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Institution

Indian Association for the Cultivation of Science

EducationKolkata, India
About: Indian Association for the Cultivation of Science is a education organization based out in Kolkata, India. It is known for research contribution in the topics: Excited state & Catalysis. The organization has 3867 authors who have published 10457 publications receiving 220098 citations.
Topics: Excited state, Catalysis, Ligand, Thin film, Band gap
Papers published on a yearly basis
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Papers
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Journal ArticleDOI
Formation of all-oxide solar cells in atmospheric condition based on Cu2O thin-films grown through SILAR technique

[...]

Soumyo Chatterjee1, Sudip K. Saha1, Amlan J. Pal1
Indian Association for the Cultivation of Science1
01 Apr 2016-Solar Energy Materials and Solar Cells
TL;DR: In this paper, the formation of Cu2O thin-films through successive ionic layer adsorption and reaction (SILAR) process was reported, where NiO/Cu2O/ZnO/SnO2 heterojunction devices having a staircase-like energy level led to facile transport of electrons and holes to the opposite electrodes and thereby acting as alloxide thin-film solar cells yielding an energy conversion efficiency in excess of 1%.

70 citations

Journal ArticleDOI
Disorder-free localization and many-body quantum scars from magnetic frustration

[...]

Paul A. McClarty1, Masudul Haque1, Masudul Haque2, Arnab Sen3, Johannes Richter1 
Max Planck Society1, Maynooth University2, Indian Association for the Cultivation of Science3
08 Dec 2020-Physical Review B
TL;DR: In this article, it was shown that magnetic frustration can lead to various classes of models with anomalous eigenstates embedded in the high-energy spectrum, called many-body quantum scars that live in a sea of typical eigen states.
Abstract: Magnetic frustration has been a source of inspiration to condensed matter physicists for many years, usually as a means to obtain exotic low-energy physics. Here, magnetic frustration is shown to lead to various classes of models with anomalous eigenstates embedded in the high-energy spectrum. These include states called many-body quantum scars that live in a sea of typical eigenstates. The work also shows that the entire spectrum can be scarred through a fragmentation of Hilbert space generated by frustration.

70 citations

Journal ArticleDOI
Thioglycolic acid (TGA) assisted hydrothermal synthesis of sns nanorods and nanosheets

[...]

Subhajit Biswas1, Soumitra Kar1, Subhadra Chaudhuri1
Indian Association for the Cultivation of Science1
30 Sep 2007-Applied Surface Science
TL;DR: In this article, a novel thioglycolic acid (TGA) assisted hydrothermal process was used to synthesize nanorods and nanosheets of tin sulfide (SnS).

70 citations

Journal ArticleDOI
Indium promoted reductive homocoupling of alkyl and aryl halides

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Brindaban C. Ranu1, Pinak Dutta1, Arunkanti Sarkar1
Indian Association for the Cultivation of Science1
17 Dec 1998-Tetrahedron Letters
TL;DR: In this article, the homocoupling of alkyl and aryl halides in presence of indium metal in DMF produces bialkyls and biaryls in good yields.

70 citations

Journal ArticleDOI
Supramolekulare Anordnungen mit Charge‐Transfer‐Wechselwirkungen zwischen Donor‐ und Akzeptor‐Chromophoren

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Anindita Das1, Suhrit Ghosh1
Indian Association for the Cultivation of Science1
17 Feb 2014-Angewandte Chemie
TL;DR: In this article, a Charge-Transfer (CT)-Wechselwirkung zwischen einem organischen Donor and Akzeptor genutzt wird, um Strukturen wie fibrillare Gele, Micellen, Vesikel, Nanorohren, Foldamere, konformativ eingeschrankte Makromolekule and flussigkristalline Phasen zu erzeugen.
Abstract: In diesem Kurzaufsatz werden supramolekulare Anordnungen diskutiert, bei denen eine (nichtkovalente) Charge-Transfer(CT)-Wechselwirkung zwischen einem organischen Donor und Akzeptor genutzt wird, um Strukturen wie fibrillare Gele, Micellen, Vesikel, Nanorohren, Foldamere, konformativ eingeschrankte Makromolekule und flussigkristalline Phasen zu erzeugen. Nicht zuletzt auch nach dem Vorbild der Natur haben Chemiker die Wasserstoffbrucke als ein Hilfsmittel fur die Herstellung von supramolekularen Anordnungen aus einer vielfaltigen Auswahl an abiotischen Bausteinen umfassend genutzt. Als Strukturmotiv konnen CT-Komplexe hinsichtlich ihrem gerichteten Charakter und ihrer Komplementaritat mit Wasserstoffbrucken-gebundenen Komplexen verglichen werden. Vorteile von CT-Wechselwirkungen sind eine breite Losungsmitteltoleranz und ihre einfache spektroskopische Messung. Ein potentieller Nachteil ist jedoch ihre geringe Assoziationskonstante. Um dieses Hindernis zu uberwinden, wurden verschiedene Strategien entwickelt, z. B. die Verstarkung von CT-Wechselwirkungen mit zusatzlichen nichtkovalenten Kraften, ohne dass die Art der Donor-Akzeptor-Stapelung beeintrachtigt wird. Ein besonders vielversprechendes Anwendungsfeld von Donor-Akzeptor-CT-Komplexen ist die organische Elektronik.

70 citations

Authors

Showing all 3900 results

NameH-indexPapersCitations
Yves Pommier12378958898
Flemming Besenbacher11472851827
Katsuhiko Ariga11286445242
Shunichi Fukuzumi111125652764
Rajdeep Mohan Chatterjee11099051407
Kwang S. Kim9764262053
Amar K. Mohanty8153831856
Nigel D. Browning8164623621
Andrea Caneschi8043525896
Rodolphe Clérac7850622604
Subrata Ghosh7884132147
Miaofang Chi7730422817
Yuan Ping Feng7765025846
D. D. Sarma7052118082
Asim Bhaumik6946616882
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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
202310
202283
2021443
2020447
2019452
2018467