáng)度更高,,洗發(fā)水的包裝也變得更加環(huán)保。

石墨烯不僅是世界上最薄,、強(qiáng)韌度第二(一維碳材料carbyne強(qiáng)度比石墨烯更高)的材料,,而且輕若無(wú)物、幾乎完全透明,。經(jīng)過(guò)不同的處理方式,,無(wú)論是彈性還是抗斷裂能力方面,石墨烯均表現(xiàn)優(yōu)異,。除此之外,,石墨烯還是數(shù)一數(shù)二的導(dǎo)電導(dǎo)熱材料,在處理液體時(shí)能夠形成可調(diào)型過(guò)濾器甚至是完全阻隔的屏障,。而且,,正如海姆和諾沃肖洛夫示范的那樣,石墨烯的制備工藝非常簡(jiǎn)單,。

石墨烯材料的優(yōu)異性能,,再加上諾貝爾獎(jiǎng)得主的精彩故事加持,十多年前關(guān)于石墨烯的宣傳可謂是鋪天蓋地,。但需要做的工作還有很多,,比如找出石墨烯的最佳制備方法、石墨烯的商業(yè)化應(yīng)用,、逐步構(gòu)建新市場(chǎng)等等,。于是,石墨烯概念炒作慢慢歸于沉寂,。

然而,,現(xiàn)在我們似乎真的要迎來(lái)屬于石墨烯的時(shí)代。

石墨烯“發(fā)聲”

加拿大初創(chuàng)公司Ora研發(fā)出了首款石墨烯耳機(jī)GQ,。洛杉磯愛(ài)樂(lè)樂(lè)團(tuán)(Los Angeles Philharmonic)的音樂(lè)總監(jiān)古斯塔夫·杜達(dá)梅爾發(fā)表聲明公開(kāi)支持這款耳機(jī),,他熱情洋溢地說(shuō):“耳機(jī)里傳來(lái)的音樂(lè)音質(zhì)如同站在交響樂(lè)團(tuán)指揮臺(tái)上聽(tīng)到的那般絲絲入扣,。”

石墨烯強(qiáng)度高,、質(zhì)量輕,,阻尼性能優(yōu)越:只要切斷通過(guò)石墨烯的電流,石墨烯就會(huì)隨即停止振動(dòng),。利用這些優(yōu)點(diǎn),,Ora研發(fā)出了用于耳機(jī)和揚(yáng)聲器的石墨烯材質(zhì)的振膜。就連諾沃肖洛夫本人也稱贊該公司確保了“石墨烯正式走出實(shí)驗(yàn)室,,進(jìn)軍音頻領(lǐng)域,。”

ORA的聯(lián)合創(chuàng)始人阿里·平卡斯稱:“近二十年來(lái),,從理論上來(lái)講,,石墨烯的性質(zhì)決定了這是一款制作揚(yáng)聲器振膜‘圣杯’一樣的材料?!彼忉屨f(shuō),,通常情況下,揚(yáng)聲器設(shè)計(jì)師必須在剛度,、輕巧性或阻尼方面降低要求,。

平卡斯稱,公司將與知名筆記本電腦和智能手機(jī)品牌合作,,為它們的設(shè)備制造體積更小,、更響亮的揚(yáng)聲器,并于2022年推出部分設(shè)計(jì),。但因?yàn)楹炇鹆吮C軈f(xié)議,,他并未公開(kāi)合作的品牌。

先進(jìn)技術(shù)市場(chǎng)調(diào)研公司IDTechEx的首席分析師理查德·柯林斯表示:“橫空出世的石墨烯是一種可以改變世界的神奇材料,。老實(shí)說(shuō),如果你跟與石墨烯相關(guān)的人士交談,,大多數(shù)人仍然認(rèn)為石墨烯會(huì)改變一切,。”

“事實(shí)上,,十年間也有很多公司在嘗試應(yīng)用石墨烯,。許多終端用戶在探索這種材料。從實(shí)際角度看,,只有到現(xiàn)在和未來(lái)幾年我們才慢慢接近石墨烯應(yīng)用的轉(zhuǎn)折點(diǎn),。”

石墨烯“上路”

從音頻到瀝青路面:石墨烯的高強(qiáng)度也激發(fā)了人們將之應(yīng)用于建筑領(lǐng)域的興趣,。

建筑行業(yè)的碳排放問(wèn)題由來(lái)已久,;生產(chǎn)混凝土所排放的二氧化碳占全球二氧化碳排放量的8%,。利用石墨烯強(qiáng)化混凝土,能夠減少建筑中的混凝土用量,,從而降低碳排放,。

但事實(shí)證明,石墨烯的高導(dǎo)熱率(華為近期推出的部分智能手機(jī)就應(yīng)用了這一性能)同樣可圈可點(diǎn),。

還記得幾年前意大利熱那亞發(fā)生的公路橋坍塌事故嗎,?重新鋪設(shè)的瀝青橋面中就含有意大利初創(chuàng)公司Directa Plus研制的石墨烯粉末。石墨烯成分的導(dǎo)熱性可以有效降低路面溫度,,使瀝青不易在低溫環(huán)境下產(chǎn)生冷點(diǎn)從而導(dǎo)致硬化和開(kāi)裂,。

Directa Plus聯(lián)合創(chuàng)始人及首席執(zhí)行官朱利奧·塞薩里奧聲稱:“這種添加劑最出色的性能在于它能夠使路面的平均使用壽命從目前的六七年提升至18至21年?!钡獶irecta Plus公司研制的石墨烯微片的應(yīng)用遠(yuǎn)不止于此,。

除了塞薩里奧外,Directa Plus還有幾位來(lái)自美國(guó)的聯(lián)合創(chuàng)始人(后來(lái)將持有的股份賣(mài)給了醫(yī)生起家的億萬(wàn)富翁投資人黃馨祥),。他們都曾經(jīng)是Union Carbide公司元老,。1984年博帕爾事件(Union Carbide公司在印度博帕爾市的農(nóng)藥廠出現(xiàn)化學(xué)氣體泄漏,50多萬(wàn)人因此而喪命)后不久,,意大利人塞薩里奧加入了這家美國(guó)化工巨頭(現(xiàn)為陶氏化學(xué)下屬公司),。

這場(chǎng)悲劇的不幸后果促使塞薩里奧開(kāi)始關(guān)注環(huán)境和可持續(xù)性,這一點(diǎn)也在Directa Plus的產(chǎn)品中得到了體現(xiàn),。

首先,,不同于金屬催化外延生長(zhǎng)的化學(xué)制備方法,Directa Plus采用的是高溫高壓條件下從石墨顆粒中剝離石墨烯的物理方法,。塞薩里奧表示,,使用這種方法可以更方便地生產(chǎn)出適合貼身穿著的石墨烯面料服裝和口罩(采用Directa Plus石墨烯材料的服裝和口罩均已上市銷售),成本也更低,。

除此之外,,Directa Plus還一直在與俄羅斯盧克石油公司和奧地利OMV公司合作,解決因?yàn)榱_馬尼亞原油泄漏而受到污染的土壤和水的凈化問(wèn)題,。由于水能夠通過(guò)石墨烯蒸發(fā),,而大多數(shù)其他液體不能,將Directa Plus的石墨烯粉末應(yīng)用于圍油欄可以吸附油污,,清潔周?chē)|(zhì),。吸附油污達(dá)到飽和狀態(tài)后,能夠作擠壓處理再重復(fù)使用,。

塞薩里奧在談到使用石墨烯凈化的初步成果時(shí)說(shuō):“我們清理了400噸原油,,并送到煉油廠回收?!?/p>

更環(huán)保的石墨烯包裝

考慮到環(huán)境效益,,還可以將石墨烯用作柔性阻隔包裝材料,。

本月,英國(guó)一家名為T(mén)oraphene的初創(chuàng)公司推出了一款生物聚合物,,該公司表示,,這是首款可完全生物降解、可堆肥,、可商業(yè)化生產(chǎn)的生物聚合物,,能夠替代塑料包裝。將石墨烯與植物天然高分子聚合物復(fù)合在一起的Toraphene材料將首先作為購(gòu)物袋材質(zhì)投入應(yīng)用,。

2011年,,挪威科技大學(xué)(Norwegian University of Science and Technology)的研究人員成立了Toraphene公司。但用作液體包裝材料才是石墨烯包裝材料的真正突破,。

首席執(zhí)行官高特·朱利烏森表示,,四年前,消費(fèi)品行業(yè)巨頭聯(lián)合利華(Unilever)曾經(jīng)與Toraphene接洽,,尋找更優(yōu)質(zhì)的小袋洗發(fā)水包裝(聯(lián)合利華方面證實(shí)兩家公司曾經(jīng)有過(guò)洽談),。為了防止液體滲出,目前小袋洗發(fā)水采用的是多層塑料和一層氧化鋁復(fù)合的鋁塑包裝袋形式,。Toraphene方面表示,,Toraphene材料具有液體包裝所需的強(qiáng)度和防水性,但因?yàn)椴牧铣煞种缓袡C(jī)物和碳,,所以更易于回收,。

總之,兩家公司的數(shù)輪洽談最后以失敗告終:朱利烏森表示,,經(jīng)過(guò)兩年的合同談判,,卡夫亨氏(Kraft Heinz)的敵意收購(gòu)促使聯(lián)合利華不得不大幅削減成本以提高股息,研發(fā)遭受重創(chuàng),。隨著Toraphene方面的洽談聯(lián)系人被解雇,,雙方未達(dá)成任何交易,為了將這種阻隔性包裝推向市場(chǎng),,這家初創(chuàng)公司將目光投向了剛剛完成的一輪眾籌(而且獲得了大量超額認(rèn)購(gòu)),。

朱利烏森稱:“我們制作阻隔性包裝需要的這類石墨烯目前的散裝價(jià)格約為每公斤200美元?!盜DTechEx的柯林斯認(rèn)為這個(gè)價(jià)格偏高,他表示,,目前一些公司的石墨烯售價(jià)低于每公斤10美元,。但Toraphene的石墨烯原料源自開(kāi)采的石墨,若使用低成本合成的石墨烯,,生產(chǎn)出來(lái)的包裝材料質(zhì)量達(dá)不到要求,。

朱利烏森說(shuō):“因?yàn)槲覀冇玫降氖┝糠浅I伲ㄊ┰诎b原材料中所占比例不到0.2%),,所以我們生產(chǎn)的石墨烯包裝具有很好的市場(chǎng)前景。加入石墨烯可能會(huì)增加10%左右的成本,,但包裝的牢固性提升了20%以上,。我們可以造福社會(huì)?!?/p>

下一個(gè)應(yīng)用領(lǐng)域:紙質(zhì)咖啡杯,。目前的紙質(zhì)咖啡杯使用塑料襯里來(lái)防止?jié)B漏,很難回收利用,。Toraphene已經(jīng)申請(qǐng)專利將Toraphene材料用作咖啡杯襯里,,目前正在爭(zhēng)取獲得美國(guó)和歐洲的食品標(biāo)準(zhǔn)監(jiān)管機(jī)構(gòu)的批準(zhǔn)。

柯林斯認(rèn)為,,石墨烯在這類領(lǐng)域才能夠真正大獲成功,。(據(jù)IDTechEx估算,到2031年,,各種石墨烯材料的市場(chǎng)價(jià)值將從目前的不到1億美元上漲到7億美元,。)確實(shí),因?yàn)槭褂昧耸┎牧?,耳機(jī),、網(wǎng)球拍、鞋子等許多消費(fèi)品都實(shí)現(xiàn)了增值銷售,,但他也表示:“只有銷售了成千上百噸的材料才算是成功,。”

柯林斯說(shuō):“以汽車(chē)公司為例,,它們不會(huì)花錢(qián)購(gòu)買(mǎi)耐磨襯墊,,因?yàn)槭?huì)拉高營(yíng)銷成本。這就是現(xiàn)實(shí),。這種產(chǎn)品生命周期經(jīng)濟(jì)學(xué)有意義嗎,?而這就是那個(gè)轉(zhuǎn)折點(diǎn)的主旨所在?!?/p>

高歌猛進(jìn)

我們終于談到了石墨烯領(lǐng)域當(dāng)前最受關(guān)注的公司之一:Skeleton Technologies,。

這家有著愛(ài)沙尼亞和德國(guó)背景的公司與歐洲幾家汽車(chē)巨頭簽訂了合同,為后者生產(chǎn)用于存儲(chǔ)能量的石墨烯電池(暫時(shí)未公布合作品牌),。

把普通的石墨烯一層層堆疊起來(lái)會(huì)發(fā)生聚集并最終變回石墨,。為了解決這一難題,Skeleton開(kāi)發(fā)了一種專利方法來(lái)制造彎曲的石墨烯材料,,并將這種材料用于超級(jí)電容器,。

這款石墨烯增強(qiáng)型電池可以在數(shù)秒內(nèi)充滿電,一百萬(wàn)次充放電循環(huán)后都不會(huì)退化,,并且不需要鋰,、鈷等稀缺材料,。目前,這些超級(jí)電容器已經(jīng)在挖掘機(jī),、醫(yī)療設(shè)備和運(yùn)輸工具中得到應(yīng)用:在德國(guó)曼海姆,、海德堡和路德維希港等城市,超級(jí)電容器被用于回收有軌電車(chē)的制動(dòng)能量,,再將回收的能量用來(lái)加速,。

Skeleton的首席執(zhí)行官塔維·馬迪伯克說(shuō):“在所有類型的電池解決方案中,超級(jí)電容器成本最低,、體積最小,。”然而,,與傳統(tǒng)的鋰電池相比,,這些超級(jí)電容器儲(chǔ)存的能量更少,因此,,石墨烯超級(jí)電容器很可能會(huì)與其他技術(shù)共存并相互補(bǔ)充,。

馬迪伯克稱,彎曲的石墨烯最大的好處是能夠處理導(dǎo)致標(biāo)準(zhǔn)鋰電池過(guò)熱和隨著時(shí)間的推移而退化的峰值負(fù)載,;兩者相結(jié)合可以讓電池組體積縮小30%,,使用壽命延長(zhǎng)一倍。他還談到,,隨著相對(duì)不可預(yù)測(cè)的可再生能源影響力增強(qiáng),,Skeleton的超級(jí)電容器在維持電網(wǎng)穩(wěn)定方面潛力巨大。

早在2009年石墨烯材料剛剛興起之際,,Skeleton就已經(jīng)開(kāi)始開(kāi)發(fā)石墨烯技術(shù),,但直到幾年前才開(kāi)始將其超級(jí)電容器商業(yè)化。由于積壓的合同已經(jīng)超過(guò)1.5億歐元(1.82億美元),,Skeleton在10月的一輪融資中籌集了4100萬(wàn)歐元來(lái)擴(kuò)大規(guī)模,,并為推出“超級(jí)電池”做準(zhǔn)備:馬迪伯克認(rèn)為這是一個(gè)價(jià)值600億歐元的潛在市場(chǎng)。

作電子商務(wù)出身的馬迪伯克表示:“如果2009年的時(shí)候知道需要經(jīng)歷如此漫長(zhǎng)的歷程,,或許我們未必就會(huì)創(chuàng)辦這家公司,。石墨烯的發(fā)展和走向市場(chǎng)都需要有足夠的耐心?!保ㄘ?cái)富中文網(wǎng))

譯者:唐塵

Take a piece of adhesive tape and apply it to the “l(fā)ead” of a pencil. Pull the tape away, and it may still have some thin flakes of graphite attached. Fold the tape in half and unfold it, to split the flakes. Do this 10 or 20 times and, if your technique is good, then congratulations—you’ve just made the thinnest known material, and almost the strongest.

The tape trick is literally how Andre Geim and Konstantin Novoselov managed to first isolate graphene—an atom-thick and therefore two-dimensional layer of carbon—at the U.K.’s University of Manchester in 2004. Six years later, the physicists won the Nobel Prize for their efforts, and for good reason.

Graphene’s properties are extraordinary, as shown in emerging products that incorporate the material: better-sounding headphones, cooler smartphones, tougher roads, and more environmentally friendly shampoo packaging.

Not only is graphene the world’s thinnest and second-strongest material—a one-dimensional form of carbon called carbyne has overtaken it there—but it’s incredibly light and transparent. It’s also either very flexible or very stiff, depending on how it’s treated. It’s among the best thermal conductors and the fastest electrical conductors, and it’s also great at letting water through while blocking anything else, making it an excellent filter and barrier. And, as Geim and Novoselov demonstrated, graphene can be quite easy to make.

These properties, plus the Nobel laureates’ remarkable story, led to a ton of graphene hype around a decade ago. But a lot of work still needed to be done, such as figuring out how best to make and wrangle graphene; finding applications where it makes economic sense; and slowly constructing new markets. So the hype died down.

Now, however, the wonder substance’s time may be arriving.

Listen up

“I can hear every musical detail with a level of clarity I’ve only ever experienced from the podium in front of an orchestra,” enthused Gustavo Dudamel, the music director of the Los Angeles Philharmonic, as he endorsed the world’s first graphene-based headphones—a set called GQ, made by a Canadian startup called Ora—in a statement.

Harnessing graphene’s stiffness, lightness, and damping properties—its ability to stop moving as soon as an electrical current stops passing through it—Ora is using graphene oxide to make membranes for headphones and loudspeakers. Novoselov himself has hailed the firm for ensuring that “graphene is officially out of the lab and into the audio world.”

“For almost two decades now, graphene’s theorized properties have been viewed as the ‘holy grail’ diaphragm material for loudspeakers,” says Ora cofounder Ari Pinkas, explaining that speaker designers usually have to compromise on either stiffness, lightness, or damping.

Pinkas says his company is working with major laptop and smartphone brands on making smaller and louder speakers for their devices, with some designs set to launch in 2022. However, citing nondisclosure agreements, he isn’t naming any names.

“When graphene burst onto the scene, it was a wonder material that would change the world,” says Richard Collins, a principal analyst at the advanced-technology market research firm IDTechEx. “To be honest, if you talk to a lot of graphene people, they still think it will change everything.

“What’s happened is, over that 10-year period, you’ve had a lot of companies trial it. You’ve had a lot of end users explore it. Realistically, only now and over the next couple of years we’re reaching that inflection point.”

Hit the road

From audio to asphalt: Graphene’s strength is stirring up interest in the construction industry.

The industry has a long-standing problem with emissions; as much as 8% of the world’s CO2 emissions come from concrete production. The addition of graphene into the mix could help cut those emissions, because it would allow for stronger concrete, which means being able to use less concrete.

But graphene’s ability to quickly and efficiently conduct heat (a property that has led to its use in some recent Huawei smartphones) is also proving useful.

Remember the deadly highway bridge collapse that occurred a couple of years ago in Genoa, Italy? The asphalt on the bridge’s replacement contains graphene powder made by an Italian startup called Directa Plus. This helps distribute heat through the road surface, so in freezing temperatures there’s less likelihood of cold spots generating cracks that eventually become potholes.

“The most impressive property is that this additive is able to triple the life of the road from six to seven years to 18 to 21 years,” claims Giulio Cesareo, Directa Plus cofounder and CEO. But that’s far from the only use for the company’s graphene nanoplatelets.

Cesareo and his American cofounders—who have since sold their shares to the billionaire surgeon turned investor Patrick Soon-Shiong—are veterans of Union Carbide. The Italian joined the U.S. chemical giant (now owned by Dow) just after the 1984 Bhopal disaster, in which a Union Carbide pesticide plant in India leaked gas and poisoned more than half a million people.

The aftermath of that tragedy fueled Cesareo’s interest in the environment and sustainability, which is now playing out in Directa Plus’s work.

For one thing, Directa Plus’s method of producing graphene is based on physics rather than chemistry—instead of using chemicals to grow the substance on metal, it uses extreme heat and pressure to exfoliate graphene from graphite particles. This, says Cesareo, makes it easier and cheaper to produce graphene-based fabrics that can be safely worn on the skin, in clothing and face masks (both of which are on the market, using Directa Plus’s graphene.)

The company has also been working with Russia’s Lukoil and Austria’s OMV on decontaminating soil and water that has been polluted through oil spills in Romania. Because graphene is able to block most fluids while letting only water through, Directa Plus’s powder is being used in barriers that absorb spilled oil, cleaning up the surround. When saturated, they can effectively be squeezed out and used again.

“We removed 400 tons of crude oil that was sent back to the refinery,” says Cesareo of early deployments.

Greener packaging

Graphene’s utility as a flexible barrier is naturally very handy in the world of packaging—again, with environmental benefits in mind.

This month, a U.K.-based startup called Toraphene unveiled a biopolymer that it says provides the first fully biodegradable, compostable, and commercially viable alternative to plastic packaging. The eponymous material, which combines graphene with natural polymers from plants, is being deployed first in shopping bags.

But the real breakthrough—the one which launched Toraphene’s journey in 2011, when its founders were researchers at the Norwegian University of Science and Technology—will be in packaging for liquids.

CEO Gaute Juliussen says the consumer goods giant Unilever approached Toraphene four years ago, asking for a better shampoo sachet (Unilever confirms the companies had discussions.) Current sachets use a few layers of plastic for strength and one of aluminum oxide, to provide a barrier against the liquid oozing out. Toraphene says its material provides the strength and impermeability that is needed, but in a form that can be easily recycled as it is just organics and carbon.

In any case, the Unilever discussions fell through: After two years of contract negotiations, Juliussen says, Kraft Heinz’s attempted hostile takeover prompted big cost-cutting measures in order to boost dividends, and R&D was hit hard. With Toraphene’s contacts now having been let go, there was no deal, and the startup turned to a just completed (and heavily oversubscribed) round of crowdfunding to get its barrier packaging to market.

“The type of graphene we are looking at for packaging will currently cost in bulk around $200 per kilo,” says Juliussen. That’s high—IDTechEx’s Collins says some companies are selling graphene for under $10 per kilogram these days. But Toraphene’s graphene comes from quarried graphite rather than being synthesized at low cost, an approach which can create an inferior product.

“Because we use so little of it [less than 0.2% of the packaging is graphene] we are able to make economic packaging with it,” says Juliussen. “It adds maybe 10% or so to the cost, but then we add strength to the packaging of more than 20%. Net-net, we are able to confer a benefit.”

Next stop: paper coffee cups, which currently use a plastic lining for impermeability that also makes them difficult to recycle. Toraphene has filed a patent for the use of its material as a lining, and is currently working on approval from U.S. and European food-standards regulators.

According to Collins, it’s this sort of area where graphene could really find success. (IDTechEx reckons the market for various kinds of graphene material will be worth $700 million by 2031, up from under $100 million today.) Yes, there are consumer products that are upsold based on their use of graphene—headphones, tennis rackets, shoes—but “success is having hundreds to thousands of tons of your material being sold,” he says.

“The reality is, if you talk to an automotive company, they’re not going to spend money on a wear-resistant liner, because graphene adds marketing,” Collins says. “It’s the economics over the lifetime of the product—does it make sense? That’s the thrust of that inflection point.”

Charging forward

Which brings us finally to one of the most talked about companies currently operating in the graphene space: Skeleton Technologies.

The Estonian-German firm has contracts with some of Europe’s biggest automotive names—though it’s reluctant to publicize them for now—and not for liner material, but for energy storage in graphene-based batteries.

If you stack normal, flat graphene layers, they clump together and you end up with graphite again. So Skeleton developed a proprietary method of making curved graphene, which overcomes this problem. It uses this curved graphene in ultracapacitors.

That means batteries that can be charged in seconds, a million times over, with no need for scarce materials such as lithium and cobalt. These ultracapacitors are already being used in excavators, in medical equipment, and in transport: In the German cities of Mannheim, Heidelberg, and Ludwigshafen, they are recuperating trams’ braking energy and reusing it for acceleration.

“It’s cheaper and smaller than any type of battery solution,” says Skeleton CEO Taavi Madiberk. However, because these ultracapacitors store less energy than traditional lithium-ion batteries, it’s likely that graphene ultracapacitors will coexist with and complement other technologies.

According to Madiberk, curved graphene’s biggest benefit is in handling the peak loads that cause standard lithium-ion batteries to overheat and to degrade over time; combining the two allows for battery packs that are 30% smaller and twice as long-lasting. He also talks up the potential of Skeleton’s ultracapacitors in maintaining electrical-grid stability as relatively unpredictable renewables become more predominant.

Skeleton has been developing its technology since the early days of graphene, in 2009, but it only started commercializing its ultracapacitors a couple of years ago. With a contract backlog that already exceeds €150 million ($182 million), it raised €41 million in an October investment round to scale up and prepare for its launch of “super-batteries,” for which Madiberk sees a potential €60 billion market.

“Maybe in 2009, if I’d known how long it takes, I’m not sure we would have started the company,” says Madiberk, whose background is in e-commerce. “In terms of graphene and getting to the market, it’s patience, patience, patience.”

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