SCI科技论文写作常用句型大全.docx
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SCI科技论文写作常用句型大全.docx
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SCI科技论文写作常用句型大全
一.好的论文题目是成功的一半
好的论文,每一个部分都需要精雕细琢。
我们先来看看Science,Nature子刊上用的都是些什么题目,到底这些题目暗含哪些玄机?
以下是从2016年发表的论文中随机挑选的一些题目,我将其做了一下简单的分类:
1.Watersplitting–biosyntheticsystemwithCO2?
reductionefficiencies?
exceeding?
photosynthesis.(Science,2016,352,1210)
类似:
Scalablewatersplittingonparticulatephotocatalystsheetswithasolar-to-hydrogenenergyconversionefficiency?
exceeding?
1%?
(NatureMaterials2016,15,611-615)
这种题目适合哪类文章?
适合于那种性能极其显着的文章(可以创纪录的文章),比如说Noceraetal.的?
Science,2016,352,1210,直接与光合作用进行对比,给人的震撼是非常强的。
这种对比效果能够一下子抓住人们的眼球,吸引着读者进行阅读。
要点:
使用这样的题目首先你的实验结果得够牛,你对于实验结果要足够自信,对于背景知识的了解得要足够深。
因为取这样的题目意味着你要真正达到了某一个高度。
如果明明有很多大海在那里,你个小池塘和小水坑进行比较,那么会闹笑话的。
。
。
2.1Quantifying?
thepromotionofCucatalystsbyZnOformethanolsynthesis(?
Science,2016,352,969-974.)
2.2?
Exploring?
theoriginofhighopticalabsorptioninconjugatedpolymers.(NatureMaterials2016,?
DOI:
?
10.1038/nmat4645?
)
2.3Promoting?
solutionphasedischargeinLi–O2batteriescontainingweaklysolvatingelectrolyte?
solutions(NatureMaterials2016,DOI:
10.1038/nmat4629)
2.4Reconstructing?
solute-inducedphasetransformationswithinindividualnanocrystals(NatureMaterials2016,?
doi:
10.1038/nmat4620)
2.5Tailoring?
thenatureandstrengthofelectron–phononinteractionsintheSrTiO3(001)2Delectron?
liquid(NatureMaterial,2016,doi:
10.1038/nmat4623)
我简单地检索了下NatureMaterials上面的文章题目,发现这种类型的题目真的非常多。
那么为什么大家非常青睐这种形式呢?
这种形式到底有什么好处?
我个人也很喜欢这种样子的题目,当然一定要跟论文的实际情况吻合哈,不要强凑。
这种动名词形式的结构最大的优点是主观能动性很强。
给人的一种感觉是:
你在设计整个实验,而不是碰巧发现了某个现象。
科研需要偶然现象,但是理性地科学研究追求一切能够有据可循,能够主动地把握而不是被动接受奇迹的降临。
3.1?
Surfacefunctionalization?
oftwo-dimensionalmetalchalcogenides?
byLewisacid–basechemistry(NatureNanotechnology2016,11,465–471)
3.2?
Protontransferdynamicscontrol?
themechanism?
ofO2?
reduction?
byanon-preciousmetal?
electrocatalyst?
(NatureMaterials,2016,?
doi:
10.1038/nmat4636)
3.3Femtosecond?
controlof?
electriccurrents?
in?
metallicferromagneticheterostructures(NatureNanotechnology2016,11,455–458)
3.4?
Improvedairstabilityofperovskitesolarcellsviasolution-processedmetaloxidetransportlayers(NatureNanotechnology,2016,11,75–81)
这种类型的题目非常的好懂,重点非常突出,给人一种开门见山的感觉,在很多论文中非常恰当。
以3.1为例,两个重点非常明确:
1.实现的目标是什么?
Surfacefunctionalizationof?
2.实现的方法是什么?
Lewisacid-basechemistry.
4.1Insitu?
hydrodynamicspectroscopy?
forstructurecharacterizationofporousenergystorage?
electrodes(NatureMaterials,2016,15,570–575)
4.2?
Kineticsoftheself-assemblyofnanocrystalsuperlatticesmeasuredby?
real-time?
insitu?
X-ray?
scattering?
(NatureMaterials,2016,doi:
10.1038/nmat4600)
4.3Insitu?
mapping?
oftheenergyflowthroughtheentirephotosyntheticapparatus(NatureNanotechnology,2016,?
doi:
10.1038/nchem.2525)
4.4Optimizedquantumsensingwithasingleelectronspinusing?
real-timeadaptivemeasurements?
(NatureNanotechnology,2016,11,247–252)
有些文章,一幅图就值了一篇Science。
有些表征手段或者研究方法生来就是让人膜拜的,特别是一些原位的表征手段,能够直观地告诉人们以前得不到的一些信息。
在这种情况下,用它来做个题目一点都不过分吧。
最后对以上几类标题的共性做一下简单的总结:
1)?
好的论文题目往往都能够紧贴文章内容,并将其核心亮点突显出来;2)标题中的字真的是一字千金,废话不要有,一定要简洁明了;3)用词要准确,尽量采用中性词,不要带主观色彩,不要扣大帽子引起审稿人反感,但是又要合适地体现亮点,好的论文题目要学会不卑不亢。
二.正文中各种常用句型汇总
一、在Introduction里面经常会使用到的一个句子:
很多文献已经讨论过了。
。
。
它的可能的说法有很多很多,这里列举几种我很久以前搜集的:
A.?
?
Solarenergyconversionbyphotoelectrochemicalcells?
hasbeenintensivelyinvestigated.?
(Nature1991,353,737-740?
)
B.?
Thiswasdemonstratedinanumberofstudiesthatshowedthatcompositeplasmonic-metal/semiconductorphotocatalystsachievedsignificantlyhigherratesinvariousphotocatalyticreactionscomparedwiththeirpuresemiconductorcounterparts.
C.?
Severalexcellentreviewsdescribing?
theseapplicationsareavailable,andwedonotdiscussthesetopics
D.?
Muchworksofarhasfocusedon?
widebandgapsemiconductorsforwatersplittingforthesakeofchemicalstability.(DOI:
10.1038/NMAT3151)
E.?
RecentdevelopmentsofLewisacidsandwater-solubleorganometalliccatalysts?
haveattractedmuchattention.(Chem.Rev.2002,102,3641?
3666)
F.?
Aninterestingapproach?
intheuseofzeoliteasawater-tolerantsolidacid?
wasdescribedby?
Ogawaetal(Chem.Rev.2002,102,3641?
3666)
G.?
Considerableresearcheffortshavebeendevotedtothedirecttransitionmetal-catalyzedconversionofarylhalidestoarylnitriles.(J.Org.Chem.2000,65,7984-7989)
H.?
Therearemanyexcellentreviewsintheliteraturedealingwiththebasicconceptsof?
thephotocatalyticprocessandthereaderisreferredinparticulartothosebyHoffmannandcoworkers,Millsandcoworkers,andKamat.(Metaloxidecatalysis,19,P755)
I.NishimiyaandTsutsumi?
havereportedon(proposed)theinfluenceoftheSi/Alratioofvariouszeolitesontheacidstrength,whichwereestimatedbycalorimetryusingammonia.(Chem.Rev.2002,102,3641?
3666)
二、在resultsanddiscussion中经常会用到的:
如图所示
A.GIXRDpatternsin?
Figure1Ashow?
thebulkstructuralinformationonas-depositedfilms.?
B.?
AsshowninFigure7B,?
thesteady-statecurrentdensitydecreasesaftercyclingbetween0.35and0.7V,whichisprobablyduetothedissolutionofFeOx.?
C.?
Ascanbeseenfrom?
partsaandbofFigure7,thereactioncyclesstartwiththethermodynamicallymostfavorableVOxstructures(J.Phys.Chem.C2014,118,24950?
24958)
这与XX能够相互印证:
A.?
Thisissupportedby?
theappearanceintheNi-dopedcompoundsofanultraviolet–visibleabsorptionbandat420–520nm(seeFig.3inset),correspondingtoanenergyrangeofabout2.9to2.3eV.
B.?
This?
isconsistentwiththeobservationfrom?
SEM–EDS.(Z.Zouetal./ChemicalPhysicsLetters332(2000)271–277)
C.?
Thisindicatesagoodagreementbetween?
theobservedandcalculatedintensitiesinmonoclinicwithspacegroupP2/cwhentheOatomsareincludedinthemodel.
D.Theresults?
areingoodconsistentwith?
theobservedphotocatalyticactivity...
E.Identicalconclusionswereobtainedinstudies?
wheretheSPRintensityandwavelengthweremodulatedbymanipulatingthecomposition,shape,orsizeofplasmonicnanostructures.?
F.?
Itwasalsofoundthatareasofpersistentdivergentsurfaceflow?
coincide?
with?
regionswhereconvectionappearstobeconsistentlysuppressedevenwhenSSTsareabove27.5°C.
三.值得注意的是...
A.?
Itmustalsobementionedthat?
therecyclingofaqueousorganicsolventislessdesirablethanthatofpureorganicliquid.
B.?
Anotherinterestingfindingisthat?
zeoliteswith10-memberedringporesshowedhighselectivities(>99%)tocyclohexanol,whereasthosewith12-memberedringpores,suchasmordenite,producedlargeamountsofdicyclohexylether.(Chem.Rev.2002,102,3641?
3666)
C.?
Itshouldbepointedoutthat?
thenanometer-scaledistributionofelectrocatalystcentersontheelectrodesurfaceisalsoapredominantfactorforhighORRelectrocatalyticactivity.
D.?
Notably,?
theRuIIandRhIcomplexespossessingthesameBINAPchiralityformantipodalaminoacidsasthepredominantproducts.?
(Angew.Chem.Int.Ed.,2002,41:
2008–2022)
E.Giventhemultitudeofvarioustransformationspublished,?
itisnoteworthythat?
onlyveryfewdistinct?
activation?
methodshavebeenidentified.?
(Chem.Soc.Rev.,2009,?
38,2178-2189)
F.Itisimportanttohighlightthat?
thesetwodirectingeffectswillleadtodifferentenantiomersoftheproductsevenifboththe“H-bond-catalyst”andthe?
catalyst?
actingbystericshieldinghavethesameabsolutestereochemistry.(Chem.Soc.Rev.,2009,?
38,2178-2189)
G.Itisworthwhilementioningthat?
thesePPNDscanbeverystableforseveralmonthswithouttheobservationsofanyfloatingorprecipitateddots,whichisattributedtotheelectrostaticrepulsionsbetweenthepositivelychargePPNDsresultinginelectrostericstabilization.(Adv.Mater.,2012,24:
2037–2041)
四.?
...仍然是个挑战
A.?
Thereistherebyanurgentneedbutitisstillasignificantchallengeto?
rationallydesignanddelicatelytailortheelectroactiveMTMOsforadvancedLIBs,ECs,MOBs,andFCs.?
(Angew.Chem.Int.Ed.2014,53,1488–1504)
B.?
However,systemsthatare?
sufficientlystableandefficientforpracticaluse?
havenotyetbeenrealized.
C.?
?
It?
remains?
challenging?
to?
develophighlyactiveHERcatalystsbasedonmaterialsthataremoreabundantatlowercosts.(J.Am.Chem.Soc.,?
2011,?
133,?
7296–7299)
D.?
Oneofthe?
great?
challenges?
inthetwenty-firstcentury?
is?
unquestionablyenergystorage.(NatureMaterials?
2005,4,366-377?
)
五.众所周知
A.?
Itiswellestablished(accepted)/Itisknowntoall/Itiscommonlyknown?
that?
manycharacteristicsoffunctionalmaterials,suchascomposition,crystallinephase,structuralandmorphologicalfeatures,andthesur-/interfacepropertiesbetweentheelectrodeandelectrolyte,wouldgreatlyinfluencetheperformanceoftheseuniqueMTMOsinelectrochemicalenergystorage/conversionapplications.(Angew.Chem.Int.Ed.2014,53,1488–1504)
B.?
Itisgenerallyaccepted(believed)that?
fora-Fe2O3-basedsensorsthechangeinresistanceismainlycausedbytheadsorptionanddesorptionofgasesonthesurfaceofthesensorstructure.(Adv.Mater.2005,17,582)
C.?
Asweallknow,?
soybeanaboundswithcarbon,?
nitrogen?
andoxygenelementsowingtotheexistenceofsugar,?
proteins?
and?
lipids.(Chem.Commun.,2012,?
48,9367-9369)
D.?
Thereisnodenyingthat?
theirpresencemaymediatespinmomentstoalignparallelwithoutactingalonetoshowd0-FM.(Nanoscale,2013,?
5,3918-3930)
六.正如下文将提到的...
A.?
Aswillbedescribedbelow(也可以是Asweshallseebelow),?
astheSi/Alratioincreases,thesurfaceofthezeolitebecomesmorehydrophobicandpossessesstrongeraffinityforethylacetateandthenumberofacidsitesdecreases.(Chem.Rev.2002,102,3641?
3666)
B.Thisbehavioristobeexpectedand?
will?
be?
further?
discussed?
below.(J.Am.Chem.Soc.,?
1955,?
77,3701–3707)
C.?
Therearealsosomesmalldeviationswithrespecttotheflowdirection,?
whichwe?
will?
discuss?
below.?
(Science,2001,291,630-633)
D.?
Below,?
we?
will?
see?
whatthisimplies.
E.?
Completedetailsofthiscase?
will?
beprovidedata?
later?
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