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1,4-dimethyl-3-phenylisoquinoline is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

1198575-51-7

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1198575-51-7 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 1198575-51-7 includes 10 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 7 digits, 1,1,9,8,5,7 and 5 respectively; the second part has 2 digits, 5 and 1 respectively.
Calculate Digit Verification of CAS Registry Number 1198575-51:
(9*1)+(8*1)+(7*9)+(6*8)+(5*5)+(4*7)+(3*5)+(2*5)+(1*1)=207
207 % 10 = 7
So 1198575-51-7 is a valid CAS Registry Number.

1198575-51-7Relevant academic research and scientific papers

Rh(III)-Catalyzed Regioselective Annulations of 3-Arylisoxazolones and 3-Aryl-1,4,2-dioxazol-5-ones with Propargyl Alcohols: Access to 4-Arylisoquinolines and 4-Arylisoquinolones

Wang, Tong-Tong,Jin, Hai-Shan,Cao, Man-Man,Wang, Ru-Bing,Zhao, Li-Ming

, p. 5952 - 5957 (2021)

The Rh(III)-catalyzed dual directing group assisted C-H activation/annulation of 3-arylisoxazolones with propargyl alcohols has been developed, which expands the application scope of isoxazolones in organic synthesis. This protocol also worked well with 3

N-Tosylhydrazone as an oxidizing directing group for the redox-neutral access to isoquinolines via Cp?Co(III)-Catalyzed C–H/N–N activation

Deshmukh, Dewal S.,Gangwar, Neha,Bhanage, Bhalchandra M.

, (2021/06/28)

Herein, an efficient and economic access has been revealed for the synthesis of isoquinolines via C–H bond activation strategy by using comparatively inexpensive and versatile cobalt catalyst. A hardly investigated directing group, N-tosylhydrazone has been effectively applied as an internal oxidant for an annulation reaction with internal alkynes via C–H/N–N bond functionalization. This catalytic protocol works for the extensive variety of substrates in moderate to excellent yields under external oxidant-free conditions. Additionally, the proposed protocol has advantages such as broad substrate coverage with significant product yields, readily synthesized substrates as well as scalability up to the gram quantity which further improves the competency of the methodology.

Rh(III)-catalyzed synthesis of isoquinolines using the N-Cl bond of N-chloroimines as an internal oxidant

Chu, Benfa,Fang, Lili,Guo, Shan,Qi, Bing,Shi, Pengfei,Wang, Qi,Zhu, Jin

supporting information, (2020/03/10)

The Rh(III)-catalyzed coupling of N-chloroimines with alkynes for the efficient synthesis of isoquinolines is reported. This represents the first use of the N-Cl bond of N-chloroimines as an internal oxidant for construction of the isoquinoline skeleton. The synthesis features atom and step economy, a green solvent (EtOH), mild reaction conditions, and a broad substrate scope.

Hydroxylamine-O-Sulfonic Acid (HOSA) as a Redox-Neutral Directing Group: Rhodium Catalyzed, Additive Free, One-Pot Synthesis of Isoquinolines from Arylketones

Biswal, Pragati,Pati, Bedadyuti Vedvyas,Chebolu, Rajesh,Ghosh, Asit,Ravikumar

, p. 1006 - 1014 (2020/02/15)

A new application of hydroxylamine-O-sulfonic acid (HOSA) has been discovered whereby aromatic ketones react with HOSA and alkynes to form isoquinolines in the presence of a RhIII catalyst. This C–H/N–O annulation methodology gives excellent yields even without any silver additive, acid/base or metal oxidant. This is the first report wherein a directing group is simultaneously forming in situ, acting as acid additive, and also as an internal oxidant.

Ruthenium-Catalyzed Annulation of N -Cbz Hydrazones via C-H/N-N Bond Activation for the Rapid Synthesis of Isoquinolines

Bhanage, Bhalchandra M.,Deshmukh, Dewal S.

, p. 2506 - 2514 (2019/06/08)

In this work, N -Cbz hydrazone has been employed as a rarely explored directing group for the synthesis of isoquinolines by annulation with internal alkynes via C-H/N-N activation using Ru catalyst. Additive as well as external oxidant-free rapid protocol

Cp*Co(III) catalyzed annulation of N-Cbz hydrazones for the redox-neutral synthesis of isoquinolines via C–H/N–N bond activation

Subhedar, Dnyaneshwar D.,Deshmukh, Dewal S.,Bhanage, Bhalchandra M.

, p. 3121 - 3130 (2019/08/30)

A new cascade oxidative cyclization reaction of N-Cbz hydrazones with internal alkynes has been explored for the preparation of isoquinoline derivatives using Cp*CoIII-catalyst through C–H and N–N bond functionalization. N-Cbz hydrazones are ra

Cp?-Free Cobalt-Catalyzed C-H Activation/Annulations by Traceless N, O-Bidentate Directing Group: Access to Isoquinolines

Li, Xiao-Cai,Du, Cong,Zhang, He,Niu, Jun-Long,Song, Mao-Ping

, p. 2863 - 2866 (2019/04/17)

N,O-Bidentate directing-enabled, traceless heterocycle synthesis is described via Cp?-free cobalt-catalyzed C-H activation/annulation. The weakly coordinating nature of the carboxylic acid was employed for the preparation of isoquinolines. Meanwhile, the N-O bond of the α-imino-oxy acid can serve as an internal oxidant. Terminal as well as internal alkynes can be efficiently applied to the catalytic system. This operationally simple approach shows a broad substrate scope with the products obtained in good to excellent yields.

Rapid and Atom Economic Synthesis of Isoquinolines and Isoquinolinones by C–H/N–N Activation Using a Homogeneous Recyclable Ruthenium Catalyst in PEG Media

Deshmukh, Dewal S.,Gangwar, Neha,Bhanage, Bhalchandra M.

, p. 2919 - 2927 (2019/05/10)

Herein, we report an atom-efficient, rapid, green, and sustainable approach to synthesize isoquinolines and isoquinolinones using a homogeneous recyclable ruthenium catalyst in PEG Media assisted by microwave energy. Dibenzoylhydrazine was used for C–H/N–N activation reactions for the first time in combination with ketazine as oxidizing directing groups for annulation reactions with internal alkynes. The developed protocol is environmentally benign due to significantly shortened times with an easy extraction method, higher atom economy, external oxidant and silver or antimony salt free conditions, applicability to a gram scale synthesis, use of biodegradable solvent and wide substrate scope with higher product yields. Moreover, it is worth noting that the established methodology allowed reuse of the catalytic system for up to five successive runs with minimal loss in activity.

Cp*Co(iii)-catalyzed annulation of azines by C-H/N-N bond activation for the synthesis of isoquinolines

Deshmukh, Dewal S.,Yadav, Prashant A.,Bhanage, Bhalchandra M.

, p. 3489 - 3496 (2019/04/14)

Herein, an efficient, atom economic and external oxidant free approach has been disclosed for the synthesis of isoquinolines. Azines were employed for annulation reactions with alkynes via sequential C-H/N-N bond activation using an air-stable cobalt catalyst. The method takes advantage of the incorporation of both the nitrogen atoms of azines into the desired isoquinoline products, offering the highest atom economy. In addition, the developed protocol works under external oxidant as well as silver salt free conditions. Furthermore, the established methodology features a relatively broad substrate scope with high product yields and scalability up to the gram level.

N-Tosylhydrazone directed annulation via C-H/N-N bond activation in Ru(ii)/PEG-400 as homogeneous recyclable catalytic system: a green synthesis of isoquinolines

Deshmukh, Dewal S.,Bhanage, Bhalchandra M.

, p. 4864 - 4873 (2018/07/15)

A green and sustainable methodology for the synthesis of isoquinolines using Ru(ii)/PEG-400 as a homogeneous recyclable catalytic system has been demonstrated. N-Tosylhydrazone, a rarely explored directing group, has been successfully employed for an annu

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