【科北浙南清开厦交复武】近10年高校在JACS发表论文数量排名和趋势分析

SmithArno

JACS Au大概是什么水平嗷

我的先人啊

okwzhtt 发表于 2023-11-7 15:45
% w4 k: e6 ]* |0 M3 v2 @武大化学的师资规模只有南开的60%，厦大的不到50%

3 R+ T! x. [. Z' r. H9 t武大搞分析的也有点多，分析的很难很难发JACS，大部分都是发AC 就算不错了

马斯克全职回国

SmithArno 发表于 2023-11-8 10:45
% r/ E( A* N7 w" }$ PJACS Au大概是什么水平嗷

相当于JACS的编辑精选，比JACS整体略好，但是发文量太少了

马斯克全职回国

ENS 发表于 2023-11-8 10:41
铁牌最多，也没一块金牌来得亮眼、辣眼、耀眼
最近40年国家自科一等奖[化学类]高校得主：吉大、南开、复旦 ...

那最牛的还是北大吧，人家有诺贝尔化学奖校友，你们有吗

我的先人啊

走路不看路 发表于 2023-11-7 17:26
武大化学2020年前的几年颓势明显，2019年分析化学教育部实验室还被摘牌，分析化学发行量比较大的教材就是武 ...

: |& k2 k4 p* k/ i5 p应该再上个院士，再搞个国重，两个院士+X杰青+国重，差不多能争前十

马斯克全职回国

我的先人啊 发表于 2023-11-8 10:50
应该再上个院士，再搞个国重，两个院士+X杰青+国重，差不多能争前十

其实主要是中青年人才，上交化学很多年都只有颜德岳一个院士，也没有国重，不耽误进入前十梯队

马斯克全职回国

ENS 发表于 2023-11-8 11:52
" x; [3 N! F: P$ m屠呦呦得的是生理医学奖

# g9 q- c& z8 a; Q: W" r9 a记错了            

maige

屠呦呦发过Angew（10.1002/anie.201601967），还没发过JACS

马斯克全职回国

maige 发表于 2023-11-8 12:38
屠呦呦发过Angew（10.1002/anie.201601967），还没发过JACS

历年的诺奖得主都会被angew邀请去写篇文章的，毕竟都是欧洲人主导的，沾亲带故，属于开个小灶……这篇也是讲青蒿素的历史的……这不能算

ustcharvard

既然不区分第一/通讯作者，为啥不直接用NI数据？那个至少按作者单位算了比重。

ustcharvard

既然不区分第一/通讯作者，为啥不直接用NI数据？那个至少按作者单位算了比重。

smiletime

这两刊现在很多高校医学院，药学院，材料学院都在发了。

smiletime

感觉厦大化学近几年发文比较重视nature子刊。2023年截止目前为止，化院已发nature大子刊13篇，nature communication19篇。

马斯克全职回国

smiletime 发表于 2023-11-9 11:54
: E/ L1 F2 Q1 g! C1 {感觉厦大化学近几年发文比较重视nature子刊。2023年截止目前为止，化院已发nature大子刊13篇，nature commu ...

应该是受到学校或者院系的奖励政策指挥，小NC的工分比J/A高

原始人

smiletime 发表于 2023-11-9 11:54
感觉厦大化学近几年发文比较重视nature子刊。2023年截止目前为止，化院已发nature大子刊13篇，nature commu ...

厦大顶刊一直不错，接近前十的水平

3 i0 o' H$ i, k+ a5 c. q主要是工科医科以及数理还没完全起来，光靠化生海有点单调

二师兄

天大化学连比较都不配吗？感觉排在11-15啊。。。

马斯克全职回国

二师兄 发表于 2023-11-9 14:56
* K& \( L& ^, y4 `$ A: {天大化学连比较都不配吗？感觉排在11-15啊。。。

  D1 G" p  f% e8 [! N第四次学科评估，天大没有参评化学……前15是不可能的，第四次学科评估，所有A（含-和+）一共就15个

二师兄

马斯克全职回国 发表于 2023-11-9 15:00
第四次学科评估，天大没有参评化学……前15是不可能的，第四次学科评估，所有A（含-和+）一共就15个 ...

第四次看的是15年之前的事了。化学这个周期论文你再看看呢？。。。外加有国二，教育部重点实验室，杰青优青新增，排在15名不可能吗？

马斯克全职回国

二师兄 发表于 2023-11-9 15:05
第四次看的是15年之前的事了。化学这个周期论文你再看看呢？。。。外加有国二，教育部重点实验室，杰青优 ...

$ x3 m& i! f2 x5 r$ D这十五个，你想超过哪个，可以点名，我们具体去看看谁强
1        10001        北京大学        A+
+ r0 o1 J2 B* \, U9 {) S2        10003        清华大学        A+
3        10358        中国科学技术大学        A+
) S. h% H. c8 h: P6 X4        10055        南开大学        A
+ l% T" B0 j/ F4 H* O0 j5        10183        吉林大学        A
$ P8 e. e6 f" W% Z6        10246        复旦大学        A
7        10384        厦门大学        A
8        10248        上海交通大学        A-
9        10284        南京大学        A-
9 V1 |) h- F8 c2 b/ h% G: T6 t10        10335        浙江大学        A-
11        10386        福州大学        A-
12        10486        武汉大学        A-
13        10532        湖南大学        A-
: w' Z! T  W& E* W6 o14        10558        中山大学        A-
9 K7 S8 h$ _4 ~15        10610        四川大学        A-

二师兄

马斯克全职回国 发表于 2023-11-9 15:08
这十五个，你想超过哪个，可以点名，我们具体去看看谁强
% c: |( V, u' O9 ^9 X0 _+ @2 q' P1        10001        北京大学        A+
' L! J0 h' |5 J0 c2        10003        清华大学        A+

( J2 N, f9 |  n: C你这个不是JACS排名吗？近三年天大发刊量就是10名左右。第四轮连前30都排不进去，还在看十年前的名次。数学第四轮才有博士点，不照样第五轮A-了。别用老眼光了。。。

马斯克全职回国

二师兄 发表于 2023-11-9 15:21
你这个不是JACS排名吗？近三年天大发刊量就是10名左右。第四轮连前30都排不进去，还在看十年前的名次。数 ...

麻烦认真读读我写的汉字

$ N7 O3 @  a4 g& ?0 }! D2 O7 @! ~楼主检索统计了近10年中国高校在JACS上发文的前20名，由于无法遍历所有高校，因此是挑选了公开的第四轮学科评估化学前15名（也即所有A-/A/A+），外加北师大、兰大、苏大、北化工、华东理工这五所化学不错的高校。

你觉得天大需要统计，你就自己开贴，我有什么义务非要统计天大

二师兄

马斯克全职回国 发表于 2023-11-9 15:25
麻烦认真读读我写的汉字

楼主检索统计了近10年中国高校在JACS上发文的前20名，由于无法遍历所有高校，因 ...

是的马姐，我知道你瞧不上天大化学，在此只是提出个人意见，不用在意。。。

马斯克全职回国

二师兄 发表于 2023-11-9 15:27
# u* b% a7 I6 r. j% {是的马姐，我知道你瞧不上天大化学，在此只是提出个人意见，不用在意。。。 ...

倒也不用这么玻璃心

zgjyb

smiletime 发表于 2023-11-9 11:54
. r4 H( a7 Z* W- k! _, O, g1 @感觉厦大化学近几年发文比较重视nature子刊。2023年截止目前为止，化院已发nature大子刊13篇，nature commu ...

很明显，发两刊的越来越少，发大子刊和nc的逐年增加

zgjyb

smiletime 发表于 2023-11-9 11:54
5 s  Y# S' ]9 e0 Z+ s; E感觉厦大化学近几年发文比较重视nature子刊。2023年截止目前为止，化院已发nature大子刊13篇，nature commu ...

这几年化学其实更侧重产学研，NS大户主搞产研融合，但NS主刊和子刊居然还能保持甚至增长，很不容易

明月高悬

原始人 发表于 2023-11-7 17:44
考虑到acie低于jacs,且为两年数据,将21-22年acie*0.4再与jacs相加

数据大概看看就好
" N! `! _5 w0 [1 K

7 `1 v" C0 `8 ~你这也太狠了，乘以0.4，其实两刊差不多的。

明月高悬

原始人 发表于 2023-11-7 17:44
! q/ E, I* A1 C8 l  N0 g+ {考虑到acie低于jacs,且为两年数据,将21-22年acie*0.4再与jacs相加

数据大概看看就好

" N! A5 v. X- i7 P9 w3 R3 ?3 B查了一下，发现你这个大部分是错误的。

原始人

明月高悬 发表于 2023-11-9 18:33
你这也太狠了，乘以0.4，其实两刊差不多的。

前面那个是两年的，也就打八折

明月高悬

原始人 发表于 2023-11-7 17:44
7 }+ P- G( [- D. l2 a考虑到acie低于jacs,且为两年数据,将21-22年acie*0.4再与jacs相加

数据大概看看就好

21-22年JACS第一作者+通讯作者几校实际发文情况：
浙大  19+20
) o5 S$ S( X3 Q$ H2 _: G0 ]复旦  24+33
交大  16+24
南大  19+16

明月高悬

2021
8 t9 v' h0 S3 `! ~/ u5 @/ q) o浙大
[1]        Cp*Co(III)-Catalyzed Enantioselective Hydroarylation of Unactivated Terminal Alkenes via C-H Activation
5 Z, W* u9 A) k! N0 S, I[2]        Water Effects on Colloidal Semiconductor Nanocrystals: Correlation of Photophysics and Photochemistry
" v* k, h: T) n[3]        Stable Bimetallic Polyphthalocyanine Covalent Organic Frameworks as Superior Electrocatalysts
[4]        Synthetic Macrocycle Nanopore for Potassium-Selective Transmembrane Transport
: m! d' M. L4 {0 P[5]        Iron-Catalyzed Highly Enantioselective Hydrogenation of Alkenes
[6]        Atroposelective Synthesis of Conjugated Diene-Based Axially Chiral Styrenes via Pd(II)-Catalyzed Thioether-Directed Alkenyl C-H Olefination
, e% Q0 ?9 C, D' u% O[7]        Ligand-Directed Conformational Control over Porphyrinic Zirconium Metal-Organic Frameworks for Size-Selective Catalysis
[8]        Asymmetric Total Syntheses of (+)-Davisinol and (+)-18-Benzoyldavisinol: A HAT-Initiated Transannular Redox Radical Approach
[9]        Deep Desulfurization with Record SO2 Adsorption on the Metal-Organic Frameworks
[11]        Imparting Ion Selectivity to Covalent Organic Framework Membranes Using de Novo Assembly for Blue Energy Harvesting
[12]        Sequential Superassembly of Nanofiber Arrays to Carbonaceous Ordered Mesoporous Nanowires and Their Heterostructure Membranes for Osmotic Energy Conversion
[13]        Efficient Synthesis of Sulfur-Stereogenic Sulfoximines via Ru(II)-Catalyzed Enantioselective C-H Functionalization Enabled by Chiral Carboxylic Acid
[14]        Short-Range Ordered Iridium Single Atoms Integrated into Cobalt Oxide Spinel Structure for Highly Efficient Electrocatalytic Water Oxidation
[15]        Toward Covalent Organic Framework Metastructures
[16]        Sulfur Conversion to Multifunctional Poly(O-thiocarbamate)s through Multicomponent Polymerizations of Sulfur, Diols, and Diisocyanides
[17]        Selective Separation of Phenanthrene from Aromatic Isomer Mixtures by a Water-Soluble Azobenzene-Based Macrocycle
[18]        Pinwheel-Shaped Tetranuclear Organoboron Catalysts for Perfectly Alternating Copolymerization of CO2 and Epichlorohydrin
[19]        Cyclization-Promoted Ultralong Low-Temperature Phosphorescence via Boosting Intersystem Crossing

$ Y3 I* m1 h9 y  S$ ^1 t交大
[1]        Mechanically Interlocked Vitrimers
1 k' I( S1 q5 v* _[2]        Artificial Biomolecular Channels: Enantioselective Transmembrane Transport of Amino Acids Mediated by Homochiral Zirconium Metal-Organic Cages
[3]        Artificial Metal-Peptide Assemblies: Bioinspired Assembly of Peptides and Metals through Space and across Length Scales
[4]        (Hetero)arylazo-1,2,3-triazoles: "Clicked" Photoswitches for Versatile Functionalization and Electronic Decoupling
[5]        Efficient C2H2/CO2 Separation in Ultramicroporous Metal-Organic Frameworks with Record C2H2 Storage Density
" a2 p; p2 N" x% p- l5 i+ R$ D[6]        Enantio- and Diastereodivergent Construction of 1,3-Nonadjacent Stereocenters Bearing Axial and Central Chirality through Synergistic Pd/Cu Catalysis
[7]        Hydroalkylation of Unactivated Olefins via Visible-Light-Driven Dual Hydrogen Atom Transfer Catalysis
4 a7 n6 q" ^+ t[8]        Drum-like Metallacages with Size-Dependent Fluorescence: Exploring the Photophysics of Tetraphenylethylene under Locked Conformations
[9]        Rhodium-Catalyzed Regio- and Enantioselective Allylic Amination of Racemic 1,2-Disubstituted Allylic Phosphates
4 u9 Y' T" a  i" P[10]        Aptamer-Based Logic Computing Reaction on Living Cells to Enable Non-Antibody Immune Checkpoint Blockade Therapy
( k0 f8 R% Y3 Q/ q[11]        Single-Crystalline Ultrathin 2D Porous Nanosheets of Chiral Metal-Organic Frameworks
3 ~7 B) [$ Z' p- @/ H5 c[12]        Muscle-Mimetic Synergistic Covalent and Supramolecular Polymers: Phototriggered Formation Leads to Mechanical Performance Boost
[13]        Biomimetic Impact Protective Supramolecular Polymeric Materials Enabled by Quadruple H-Bonding
6 k( B4 A: s$ G8 B4 d* x[14]        Highly Stable Zr(IV)-Based Metal-Organic Frameworks for Chiral Separation in Reversed-Phase Liquid Chromatography
  i  s/ I; l7 S( M. ~( N4 v/ [[15]        Crystalline C-C and C=C Bond-Linked Chiral Covalent Organic Frameworks
[16]        Highly Specific Coordination-Driven Self-Assembly of 2D Heterometallic Metal-Organic Frameworks with Unprecedented Johnson-type (J51) Nonanuclear Zr-Oxocarboxylate Clusters
2 @6 |. b% r( }7 o
6 l( C0 ~# e& Q5 r* o复旦
[1]        Reshaping Membrane Polymorphism of Polymer Vesicles through Dynamic Gas Exchange
[2]        Ultraprecise Antigen 10-in-1 Pool Testing by Multiantibodies Transistor Assay
[3]        Metal-Free Hydrosilylation Polymerization by Merging Photoredox and Hydrogen Atom Transfer Catalysis
- |. l+ d& E2 v1 \1 N( x* y- D4 Z9 P[4]        Single Biomolecule Imaging by Electrochemiluminescence
* z8 P; a  B9 i* n5 M* @[5]        Synthesis and Near-Infrared Photothermal Conversion of Discrete Supramolecular Topologies Featuring Half-Sandwich [Cp*Rh] Units
' J9 T- ^. U- _6 B3 t[6]        Direct SARS-CoV-2 Nucleic Acid Detection by Y-Shaped DNA Dual-Probe Transistor Assay
[7]        Sulfur-Based Aqueous Batteries: Electrochemistry and Strategies
' Z9 [$ |; I' }' a, v$ i$ O7 x[8]        Chemically Self-Charging Aqueous Zinc-Organic Battery
8 I* P; K( {- T) Z- f8 Z* Z7 n[9]        Covalent Bonding Between Be+ and CO2 in BeOCO+ with a Surprisingly High Antisymmetric OCO Stretching Vibration
8 U1 u" F; Z" p3 i. M8 B[10]        Precisely Designed Mesoscopic Titania for High-Volumetric-Density Pseudocapacitance
! G; x; L3 a' ^$ i[11]        An "All-in-One" Synthetic Strategy for Linear Metalla[4]Catenanes
3 d; Q% w9 P! K[12]        In Situ Active Site for CO Activation in Fe-Catalyzed Fischer-Tropsch Synthesis from Machine Learning
[13]        Crystal Engineering of Angular-Shaped Heteroarenes Based on Cyclopenta[b]thiopyran for Controlling the Charge Carrier Mobility
! G4 R  u! ?, u/ D: @[14]        Voltage-Driven Flipping of Zwitterionic Artificial Channels in Lipid Bilayers to Rectify Ion Transport
[15]        Enantioselective Synthesis of Axially Chiral Biaryls by Diels-Alder/Retro-Diels-Alder Reaction of 2-Pyrones with Alkynes
- @" s6 F# x8 r* {5 N$ b5 Q/ k[16]        Graphdiyne/Graphene Heterostructure: A Universal 2D Scaffold Anchoring Monodispersed Transition-Metal Phthalocyanines for Selective and Durable CO2 Electroreduction
, @' {+ {% }0 W: B' E+ _[17]        Sequential Superassembly of Nanofiber Arrays to Carbonaceous Ordered Mesoporous Nanowires and Their Heterostructure Membranes for Osmotic Energy Conversion
' _0 V. `( O. E6 b! f! q[18]        A Comprehensive Landscape for Fibril Association Behaviors Encoded Synergistically by Saccharides and Peptides
[19]        Stabilizing Highly Active Ru Sites by Suppressing Lattice Oxygen Participation in Acidic Water Oxidation
[20]        In Situ Surface Structures of PdAg Catalyst and Their Influence on Acetylene Semihydrogenation Revealed by Machine Learning and Experiment
[21]        Block-Random Copolymer-Micellization-Mediated Formation of Polymeric Patches on Gold Nanoparticles
1 x- s4 Y4 i8 d7 s! r( c1 f1 l) e[22]        Steric-Effects-Directed B-H Bond Activation of para-Carboranes
[23]        Selective Construction of Very Large Stacking-Interaction-Induced Molecular 818 Metalla-knots and Borromean Ring Using Curved Dipyridyl Ligands
[24]        Recognition of Surface Oxygen Intermediates on NiFe Oxyhydroxide Oxygen-Evolving Catalysts by Homogeneous Oxidation Reactivity
" q: D% T, d. U
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7 p- v. Z# l: B8 H- d* F  o6 _南京大学
7 Y8 L/ h: }6 {9 u3 C) a[1]        Phenylboronic Acid Modification Augments the Lysosome Escape and Antitumor Efficacy of a Cylindrical Polymer Brush-Based Prodrug
[2]        Influence of Water and Enzyme on the Post-Transition State Bifurcation of NgnD-Catalyzed Ambimodal [6+4]/[4+2] Cycloaddition
4 {, }$ Q1 g! Y, U* f) w  ^& [& D[3]        Nickel-Catalyzed Ipso/Ortho Difunctionalization of Aryl Bromides with Alkynes and Alkyl Bromides via a Vinyl-to-Aryl 1,4-Hydride Shift
[4]        Super-Resolution Electrogenerated Chemiluminescence Microscopy for Single-Nanocatalyst Imaging
: \. T& a/ W1 Y# i: N[5]        An Activatable Near-Infrared Fluorescence Probe for in Vivo Imaging of Acute Kidney Injury by Targeting Phosphatidylserine and Caspase-3
[6]        Layer or Tube? Uncovering Key Factors Determining the Rolling-up of Layered Coordination Polymers
2 y* C1 t( H' T! N/ C0 s* v[7]        Activating a DNA Nanomachine via Computation across Cancer Cell Membranes for Precise Therapy of Solid Tumors
[8]        In(III) Metal-Organic Framework Incorporated with Enzyme-Mimicking Nickel Bis(dithiolene) Ligand for Highly Selective CO2 Electroreduction
0 c! w0 l7 C+ ^[9]        Nickel-Catalyzed Multicomponent Coupling: Synthesis of α-Chiral Ketones by Reductive Hydrocarbonylation of Alkenes
( f" T) M8 \6 x4 c! Y8 B# B9 O[10]        Enantioselective Reductive Homocoupling of Allylic Acetates Enabled by Dual Photoredox/Palladium Catalysis: Access to C2-Symmetrical 1,5-Dienes
( U9 [8 ]" ^' o( u1 F6 D[11]        Understanding the Dynamic Potential Distribution at the Electrode Interface by Stochastic Collision Electrochemistry
! w8 X$ r1 C0 i  Y[12]        Direct Electrochemical Protonation of Metal Oxide Particles
  c" P3 X3 Z+ T2 S0 [* Q: A[13]        A Threose Nucleic Acid Enzyme with RNA Ligase Activity
2 C" x( M: F+ ^4 g4 H7 G( t[14]        Drivers of i-DNA Formation in a Variety of Environments Revealed by Four-Dimensional UV Melting and Annealing
8 O" z: O* O; M[15]        Heterometallic Clusters with Multiple Rare Earth Metal-Transition Metal Bonding
[16]        Redox Modifications in the Biosynthesis of Alchivemycin A Enable the Formation of Its Key Pharmacophore
) m0 O) @  Q/ W[17]        Nonradiative Triplet Loss Suppressed in Organic Photovoltaic Blends with Fluoridated Nonfullerene Acceptors
[18]        Dual Intrareticular Oxidation of Mixed-Ligand Metal-Organic Frameworks for Stepwise Electrochemiluminescence
& f2 M- `# h2 D, I& x" W1 ~[19]        Cascade Reactions by Nitric Oxide and Hydrogen Radical for Anti-Hypoxia Photodynamic Therapy Using an Activatable Photosensitizer
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