In the C(++) world:
This depends very much on how tolerant your compiler is. In some cases,
 is little more but a more intent-showing way of writing
*. C-style arrays aren't "really" arrays, they're just a pointer to the first element of a set of vaguely typed data.
With the shift to more intent shown in code, the difference between the simple
char *c and
char c (which is not valid for many, perhaps even most compilers) and
char c is blown up a bit more. That said, this is not a technological limitation - it's still just a pointer, and you can use
char *c the same way as with
A slightly different variant is an array with static length, eg.
char c. This has a more significant difference from the simple
char *c. It's still just a pointer, but you don't allocate it manually. It has its benefits and limitations.
In any case,
char c, even if it was syntactically correct in your compiler (it might be in C++.NET), would be a bad notation as far as C/C++ is concerned, since it implies that the "arrayness" of the variable is in the "type", which isn't actually true.
The usual example is like this; in C#:
char a, b;
declares two char arrays,
b. However, in C:
char* a, b;
declares one char pointer, and one char variable.
That said, I could believe that it's the valid and proper way in C++.NET / C++/CLI. If it does follow the .NET standards, it's quite likely.
A huge disclaimer: do not confuse different C-style languages. They tend to be very different. C# in particular is extremely different, and a lot of the syntax is changed, and the same keywords may mean something completely different.
C++ is built on top of C (so C code mostly works in C++), and the same is true for eg. Objective-C. C# stands completely outside of this environment. It's not an extension, it's just inspired by some of the style (eg. the curly braces), but very, very different. In the end, it's probably closer to (Object) Pascal than to C(++), even though visually it looks much closer to C.